I think this is one of those "vi vs. emacs" type of questions, but I will ask anyway as I would like to hear people's opinions.
Often times in an embedded system, the microcontroller has a hardware timer peripheral that provides a timing base for a software timer subsystem. This subsystem allows the developer to create an arbitrary (constrained by system resources) number of timers that can be used to generate and manage events in the system. The way the software timers are typically managed is that the hardware timer is setup to generate at a fixed interval (or sometimes only when the next active timer will expire). In the interrupt handler, a callback function is called to do things specific for that timer. As always, these callback routines should be very short since they run in interrupt context.
Let's say I create a timer that fires every 1ms, and its callback routine takes 100us to execute, and this is the only thing of interest happening in the system. When should the timer subsystem schedule the next handling of this software timer? Should it be 1ms from when the interrupt occurred, or 1ms from when the callback is completed?
To make things more interesting, say the hardware developer comes along and says that in certain modes of operation, the CPU speed needs to be reduced to 20% of maximum to save power. Now the callback routine takes 500us instead of 100us, but the timer's interval is still 1ms. Assume that this increased latency in the callback has no negative effect on the system in this standby mode. Again, when should the timer subsystem schedule the next handling of this software time? T+1ms or T+500us+1ms?
Or perhaps in both cases it should split the difference and be scheduled at T+(execution_time/2)+1ms?