The majority of my posts on this blog address using various features of WebSphere CloudBurst to build private cloud computing environments. Today though, I want to switch gears and instead of talking private cloud, let's talk public cloud. Specifically, let's take a look at the capabilities and services delivered via the IBM Smart Business Development and Test on the IBM Cloud (hereafter referred to as the IBM Cloud).
For some of you, the fact that IBM has a public cloud offering may be a little surprising. After all, if you listen to some uninformed critics you may hear that IBM only cares about private clouds for large enterprises. That is simply untrue. The IBM Cloud is an Infrastructure as a Service public cloud that delivers rapid access to services hosted on IBM infrastructure via a self-service web portal. The IBM Cloud offers multiple payment options, including usage-based billing and reserved capacity billing, and even features a cost estimator so you can confidently establish a monthly budget for your usage.
Regardless of whether you use a private or a public cloud, security should always be a chief concern. As such, IBM takes security very seriously in the IBM Public Cloud. The infrastructure that constitutes the cloud is subject to internal IBM security policies that include regular security scans and tight administrative governance. Your data and virtual machines stay in the data center to which you provisioned them, and physical security policies match those of internal IBM data centers. Additionally, you can optionally make use of the virtual private network option to isolate access to the virtual machines that you provision on the IBM Cloud. Rest assured that security in the IBM Cloud was a guiding design principle and not an afterthought.
With the basics out of the way, let's get on to the question I'm sure you have: What can I run on the IBM Cloud? To get you started, the IBM Cloud provides a nice list of public images in its catalog that are ready for you to provision. These images include WebSphere Application Server, WebSphere sMash, DB2, WebSphere Portal Server, IBM Cognos Business Intelligence, Tivoli Monitoring, Rational Build Forge, and many more. In addition to the public images provided by the IBM Cloud, you can build your own private images. Private images allow you to start with a base public image and then customize it by adjusting the configuration or installing new software. Once customized, you can store these private images on the IBM Cloud and provision them whenever needed. Whether you are using public or private images, you have a number of server configurations to choose from in order to host your environments.
While very brief, I hope this overview provides you with some of the more important details regarding the IBM Cloud. There are few, if any, service providers out there with the enterprise expertise of IBM, and I think you see that reflected in the IBM Cloud. If you are looking at public cloud options for your enterprise application environments, you should definitely take a closer look at the IBM Cloud.
The recently announced IBM WebSphere CloudBurst Appliance is creating a fair amount of stir in the cloud computing market. Its ability to create, deploy, and administer private WebSphere cloud environments gives customers the ability to create and manage a services oriented cloud. To provide a more in-depth look at what the appliance delivers, I’d like to take a short look at the creation, deployment, and administration capabilities to understand what each one means to the user.
To get started, in order to leverage WebSphere environments in a private cloud, you need to construct WebSphere configurations optimized for such a virtual environment. Using WebSphere CloudBurst you can do just that. WebSphere CloudBurst ships a virtual image packaging of the WebSphere Application Server called WebSphere Application Server Hypervisor Edition. From this new virtual image offering, complete WebSphere Application Server topologies can be constructed to create what WebSphere CloudBurst terms a pattern. These patterns are representations of fully functional WebSphere Application Server environments. For example, using WebSphere components in the WebSphere Application Sever Hypervisor Edition, you can create a cluster environment that includes a WebSphere Deployment Manager, two customs nodes, and the IBM HTTP Server.
In order to create these patterns, WebSphere CloudBurst provides a drag-and-drop interface that allows users to select WebSphere components from the new virtual image and drop them onto a canvas that visually represents the WebSphere configuration. In addition to adding WebSphere components, users can also drag and drop script packages onto the components within a pattern. These script packages allow users to provide scripts and other artifacts that further customize the WebSphere Application Server environment once it has been deployed in the cloud. These script packages can do just about anything, from tuning WebSphere security settings to installing applications in the newly created environment.
