This sounds like a good topic for a new Mission:Messaging column but I'll write up the condensed version here. I'll preface my answer by noting that many of my recommendations are contrary to those you might find elsewhere. In some cases this is because the way MQ is commonly used have changed over the years. In other cases it is because the conventional wisdom never worked well to begin with. (Cluster channels named
TO.QMGR for example.) In all cases, I prefer conventions which apply to the broadest number of situations. That means it is usually possible to find exceptions to these rules for specific cases but they are broadly applicable nonetheless.
Some general rules
The following apply to all object types.
Use the dot character
. as a separator.
Authorization rules parse names using dot characters as separators. For example, the queue name
MY.EXAMPLE.QUEUE.NAME would match rules like
MY.** but not
MY.* because the dots signify name node separator characters. Do yourself a favor and use dots rather than underscores as your naming node separators consistently.
Use machine-parsable names.
When you have 5 queue managers and a few hundred objects, you can easily get by doing all your management manually with WMQ Explorer or runmqsc. However, there comes a point where consistency, reliability, repeatability and efficiency demand that you script up some of your routine operations or employ instrumentation to respond to network events. More than anything else this means eliminating ambiguity in names.
For example, if you create a naming convention that channel names must look like
SRCQMGR.DESTQMGR then it is possible for a script to read a
SDR channel name and derive the names of the two queue managers it connects. However, what does the script do with a channel name like
GA.PAYROLL.OPS? Is it the
GA.PAYROLL queue manager connecting to the
OPS queue manager? Or is it the
GA queue manager connecting to the
PAYROLL.OPS queue manager? A human might be able to tell instantly based on context but scripts are notorious for doing what you tell them rather than what you intended. Similar situations arise when queue names have position-dependent qualifiers at both the beginning and the end of the name and a variable number of nodes.
Stick with UPPERCASE names.
This is for compatibility across all platforms, and in particular z/OS. Although it is true that more z/OS shops are using mixed case, it is also true that there are still a lot of systems out there that only accept UPPERCASE names. While it is easy to say "this doesn't apply to me" I have seen many cases where somebody had problems interfacing to a new business partner because of incompatible names. After all, the ability to interface to just about any platform out there is one of the main reasons for using WMQ in the first place.
Don't include attributes of the object in the name
In an SOA world, queues and topics are different types of destination and often are interchangeable. Something putting messages to what it thinks is a queue doesn't necessarily know (or care!) if they are actually going to a queue or a topic. A queue that has an application listening on it for messages may be fed by an administrative subscription that is actually roping in publications from one or more topics.
What we really care about is the nature of the messages - what function do they perform - not whether we are connecting to a local queue or an alias queue. So adding qualifiers like
.TPC (for topic) and so forth doesn't make sense. Similarly, adding
.RCVR onto a channel name sucks up 5 useful characters that could have been better used describing the QMgr name. Worse, these practices bake the topology into the object names, making the system both less flexible and more brittle.
Point-to-Point Channel names
Use names like
SVR channels. This is biased toward languages that read left-to-right because the intention is to describe the data flow from a QMgr to another QMgr
Use names like
CLUSNAME.QMNAME. The old wisdom said to use names like
TO.QMNAME but if you ever implement overlapping clusters this causes the same channel to be used for multiple clusters. That's bad because you can then never perform maintenance on one cluster without impacting the other. Using
CLUSNAME.QMNAME insures that every QMgr has a dedicated
CLUSRCVR channel for each cluster in which it participates.
The exception to the "don't include attributes of the object in the name" is arguably the
SVRCONN channel. This is because channels are very much tied to the physical rather than the logical layer of the network. So putting the QMgr name in a SVRCONN channel name is generally OK. I don't object too strongly if people want to add
.SVRCONN at the end, either.
The thing to remember about client channels is that if you use a Client Channel Definition Table (CCDT) then the unique index into that table is the channel name. That means you cannot have the same channel name on multiple QMgrs and still use a CCDT. Since the CCDT is one way to configure the SSL/TLS channel details, this is often not appreciated to its fullest until the "let's finally secure WMQ" project comes along. By using unique channel names for
SVRCONN channels from the start, you can future-proof the network. Usually these names look like
APP.QMNAME or to make it obvious you aren't dealing with a cluster or point-to-point channel,
APP.QMNAME.SVRCONN or similar.
