Why I’m not a Community Manager (although sometimes I say I am)

Whilst away on holiday in Morocco in between a little food poisoning and camel riding, I managed to complete another book that has been on my ‘to read’ list for some time.

Seth Godin’s book – Tribes (http://amzn.to/cX9JpK) – is a worthwhile quick read.  Although I didn’t find the content as valuable as Clay Shirky’s Here Comes Everybody (http://amzn.to/8ZyTXi), motivationally it was great as it really helped me verify some thoughts and ideas that have been lingering around for some time.  The premise is about how groups of people come together all the time due to a common idea and how a drop in transaction costs to form groups or stay connected i.e. through the use of Social Media has facilitated these tasks meaning that the effort of management is not really there anymore.

Instead of ‘Management’, what is needed to give a particular “tribe” direction and guidance is leadership and it is this that I prefer to refer to when I think of my role within the Solution Exchange platform (as well as Jack of all trades – master of none).  This in itself is relatively easy when the tribe is full of talented and gifted individuals and companies who innovate and lead everyday – no this is not some form of cringe worthy kissing ass.  In this case, “leadership” tasks are merely listening tasks.  This of course is a slight simplification but in the most part is true.  Listening is the consumption of audible information.  Observing the industry in which we all work is also a form of inward consumption and one where many input sources are used.  Choosing to implement ideas within the Solution Exchange or simply facilitating the more meaningful discussion for our customers (sometimes one leading to the other) is very valuable and it is this that I shall continue to try and take the lead on.

So, given all this, what am I saying? Maybe a manifesto is required? – I would like to continue and encourage discussion with those in the community, which the Solution Exchange platform is attempting to unify and connect, in order to bring light on examples of how customers are using and can better use Open Text product.  This in turn will help raise the profile of leaders within the community who are already doing great work and have done for years.  I’ve already established some great connections with some colourfully talented people in the last few months and I’d like to start putting some of these people (and companies) on a pedestal.  Lastly, and most  importantly to me, I would like to continue to lead by example and listen to the community to hear how improvements can be made and better connect the right people to take part in these discussions.  These conversations are so valuable as people inherently like to be listened to, especially when they see that someone has taken action as a result.  In my opinion, some of this is already happening and will continue to happen more and more adding value to the community initiative.

One final question; what is your part in this? Simple – contribute, discuss, and engage – please feel free to reach out to me to discuss what you think is right or wrong.

Twitter: DannyBaggs
Solution Exchange Feedback: www.solutionexchange.info/feedback

Thanks for listening!

Danny Baggs
Community Leader

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Moving Open Text Delivery Server to Common Search

As part of the small team behind the Solution Exchange, I was somewhat dreading the day when I had to change the internal search engine over to Open Text Common Search on the Web Site Management Delivery Server.

However, in absolute honesty, this was not the issue of complex configuration that I was expecting and I will explain the steps I took.

The Delivery Server Common Search Connector

1. The first step is to install the Open Text Common Search product.  I was fortunate enough to have this already in our infrastructure so didn’t need to do this step.
2. Assuming the Common Search is installed, you can log into Delivery Server, navigate to connectors > Search Engines > Administer and click the import button.  Version 10.1 of Delivery Server has a pre-configured connector that you can use.  Click the OTCommonSearch link to import the connector.
3. Change the URL of the Common Search Server to the IP of your Common Search machine.
4. Change the “Incoming directory of indexing jobs” to a shared folder.  This is a path as seen by the Delivery Server.  I’ve chosen to place this on the local machine of the Delivery Server and share that with the Common Search machine.
5. Change the “Incoming directory of Common Search server” to point to the same directory as above but from the perspective of the Common Search machine.  I initially had problems here as the Delivery Server and Common Search were on different Domains.  We changed this anyhow to reflect better practice in our setup.
6. Create the shared folder if you haven’t already and make sure both the Delivery Server and Common Search have read/write access.
7. You’re done!

It was really that easy! (well, if I discount the delays due to not being able to share directories effectively across Windows Domains at first).

Finally, it is worth pointing out the tweaks I made to my queries for the new Search Engine.

When searching specific groups, you can now use the syntax:

group:<ds_group_name>

and

attributeName:'[#request:attributeExample#]'

for attributes.

Admittedly, I didn’t need to do anything more complex than this so there were not a lot of queries to change.

There may be more complex example out there but the key message is to start planning your changeover now as it might just be easier than you think!

As always, please leave your questions or comments.

IIS7, Tomcat & Application Request Routing

Further Update: 27nd June 2011

Another update on this topic. If you were making the use of custom error pages in IIS7 and you implemented the below update, you may have noticed that the custom error commands are no longer being adhered to. To change this, you need to set up custom error pages at a site level by choosing your site, selecting “Error Pages”, then “Edit Feature Settings” from action menu and then “Custom error pages”.

Important Update: 22nd June 2011

On page 2 of this article (How To Configure IIS 7.0 and Tomcat with the IIS ARR Module), there is a key step that I failed to observe when I wrote the original post below.  The step in question is the enablement of the (reverse) proxy server after the ARR install.  By doing this, you are able to apply rewrite rules at the site level — something I wasn’t able to achieve originally, which meant that the routing rules within my server farm were somewhat overloaded.

