When an ISR executes, no threads can execute on the same CPU, so thread scheduling is affected and the longer it executes, the bigger impact. Depending on the implementation (software and hardware), all interrupts (or lower priority interrupts) may be disabled while an ISR executes, which means if an ISR takes a lot of time to complete, other interrupts may not be handled fast enough, meaning there will be latencies or even missed interrupts.
There are a few other things to take into account:
- using locks in ISRs
- touching paged memory in ISRs
If you acquire a lock in an ISR that can be already locked, you may enter an infinite loop if there's no other ISR or CPU to release that lock.
If you touch a page of memory that's swapped to the disk, you may run into a similar situation as the page fault handler may not be able to bring that page from the disk to the memory if it does that in a thread and that thread cannot execute because of being lower priority compared to ISRs and being never scheduled.