One of the most fun features of my current project is our "extreme feedback monitor". We’re using CruiseControl to build our entire codebase, including unit tests, acceptance tests, and quality metrics, every five minutes. To make a broken build painfully obvious, we’ve got a stoplight hanging on one wall of the room. (I may post some pictures later, if there’s interest.)
Kyle Larson found the stoplight itself in a gift shop (Spencer’s, maybe, I can’t remember… Kyle, help me out here). It had just one plug but you could push each light as a separate switch.
Well, it looks pretty dumb to walk over and push on the red light to show a broken build. It’s not pragmatic and it’s not automated. So, Kyle rewired it with two additional cords, so each lamp has its own plug.
I plugged each lamp into an X10 lamp module so each color could be turned on and off individually. I hooked a "FireCracker" wireless transmitter up to the serial port on the build box. With one switched receiver and two lamp modules, we were ready to go.
CruiseControl supports a publisher that is supposed to integrate directly with X10 devices over the serial port. Unfortunately, the installation and setup for Java programs to work with X10 devices on Linux is… problematic. First off, the JavaComm API appears to be totally stagnant. It does not support Linux at all, so you have to install the Solaris SPARC version, but supply an open-source Linux implementation of the API (www.rxtx.org), replacing a .properties file. Then you have to make sure that the user running your build loop is a member of the "tty" group. Then just cross your fingers.
I got all of the above to work from my Java test apps, but the X10 publisher built into CC still couldn’t open the serial port.
I finally gave up on the built-in publisher. I used wget, BottleRocket, and a shell script to check the build status web page every 30 seconds and change the lights accordingly.
Now, within a minute of a broken build, we can all see it. When the light is green, the build is clean.
If the red light means "broken build", and the green light means "good build", you might wonder what we use yellow for.
Yellow means that someone is in the process of synchronizing and committing code. Along with the FireCracker module, we also got a remote control. That normally sits in the middle of the tables in the lab. Whenever a pair needs to check in code, they grab the remote (i.e., take the semaphore) and turn on the yellow light. As an added "feature", the wireless switched receiver is the only module that makes an audible "click" when it switches. We use that one to control the yellow lamp, so we also have an auditory cue when a pair starts their commit dance.
After committing, the pair turns off the yellow light and replaces the remote, thus putting the semaphore and allowing the next pair to commit. In the event of multiple blocked pairs, FIFO behavior is not guaranteed. Semaphore holders have been known to be susceptible to flattery and bribery.