Building the virtualized WebSphere Application Server environment, or pattern, is only part of the process. Once the pattern is built, it is ready to be deployed to the cloud. WebSphere CloudBurst operates on a ‘bring your own cloud’ model, so the cloud resources are defined to the appliance. These cloud resources consist of a set of supported hypervisors and a list of IP addresses available to the cloud. Once these resources are defined, WebSphere CloudBurst has all the information it needs for deployment. On deployment of a pattern, WebSphere CloudBurst determines the state of the available resources, and places the pattern across the available hypervisors accordingly. It places the WebSphere instance to ensure efficient use of resource, high performance, and high availability. In addition to placing the pattern instance onto the hypervisors, WebSphere CloudBurst selects and assigns an IP address to each WebSphere component in the configuration. Both the placement and IP address assignment are done with no user input or intervention. The result of the pattern deployment is a fully instantiated WebSphere environment that can be accessed and used like any other such environment. It is important to note that the WebSphere environments do not run on the WebSphere CloudBurst Appliance, and in fact the appliance plays no role in the runtime of the environments.
While it is true that the WebSphere CloudBurst Appliance is not involved in the runtime of the patterns that it deploys, it does provide users the capability to monitor and administer these environments. From the WebSphere CloudBurst console, each of the WebSphere virtual systems can be viewed to understand network configuration, memory consumption, and CPU usage. Usage of cloud resources (i.e. memory, CPU, IPs) is also tracked at a user or user group level allowing WebSphere CloudBurst to support chargeback across an enterprise. In addition to these monitoring capabilities, maintenance features are part of the appliance’s administration story. WebSphere CloudBurst provides users with a central administration point for applying maintenance, such as iFixes and service packs, to the WebSphere virtual systems it created. These fixes can be applied within the WebSphere CloudBurst console with only a few mouse clicks providing an unprecedented ease of maintenance application.
The above is only a glimpse at the capabilities of the new IBM WebSphere CloudBurst Appliance. Look for more information about this offering at ibm.com/cloudburst, and stay tuned to our blog, twitter account (@WebSphereClouds), and websiteas we continue to deliver insight into WebSphere CloudBurst.
For those of you basically familiar with IBM Workload Deployer, you are likely aware that the appliance has many different capabilities. On the surface it is a cloud management device for middleware and middleware applications. Of course, there are quite a few details that are important to understanding the functionality provided, and I spend quite a bit of my time talking with various users and potential users about these details. One thing I have noticed that can become an obstacle in having effective communication regarding IBM Workload Deployer is the lack of a commonly understood language. I sometimes find that me and the user are simply using different terminology to describe the same thing. As you can imagine, this just serves to create confusion, and neither party gets the most out of the conversation.
In order to combat this communication gap, I thought I would put together a simple presentation that introduces and defines IBM Workload Deployer terminology. Check it out below (you can also download it here):
While the presentation does not dive deep into the terms it introduces, it does provide a basic definition and illustrative example of each. My hope is that this fosters an understanding of some of the basic concepts in IBM Workload Deployer, and ultimately pushes us towards a common vernacular. Please let me know what you think!
Since bundles are such a core component of the IBM Image Construction and Composition Tool, I thought it would help to take a closer, more thorough look at them than I did in my post last week (if you have not already, I suggest reading the overview post before continuing). To help us in our closer examination, we will consider an example bundle I built using the IBM Image Construction and Composition Tool. The example bundle I built encapsulates the logic to install and configure WebSphere Application Server Community Edition. Let's take this step by step.
The first part of the bundle is the General section. This section allows you to provide a name and description for the bundle, the bundle ID and version, and the products represented by the bundle.
The next section of a bundle is the Requirements section. In this section, you can define the operating system and software requirements for your bundle. In the OS section, you specify the type, distribution, and version level of the OS your bundle requires. In the software section, you can indicate that your bundle requires other bundles defined in the IBM Image Construction and Composition Tool. You do this by providing the bundle ID for required bundles.