Queue manager names
No dots in QMgr names
One implication of the previous rules is that cluster and queue manager names must contain only one node and therefore should never contain a
. character. This is because channel names are typically derived from the cluster and/or QMgr names. So in the example above, a
RCVR channel name like
GA_PAYROLL.OPS would tell both humans and scripts that the channel in question connects a QMgr named
GA_PAYROLL to a QMgr named
Names of 9 chars or less
Channel names can be only 20 characters. Subtract one for the dot separator, divide by two and round down gets you to 9 characters max for queue managers. If there's a possibility that you may set up different channels for classes of service (for large vs small messages, for example, then drop back to 8 chars or less for QMgr names. This leads to
QMgr names reflect the physical layer
In a service-oriented world, we really care about destination names like queues and topics. We care much less about queue manager names because these are just life support for queues and topics. Client apps don't care so much about which QMgr the connect to, so long as they can send requests and receive replies. WMQ very conveniently fills in the reply-to QMgr name on outbound requests so it is rare that an application needs to know about it.
On the other hand, the administrators need to know about the QMgr name. In the early days it was common to name QMgrs for the host server. Later it became the fashion to name them for the applications they hosted. Now in the SOA world, messaging is infrastructure and usually not associated with any single application so the pendulum has swung back. Give the QMgr a unique name that is meaningful to an administrator.
Never reuse QMgr names!
It is unfortunately very common to "move" a QMgr from one place to another or to have a primary and disaster recovery QMgr with the same name. This practice usually means some part of the application is dependent on the QMgr name and therefore it is "easier" to reuse the name. IBM introduced the
QMID as a way to address some of the problems introduced by reusing QMgr names. The typical use case is that a node gets rebuilt and the QMgr once there is also rebuilt from scratch. The cluster knows it is a new QMgr because the
QMID has changed, but the name used for routing and other operations remains the same.
Although this helped in that limited use case, it doesn't address the issues when both QMgrs with the same name are online at the same time. Nor does it address the problem that a reputable Certificate Authority won't issue multiple certs with the same Distinguished Name which forces reuse of the same certificate for multiple QMgrs.
Remember that QMgrs are just life support for queues and topics and ideally will be anonymous to the applications using them. Pick a naming convention that allows you to spin up new QMgrs with unique names by the hundreds or thousands, if necessary, so that you don't have to reuse QMgr names.
Use intention-revealing names
Or to put it another way, name the object for what it does and not what it is. For example, if you were in the habit (as many people are) of including qualifiers like
.QL for local queues and
.QA for aliases, then any change in topology will impact the applications using those queues. Instead, name the queues for the functions they represent.
Go left-to-right, most generic to most specific
Object names, especially queues, should be constructed hierarchically beginning with the most generic qualifier and proceeding to the most specific qualifier. For example, many shops use
APP is the ID of the owning application, then one or more nodes with the function and subfunction. Many shops add a version qualifier on the end so that new versions of a service can migrate their clients on separate schedules rather than changing the service on the existing queue and making all clients change at the same time.
The thing that reads the messages owns the queue
If I have a service endpoint represented by a queue then there is a many-to-one relationship between the things that might call the service to the thing that provides the service. The queue is associated with the service and the thing providing that service. Clients are more or less anonymous. Therefore, if any of the stakeholder applications can be said to "own" the queue, it is the service provider app that consumes messages form it.
The thing that publishes the message owns the topic. Sort of.
The relationship is not as straightforward with topics. Here it is the consumers of messages that are usually anonymous. In that sense if the topic name reflects any application, it is most likely the publisher. However, even publishers can be anonymous, or at least there may many of them and not all publishing at the same time. With topics it makes much more sense that the topic tree nodes are structured for the hierarchy of data or functionality they represent. These names tend to match the names of the publishing apps so sometimes the publisher "owns" the topic as much out of coincidence as anything else.
Put positional qualifiers on the left
Where names have variable numbers of qualifiers, put the positional ones on the left where scripts and automation can parse them. Some shops where both the beginning and ending qualifiers are positional deal with this by using underscores for separators in the variable section of the name like
APP.FUNC.SUBFUNC1_SUBFUNC2.VER. Scripts and authorizations then always see a fixed number of nodes in the name but this approach can be brittle if somebody forgets and makes a name with an extra node or two.
This sums up most of the general rules but some of the philosophy behind them has been captured in the Mission:Messaging column. In particular: