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I saw in many many oses (and some bootloader), they all disable interrupt (cli) before switch to protected mode from real mode. Why we need do that?

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BIOSes use PIT interrupt (IRQ0) to track time. As soon as you enter protected mode, real mode interrupt handling is no longer valid; CPU in protected mode requires protected mode IDT (Interrupt Descriptor Table). Upon entering protected mode, IDT limit in IDTR (IDT Register) is set to 0 (any interrupt number makes CPU generate an exception), so as soon as PIT (or anything else) generates an interrupt, the CPU will generate an exception, which will make another exception generated, triggering #DF (double fault) and, by consequence, #TF (triple fault).

Also, IRQ0 happening in protected mode will trigger #DE (divide exception) ISR (interrupt service routine), as interrupt vectors from 0 to 31 are reserved for exceptions in protected mode.

So, the (most probable, as other interrupts than PIT might happen too) order of things that happen is like this (note: this assumes that PIT interrupt will be triggered first, but, as I said before, it can essentially be any interrupt, each will lead to #DF and triple fault):

  1. PE bit is set in CR0.
  2. PIT interrupt happens, PIC (Programmable Interrupt Controller) gets signal on it's pin #0.
  3. PIC remapping isn't set, so it triggers IRQ0 on the CPU.
  4. IRQ0 (= #DE) attempts to execute interrupt handler, but IDT's limit is 0, so (IIRC) #GP (General Protection fault) is generated.
  5. IDT's limit is 0, so #DF is generated.
  6. IDT's limit is 0, so #TF is generated.
  7. CPU either stops or reboots.
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  • IRQ0 won't trigger #DE — it'll trigger #DF because by default PIC's IRQ0 is mapped to INT 8 by the BIOS.
    – Ruslan
    Aug 20, 2015 at 12:46
  • @Ruslan That sounds completely arbitrary. Any BIOS can remap it in any way it wants. Also it's not entirely relevant here - any vector other than #DF or #TF will trigger #DF, #DF will trigger #TF, and #TF, well... will just jump straight to 7. Btw. what BIOS remaps to that specific vector? Have any references for that, or is it just a value found by experimentation?
    – Griwes
    Aug 20, 2015 at 12:51
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    It was so in the original IBM PC and remains so for compatibility in all PC-compatible systems. See e.g. this reference. Any other reference you find, e.g. Ralf Brown's Interrupt List or anything, will tell you the same. And #DF will be even with IDT properly setup — just because vector 8 means #DF.
    – Ruslan
    Aug 20, 2015 at 13:43
  • @Ruslan: alright, looks good, although I'm pretty sure there are some BIOSes out there that actually do remap IRQs to other interrupt vectors - it's not like many BIOS vendors were ever especially worried about that silly compatibility stuff :P
    – Griwes
    Aug 20, 2015 at 16:33
  • This explains why interrupts need to be disabled, but not why a cli instruction is needed. The 80386 Programmer's Reference Manual says "The initial state of the 80386 leaves interrupts disabled; [...]" and that's what I can observe in the EFLAGS register using Bochs. (The manual also explains why interrupts need to be disabled.)
    – user247702
    Sep 4, 2017 at 22:37

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