Next, we move on to the Install section of the bundle. Two major subsections make up this section. The first subsection is the Files to Copy section. Here, you provide files, via a file upload dialog or by providing a URI, and you specify a destination directory. When you add a bundle to an image and initiate the synchronization process, the IBM Image Construction and Composition Tool will automatically copy the files you list here to the specified destination directory on the virtual machine. In the sample WebSphere Application Server Community Edition bundle, I specify a single install.sh file to copy to the virtual machine.
The second major subsection of the Install section is the Command subsection. In this section, you will specify the installation command that the IBM Image Construction and Composition Tool should automatically invoke during the synchronization process. Additionally, you can define variables that you want to make available to your installation scripts. The tool makes these available as environment variables for the process within which your script runs. In the sample bundle, I tell the Image Construction and Composition Tool to invoke the install.sh script specified above, and I define parameters that specify the location of the binaries to install, the location to install the binaries on disk, and more.
The next section in a bundle is the Configuration section. The configuration section allows you to define configuration operations that provide actions that execute for each deployment of an image containing the bundle. You can define 0 to N configuration operations in a bundle, and each configuration operation definition contains three major subsections. The first is the Files to Copy subsection. This subsection is similar to the Files to Copy subsection in the Install section. You provide files or file URIs and you provide a destination directory to which the tool will copy the file. The WebSphere Application Server Community Edition bundle contains a single configuration operation called ConfigWASCE. In the Files to Copy section, I define a single file to copy into the image's activation engine directory.
The second major subsection in the configuration operation definition is the Command subsection. Like the Command subsection in the Install section of the bundle, you specify a command to execute and optionally associate variables with the command. There is a key difference between the command definition for configuration operations as opposed to installation operations. The Image Construction and Composition Tool invokes the command you specify for installation operations exactly ONCE at image creation (synchronization) time. On the other hand, commands you specify in the configuration operation definition execute EACH time someone deploys an image containing your bundle. In the sample bundle, my ConfigWASCE.sh script will automatically execute for each deployment. The tool will package the image in such a way that ensures the automatic passing of parameters defined in the Arguments list (including num_servers, WASCE_HOME, and more) to the ConfigWASCE.sh script.
The final major subsection of a configuration operation definition is the Dependencies section. This allows you to define other services on which your configuration operation is dependent. This can include other configuration operations in the same or other bundles, and it can include general operating system services. The WebSphere Application Server Community Edition sample bundle includes a few dependencies.
The Install and Configuration sections are really the meat of your bundle, but there is more. There is a Firewall section that allows you to define port ranges and associated protocols that the IBM Image Construction and Composition Tool should ensure are open when provisioning an image containing your bundle. Currently, the tool supports firewall configuration data when building images for the IBM Cloud. The Reset section of the bundle allows you to define tasks that should execute when capturing the image back into the Image Construction and Composition Tool (after synchronziation completes). This allows you to clean up the state of the image after the install completes. Reset configuration is not currently available in the alphaWorks version of the tool. Finally, there is a License section where you can define software licenses associated with your bundle. The tool automatically adds these licenes to the constructed image's metadata, thereby allowing deployment tools to prompt the user to accept all pertinent licenses. The WebSphere Application Server Community Edition sample bundle defines a product license.
Of course, once the bundle definition is complete, you can leverage it to compose and produce an image that you can use in WebSphere CloudBurst, Tivoli Provisioning Manager, or on the IBM Cloud. In the case of the WebSphere Application Server Community Edition sample bundle, I used it to create an image that I loaded into WebSphere CloudBurst and used to build patterns.
I hope this helps to provide a better idea of what bundles are all about in the Image Construction and Composition Tool. Don't forget to take a look at the overview demo and stay tuned for more to come about this new tool!
Maybe you remember, but not long ago I wrote a post about scenarios when WebSphere CloudBurst and Rational Automation Framework for WebSphere (RAFW) combine to form quite the pair. You can read that post for details, but the basic scenarios were configuring and capturing, importing existing environments into WebSphere CloudBurst, and migrating from virtual to physical installations. Well, after talking with customers and colleagues lately, you can add another scenario to the list: version-to-version WebSphere Application Server migrations.
