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I'm writing a small bootloader for an x86 based PC. The problem is that the CPU is somehow still active after executing these instructions:


sti is supposed to disable interrupts for the next instruction
hlt is supposed to completely halt the processor

Since they're used together, I assumed they would just 'freeze' the computer. But when I assemble it and mount it in VirtualBox as a floppy image, my CPU jumps to 100%.

What am I doing wrong?

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Stupid question but why are you trying to completely halt the CPU and computer? – griegs Sep 19 '10 at 23:16
It could be a vbox bug: "Has an interrupt arrived? Has an interrupt arrived? Has an ..." – bmargulies Sep 19 '10 at 23:18
Isn't cli instruction that will disable interrupts? – Nemanja Boric Sep 19 '10 at 23:28
@griegs: Because it is ready to be turned off. – Nathan Osman Sep 19 '10 at 23:31
up vote 7 down vote accepted

I think you are a bit confused about both of these commands.

The sti command enables interrupts and the cli command disables them.

The halt state is similar to an idle loop, so it doesn't suspend the processor.

Here are some links that may help you: Info on the STI/CLI commands:

Info on the x86 instructions: From here there is a link to the hlt command that may help.

If you suspend the processor, how do you wake it up again, if you disable the interrupts?

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That's the point - the computer is ready to be turned off at that point. – Nathan Osman Sep 19 '10 at 23:30
Perfect. I replaced the STI instruction with the CLI one and it works perfectly now! – Nathan Osman Sep 19 '10 at 23:33
You should turn off with ACPI, not by CLI+HLT. – Michael Apr 6 '15 at 15:14

I would like to add a comment about 'cli' as I have been bitten by this a couple of times in the past. The 'cli' instruction does not block all interrupts--it only blocks the maskable ones. Conceivably, the system could still be woken up due to a non-maskable interrupt (NMI).

As one of the comments indicates that the computer is ready to be turned off, I expect that there are no other threads/processes/tasks ready to run in the system (otherwise an NMI could conceivably lead to a reschedule). For the scenario you describe an NMI is unlikely; however depending upon your level of paranoia of things going wrong, you may wish to add a loop to guard against the possibility.

    jmp sysSuspend
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That's a good point. Thanks. – Nathan Osman Sep 21 '10 at 21:20
This is the true way of completely halting a PC. And with very low power consumption (unlike a naive loop). – MestreLion Feb 23 '15 at 23:56
Worth noting: NMI interrupts are not supped to happen anyway, it indicates some serious hardware issues, like memory parity errors, and generally head to a HLT anyway. So, as Sparky said, the loop is just paranoia, but its harmless. – MestreLion Feb 23 '15 at 23:57

This question can be reformulated into more correct question: how to completly suspend the control flow? In fact this task can be split into two subtasks:

  1. Suspending of the current (synchronous) control flow.

    • Simple busy loop (100% CPU usage, big power consumption, high thermal effect).

    • Halt based loop (power saving mode C1, most of CPU logic unpowered).

  2. Prevention of the asynchronous switching of control flows.

    • Stub interrupt handlers in IDT.

    • Masking of the interrupts on global interrupt controller (PIC or IO APIC).

    • Masking of the interrupts on local interrupt controller (Local APIC).

    • Masking of the interrupt on CPU core logic.

In any case, you must be aware and be prepared to NMI handling, because there is no mechanisms which give you power to disable them.

Ideal solution:

    mov  EDX, NMI_INT_HANDLER_STUB; // address of installed handler
    mov  ECX, 0x02                ; // id of the NMI handler in IDT 
    call InstallHandlerInIDT      ; 
    cli                           ; // mask all maskable interrupts on CPU core
    hlt                           ; // turn CPU into HALT state (power saving mode C1)
    jmp SUSPEND                   ; // try again if NMI had happened

    iretd                         ; // Complete handling immediatelly and return back.
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Interesting approach, but.. is it really necessary to stub all handlers in IDT? Isn't CLI supposed to do that? Also, you forgot to paste the InstallHandlerInIDT function ;) – MestreLion Feb 24 '15 at 0:02
It seems that you misunderstood the code and explanation. What the code do is installation of empty NMI_INT_HANDLER_STUB handler for the NMI interrupts (slot 0x2 in IDT), because the cli/sti mechanism disables all interrupts except NMI. This step provide a guarantee that NMIs won't be able to withdraw the control flow from the hang state. Remaining interrupts are effectively disabled using CLI instruction. – ZarathustrA Feb 24 '15 at 1:17
Oh, I see. So the stub is meant only for slot 2, thanks for explaining. But the code that actually write to the IDT is still missing, correct? I assume it's represented by the InstallHandlerInIDT function – MestreLion Feb 24 '15 at 3:45

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