I'm studying x86 and Real Time Systems, and I have a question, that is:

Which steps x86 follows to handle any interrupt ?


When an interrupt occurs, the CPU does the following:

  • Push the current address (contents of the Instruction Pointer) onto the stack; also, push the processor flags (but not all the other processor registers)
  • Jump to the address of the ISR (Interrupt Service Routine), which is specified in the Interrupt Descriptor Table.

The ISR should do the following:

  • Push any registers which it intends to alter (or, push all registers)
  • Handle the interrupt
  • Reenable interrupts
  • Pop any registers which it pushed
  • Use the IRET instructions, which pops the CPU flags and Instruction Pointer value from the stack (and thus returns to whatever was executing when the interrupt occured).
  • 1
    Is it occurs on the stack of userspace program or on some internal kernel stack? – Bulat M. Sep 19 '16 at 5:53

Start here with the Interrupt Descriptor Table. Basically, when an interrupt occurs, flow control jumps to this table and then on to whatever is in this table. Also, I believe all registers are pushed as soon as the interrupt occurs, but I'm not 100% certain of this as it's been a long, long time since I've dealt with this.

  • 1
    All the registers and the flags ar pushed before the interrupt occurs and are popped after the interrupt-handling code is over. – nc3b May 24 '10 at 15:05
  • Yep, kinda what I thought. On some of the stuff I've worked on, you've had to do the pushing and popping yourself. Was pretty sure that x86 did this for you. – Michael Dorgan May 24 '10 at 15:09
  • 5
    The processor flags are pushed automatically, but the other registers aren't; when it's dispatched, the ISR should explicitly preserve any/all registers which it intends to alter. – ChrisW May 24 '10 at 15:16

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