I want to be clear here about one thing before I go further. I am in no way advocating against the use of the migration tooling that ships with WebSphere Application Server. It is an excellent tool that can make migrations simple and fast. I am merely pointing out that when it comes to version-to-version migrations you have options, and you should survey them all before making a decision.
With that understanding, let's take a look at WebSphere CloudBurst and RAFW in the context of a version-to-version migration. This integrated approach to migration is ideal if you are amenable to moving up to a newer version of WebSphere Application Server in a cloud-based environment. Using both products makes migrations fast and easy, and you can be very confident that the configuration of the migrated environment is faithful to the original. The figure below shows the basic flow of the migration and breaks it down into a set of discrete steps.
Now, for a quick break down of each step:
Extract config & apps from old environment: The first step involves pointing RAFW at your existing configuration, the one you want to migrate from, and using an out-of-the-box action to import all of the configuration into a RAFW environment. You can also import your application binaries in this step.
Store config & apps from old environment: In step two, you will store the extracted configuration and application binaries in a source control repository or some backup location separate from your RAFW server. This is an optional, but recommended step.
Analyze and update apps: Before migrating your applications to the newer version of WebSphere Application Server, you can use the completely free Application Migration Toolkit to analyze the source code of your applications. This toolkit will recommend any required updates to ensure your application continues to behave as expected when moving to the new version. Again, this is an optional step, but the toolkit is free and very handy. So, why not?
Deploy new version of the environment: Step four starts by building a new WebSphere CloudBurst pattern. This new pattern matches the topology of the environment you are migrating from, and you build it from an image containing the version of WebSphere Application Server to which you want to migrate. Once built, you deploy it to your private cloud and you have a running environment in minutes.
Apply stored config and deploy updated apps: Now that you have your new environment up and running, use RAFW to apply the configuration you extracted from your old environment. RAFW inherently understands any configuration translation that needs to occur to apply the old configuration to your new environment, and it can also deploy your updated applications for you.
That's the basic overview for version-to-version migrations when you are moving to a cloud-based environment. In time, I will be posting more information about this process to shed a little more light about what is going on under the covers. In the meantime, you know how to reach me if you have questions!
It seems like it was announcement day across IBM, and specifically in WebSphere. While the announcements were numerous and touched many different topics, I want to focus on a couple of announcements of particular interest to those of you interested in WebSphere CloudBurst and IBM Hypervisor Edition virtual images.
First, for all of our WebSphere Process Server and WebSphere Business Monitor users, there are a couple of important pieces of information in this announcement. This announcement outlines the availability of WebSphere Business Monitor Hypervisor Edition. The new image allows you to dispense WebSphere Business Monitor 7.0 environments using WebSphere CloudBurst to VMware hypervisors. In addition, the announcement outlines the expansion of the existing WebSphere Process Server Hypervisor Edition image to support the z/VM platform and the Red Hat Enterprise Linux (RHEL) operating system for VMware.
Moving beyond our BPM set of solutions, IBM also announced the availability of a WebSphere Message Broker Hypervisor Edition. This virtual image allows you to construct and deploy WebSphere Message Broker and WebSphere MQ environments using WebSphere CloudBurst. The stack includes the RHEL operating system, and it is ready to run on VMware hypervisors.
With that in mind, here's an update to the WebSphere CloudBurst supported product matrix:
* Availability subject to dates documented in referenced announcement letters
As you can see, we are continuing our effort to expand the choice you have when using WebSphere CloudBurst to create and deploy application environments to your cloud. If you are interested in using WebSphere CloudBurst for WebSphere Business Monitor, WebSphere Process Server, or WebSphere Message Broker, check out the above announcements. You will find more technical information as well as planned availability dates.
Just one last scrap of food for thought. Feedback from you, our users, is instrumental as we continue to expand software choice with WebSphere CloudBurst. Please continue to let us know your thoughts and needs!