With this setting enabled, I can leave a single delegation rewrite rule at the server farm level, telling IIS to delegate HTTP requests of a certain pattern but leave the rewrite rules that are there for beautification at the desired site level.  This is a much tidier and more scalable approach.

One gotcha that you need to be aware of is that the rewrites at the site level need to be absolute URLs.  Therefore, you could be tempted to place the host of a single tomcat instance that lay behind IIS direct in here and it would work fine but why not allow for a little future proofing and use localhost within all absolute URL site level rewrites, which isolates the rewrites used for masking ugly application URLs and delegates the job of request delegation to the server farm?  This approach would allow for the server farm config to be used to bring other tomcat instances online or taken offline for maintenance etc without having to change the site level configuration.  In other words, it keeps the various areas of the IIS7 interface focused on the job in hand allowing for easier administration.

Please keep this update in mind as you read the otherwise unchanged original post below.

Regards,

Dan

After many years of using the Tomcat Connector (http://tomcat.apache.org/connectors-doc/) when setting up Tomcat behind IIS, it is now time to say goodbye.

This is the conclusion that I’ve come to after having some particularly significant challenges using IIS7 on a 64bit Windows 2008 machine.

The traditional approach I’ve used in the past has been to utilise the Tomcat Connector, which is implemented as an ISAPI Filter, to delegate requests from IIS through to Tomcat.  This has worked great for me in the past and was the subject of a previous article (http://bit.ly/lp6zW) but the 64bit system threw in a couple of additional challenges that weren’t so easy to get around.

The problems faced led me to discover Application Request Routing (ARR), an official extension for IIS7, which allows you to define the delegation of requests to servers sitting behind the IIS instance.

What is particularly nice with this extension is the way in which it facilitates the former approach within the GUI, making it easier to understand what is being delegated.  The approach however, is similar to the ISAPI filter approach – delegating based on URL path patterns.

The following takes you through an overview of how to set this up:

1. Install ARR

You can obtain the appropriate install for the ARR IIS7 extension at http://www.iis.net/download/applicationrequestrouting

Once installed, the ‘Server Farms’ node indicates that it has installed correctly as indicated in the picture below.

The Server Farms node is seen if ARR is installed correctly

A number of  modules are added as part of this extension.  You can find the details of these from the same ARR link (http://www.iis.net/download/applicationrequestrouting)

2. Create Server Farm

Although the concept of a ‘farm’ of servers may be overkill for our needs of delegating HTTP requests through ISS7 to Tomcat, we shall never the less set up a farm containing one server – our Tomcat instance.

To do this:

1. highlight the ‘Server Farms’ node in the left panel of the IIS7 Management Console .
2. Choose ‘Create Server Farm’ from the right hand side action menu.
3. You will be prompted for a name for the farm.  For my  needs in setting up the Open Text Delivery Server behind IIS7, I gave the farm the name ‘Tomcat – Delivery Server’.
4. You will then be prompted to set up a server in the farm.  In our case, we are just going to select the localhost instance of Tomcat running on port 8080. To specify the port, open the ‘Advanced settings’.  Strangely, there appears to be no easy way to edit a servers port once set up so make sure you are correct, otherwise you will have to delete and add a new server.
   

   Make sure you open the Advanced settings to edit the port number

3. Configure the Routing Rules

Now that we have informed IIS7 about the server that sits behind, we need to let it know how we wish to delegate HTTP requests to it.  To do this, we choose the newly created Server Farm in the left hand panel and select the Routing Rules feature.Within here, we have a few options.  I’ve chosen to keep the defaults of having both checkboxes checked and have no exclusions set as I am delegating this responsibility to the URL Rewrite Rules.

From here, you can add and modify the rewrite rules defining how requests are delegated using the ‘URL Rewite’ link in the right-hand action panel.

In my case, I chose to change the default rule that was set up for me to a regular expression as opposed to the wildcard default.  However, I only chose this due to personal preference.  The pattern I used for this rule is:

cps(.+)

and I ignore the case.

Finally, I have no Conditions or Server Variables to take note of in my scenario although they can easily be added here, so I conclude the rule by setting the action to ‘Route to Server Farm’ and chose my ‘Tomcat – Delivery Server’ farm with a path setting of

/{R:0}

This passes all URL path info through to Tomcat.  I also choose to stop processing of subsequent rules

4. Refine Rules for your Environment

Lastly, in my setup, I’ve added the following further rules to refine how my site is served through IIS7:

Delegate .htm and .html requests:

Pattern - ([^/]+\.html?)
Action path - /cps/rde/xchg/<project>/default.xsl/{R:1}

Delegate .xml requests:

Pattern - ([^/]+\.xml?)
Action path - /cps/rde/xchg/<project>/default.xsl/{R:1}

Delegate default home page

Pattern - ^/?$
Action path - /cps/rde/xchg/<project>/default.xsl/index.htm

Summary

Although this approach of using IIS7 in a reverse proxy capacity may not benefit from the efficiencies of the AJP protocol used by the Tomcat Connector, the impact in most sites will be negligible.  In exchange, you have a way of Tomcat and IIS7 working together in a way where the GUI of the IIS7 Management Console helps admins define and understand what is happening.  The ISAPI Filter approach is often not so visible because of the broad nature of what ISAPI modules can provide but also due to the configuration required outside of the IIS7 Management Console.

