Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

When an interrupt is triggered in protected mode on x86 is it possible to figure out what interrupt number was fired? For example lets say I called int 0xFF. In the handler can I find out that int 0xFF was called?

share|improve this question
The IDT stores each interrupt handlers and each handler should only be assigned to a single interrupt number. i.e.: there should never be a single interrupt handler that is assigned to multiple interrupts. –  Jay Sep 3 '12 at 1:10
I was planning to have a function pointer array were my kernel could assign different handlers. I was going to have one handler that would call a handler from the array but what ever , I will have separate handlers for each one.... –  user1454902 Sep 3 '12 at 2:08
add comment

2 Answers

up vote 2 down vote accepted

If you have unique interrupt handlers (or, at least, unique entry points and prologue code), then, of course, you can differentiate int 0xFF from, say, int 0x30. The ISR addresses are stored in the IDT, so, that's the place where the differentiation starts.

There's no very good alternative to unique ISRs. Here's why...

In an ISR you could examine the caller's stack, see the return address and examine the code right before the return address to see if it's the 2-byte int n instruction (encoded as bytes: 0xCD, n) or something else. The problem is, there are also int 3 and into 1-byte instructions (encoded as 0xCC and 0xCE respectively). How do you differentiate between 0xCD+0xCC (int 0xCC) or 0xCD+0xCE (int 0xCE) and simply 0xCC (int 3) or 0xCE (into)? There could be anything before 0xCC or 0xCE. The variable length of instructions doesn't let us easily and reliably analyze/disassemble code backwards.

What about other ways of triggering interrupts/exceptions, like ud2? Or instructions triggering #GP, #PF? Those can be arbitrary instructions.

Also you should keep in mind that exceptions aren't handled in the exact same way. Some of them come with the extra information saved by the CPU on the stack prior to entering the ISR, it's the error code. Others don't have this error code and your ISR needs to remove it before doing iret. A mistake in determination of the exception vector will crash or hang your code.

Now, about hardware interrupts... You may be able to determine which hardware interrupt is being serviced. The PIC has the in-service register (ISR), where a bit set to 1 (AFAIR) indicates the IRQ, but if you let interrupts of higher priority preempt ISRs handling interrupts of lower priority (by enabling interrupts inside of ISRs), then the interrupt identification quickly becomes more complicated than necessary.

So, just go with unique ISRs for all of your IRQs, exceptions and system calls. Or use one common ISR but with multiple unique entry points each saving a unique number (=vector number) on the stack. The common code afterwards will extract this number and do what's necessary for that interrupt vector.

share|improve this answer
add comment

I'm no expert on interrupt handlers but they have to have a return address somewhere so that the original code can resume execution. If you can get old of this address then you can inspect the previous address which will presumably contain the number of the interrupt.

share|improve this answer
Previous address has nothing to do with the interrupt number. Maybe when you talk exception or trap it may helps, but for external interrupt, not at all. –  arsane Sep 3 '12 at 2:15
@arsane In his example he called int 0xFF. It did not appear that he was using external interrupts. –  Neil Sep 4 '12 at 23:53
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.