Typically we spend most of the real estate on this blog talking about cloud computing and specifically, IBM Workload Deployer. However, I am hoping that this week you permit me to take a bit of a detour to discuss a very important new announcement. Last week, IBM announced the early availability of the WebSphere Application Server v8.5 Alpha. In all fairness, your response may be 'You guys always have WAS Alphas. Why should I care about this one?' I have two words for you: Liberty Profile.
Based on my own experience in the IBM labs and my conversations with numerous enterprise developers out there, I think I understand many of the needs to create an efficient development environment. Developers need tools and runtimes that are lightweight, easy to install, simple to configure, and fast to recycle or otherwise update. Enhancements in our WebSphere Application Server v8.0 took many of these concerns head on with features such as directory-based install and drastically improved server startup times. The new v8.5 Alpha, and specifically the Liberty Profile, extend this developer focus even further.
The Liberty Profile is a lightweight, fast, and easy to use application runtime that you can download for free by visiting the WASdev community site. The design of the runtime is best described as fit-for-purpose and you configure it by selectively enabling and disabling features based on application need. For example, you may enable the servlet, JPA, and JSP features, or you may decide you only need to enable the servlet feature of the runtime. It is completely up to you! In addition to this innovative new runtime, the WebSphere Application Server v8.5 Alpha also includes free tools for Eclipse. These tools make it simple to create Liberty Profile server instances, start server instances, stop server instances, install applications, and remove applications. In fact, you can do all of this and even download and install the WebSphere Application Server v8.5 Alpha without ever leaving your Eclipse workspace! Check out the demonstration below to see an example of installing and using the new Alpha.
I really hope that you will participate in the new WebSphere Application Server v8.5 Alpha. The setup process that includes both tools and runtime will take just a few minutes of your time, and leaves but a small footprint on your machine (the Liberty Profile of the WAS v8.5 Alpha is only ~50 MB unzipped). In the meantime, you can find more information about the Alpha on the WASdev site or in the new Information Center. Finally, don't forget to join in on the conversation on the WASdev forum!
I'm going a little off-topic here as this has nothing much to do with cloud computing, but I thought this was definitely worth a mention. Just recently, IBM announced the new WebSphere Application Server for Developers edition.
This new edition of the WebSphere Application Server product is a completely FREE version of the application server that allows developers to download, install, and use the product on their personal machines. It is the same code base as the production version of the WebSphere Application Server, thus providing developers with an environment in which to unit test with confidence that their applications will run unchanged in the production environment.
Further, users can install free feature packs on this version just as they do with other WebSphere Application Server versions. If users have questions or problems using the WebSphere Application Server for Developers edition, they can use the same forums used for existing WebSphere Application Server offerings.
I'd encourage anyone interested to download the WebSphere Application Server for Developers edition. It's worth a look, after all it's free!
Lately Joe and I have been pretty vocal about bringing up the new IBM Image Construction and Composition Tool capabilities in IBM Workload Deployer v3.1. While writing about such new capabilities is always good, I think seeing is believing. In that light, I hope you will take a look at the recent demo I put together that shows how to use the Image Construction and Composition Tool with IBM Workload Deployer v3.1!
By utilizing the cloud hosting environment for applications, enterprises can benefit in several ways. Two benefits that immediately enter the picture are a consistent and responsive application user experience, regardless of demand, and a reduction in energy wastes caused by under-utilization of resources. Yesterday, IBM and SAP showcased technology that promises to enhance the state of the art in how these two benefits are realized.
In a demonstration at CeBIT, IBM and SAP previewed a technology that ensures demand-based capability of SAP applications hosted on IBM POWER6 servers. By using the Live Partition Mobility feature of the AIX operating system on the POWER6 servers, partitions are transferred across servers, regardless of physical location, in real-time. This means SAP applications can be migrated across physical resources in real-time as demand dictates. In addition to this capability, the solution also provides the ability to power up and power down physical servers to meet demand, thus eliminating energy wastes from under-utilization. What's more is that these two features are completely autonomic! You can read more about the demonstration here.
I think this revolutionary solution gives us a look into the future of cloud computing. Solutions will continue to evolve to become more autonomic and more integrated, and you can be sure that IBM will be on the leading edge of the movement.