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What is the purpose of a processor sending an Inter Processor Interrupt to itself on the IA-32 architecture?

According to the Intel IA-32 Architecture Software Developer's Manual, Vol. 3, Ch. 10.1:

IPIs are used for software self-interrupts, interrupt forwarding, or preemptive scheduling.

But why would you use a self IPI when the processor can also interrupt itself with an INT instruction? This feature seems to be redundant.

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3 Answers 3

I think the big reason is consistency: If you are writing software for a multi core processor, and you want to send an interrupt out to all cores in the system, it would suck to have to do an IPI to every other core, then execute INT to interrupt the current core, and of course you will also have to setup the handlers for both interrupt sources etc... It is just much easier to send IPI to everyone.

Another scenario might be a multi core system where you are passing work or messages around to a "free" core to handle the load. The "free" core might be the current core, again you don't want to have a special case in software just because you are sending an interrupt to yourself.

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Both reasons are wrong I think. Each logical processor(thus each core) has its own Local APIC. This means that a self IPI only is received by that particular core that sent it. Secondly, there is a special destination shorthand available to send an IPI to all the Local APICS in a system including itself. –  jmiller Nov 17 '12 at 15:10
    
Please re-read, because I only gave one reason for having self IPI (consistency) and two examples illustrating the consistency. –  Chris Desjardins Nov 18 '12 at 21:39

There is another reason for self IPI.

If you initialize a SMI handler it's first located to a low address in ram. The entire CPU state is saved in the SMI. However, all CPUs will initially used the same state area and the new relocated address is set by manipulation of a state variable.

In this case you want to send the initial SMI to one CPU at the time. If you send it to all they will all use the same area for storing the state and that will be a disaster.

It's convenient to use the same initialization routine for SMI handler relocation for all the CPUs, so you can use the self IPI with the SMI type to enter the SMI relocation code.

The BSP can send the SMI IPI to it self and then one AP at the time. They will then one by one be relocated to non conflicting areas.

I'm sure that there are many other situations where a self IPI is needed. Whenever the CPUs shares a critical area like in the initial SMI state, the self IPI is motivated for consistency.

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I guess you have already known the reason since 2 years have passed.

But here's my understanding:

IPI can be blocked when IRQ is disabled, it is kept by the IOAPIC, until the destined core re-enables IRQ with an sti instruction. However an int instruction always traps the CPU into a lower ring level, no matter whether IRQ is enabled or not.

So maybe self-IPI is needed when the kernel wants to do something, but not now when the IRQ is disabled. Thus, it sends itself an IPI, making such interrupt happens as soon as the IRQ on that core is re-enabled.

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