As always, if you have any questions, leave a comment.

Open Text Delivery Server with a Front Controlling Web Server

Overview

This post discusses the best practice of deploying the Open Text Delivery Server in an optimal way alongside a front controlling web server.

Delivery Server is a dynamic web server component that has strengths in coarse grained personalisation and dynamic behaviour as well as system integration.  Therefore, as it is housed within a Servlet Container, it is not the ideal location from which to serve static content (unless you wish to maintain a level of access control over the static content).

Leveraging the use of a front controlling Web Server, facilitates an optimised site deployment as web servers such as Microsoft’s IIS or Apache’ HTTP Server can be utilised for delivering static content in an optimised way.  For example, it is possible to easily configure a far future ‘Expires’ header on a given folder and therefore its content within either Apache or IIS, which promotes the caching of content in a user’s browser, which reduces page load times.  Another example is in the use of mature compression features within such web servers.  Although these examples can be achieved with some Servlet Container’s, it is certainly not straight forward and doesn’t necessarily make sense from an architectural perspective.

It is for this architectural reason, that best-practice dictates that we delegate only the relevant HTTP requests to Delivery Server.  In most cases, this means that Delivery Server is delegated requests for .htm and .xml resources.  The rest can be served from the front controlling web server (or better still a CDN).

This article provides a high-level overview of what to set up.  Depending on feedback, I may post further posts on the details of each step.

Delegating Requests from the Web Server to Delivery Server

This step can be easily achieved using the Tomcat Connector for both IIS and Apache. To find out more see the Tomcat Connector documentation here: http://bit.ly/at1w8G.

This connector uses the Apache JServ Protocol, which connects to port 8009 by default on Tomcat and is optimised to use a single connection between the Web Server and the Delivery Server for many HTTP requests.  Therefore, this represents a better option than using reverse proxy functionality within the Web Server.

If we take a typical Delivery Server install (i.e. the reference install using Tomcat), a page can be accessed with something like the following URL:

http://<host>:8080/cps/rde/xchg/<project>/<xsl_stylesheet>/<resource>

where resource could be any text based file like index.html or action.xml.

The result of correctly installing the Tomcat Connector means that we can access that same resource but through the Web Server on port 80 and not direct to the Tomcat instance on port 8080:

http://<host>/cps/rde/xchg/<project>/<xsl_stylesheet>/<resource>

Many confuse this step with URL rewriting or redirecting as the Tomcat Connector is often called the Jakarta Redirector.  Therefore, I choose to differentiate by saying that this delegates HTTP requests between the two systems and nothing more.

In every install, I have always used the defaults in the workers.properties file and just used the following rule in the uriworkermap.properties file:

/cps/*=wlb

URL Rewriting

Due to the effort of setting up delegation, deciding which HTTP requests should be forwarded to Delivery Server is a simple matter of performing some URL rewrites.

As we have decided to use a mature Web Server, there are best practice ways to achieve this.  In IIS6, HeliconTech (http://bit.ly/bgJEF6) created a very useful ISAPI filter which ports the widely adopted Apache mod_rewrite (http://bit.ly/cfvuLD) functionality.  For both of these, the same rewrite rules can be used.  The following provides a couple of typical examples:

# Default landing page redirect
RewriteRule ^/$ /cps/rde/xchg/<project>/<xsl_stylesheet>/index.htm [L]

# Rewrite to delegate all *.html or *.htm HTTP requests to Delivery Server
RewriteRule ^/?.*/(.+\.html?)$ /cps/rde/xchg/<project>/<xsl_stylesheet>/$1 [L]

# Rewrite to delegate all *.xml HTTP requests to Delivery Server
RewriteRule ^/?.*/(.+\.xml)$ /cps/rde/xchg/<project>/<xsl_stylesheet>/$1 [L]

Those of you who are well versed in regular expressions will see that the last two rules could be combined but I tend to leave them separate to aid readability.

The beauty of using regular expressions in this way is that you can actually create useful SEO benefits to your site also. Take for example the following rule:

RewriteRule ^/?.*/([0-9a-zA-Z_]+)$ /cps/rde/xchg/<project>/<xsl_stylesheet>/$1.htm [L]

This rule maps a URL with many apparent subdirectories to the Delivery Server file.  This means that you can publish a page with a “virtual” path within the Management Server which appears to a browser (and search engines) as something like the following:

http://<host>/this/is/a/descriptive/directory/structure/page.htm

and yet this maps to:

/cps/rde/xchg/<project>/<xsl_stylesheet>/page.htm

IIS7

Being a Microsoft product, IIS7 has some quirks with regards to the rewriting (of course), which I explained in a previous post: http://bit.ly/lp6zW.

Summary

This approach has led to many successful installations where sites could additionally be optimised for SEO and page load.