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I am trying to add multiprocessor support for an embedded operating system (DNA-OS) on the Zynq platform in the ZedBoard. The OS is actually flawlessly functional with CPU_0 alone. The OS architecture requires the implementation of a cpu_send_ipi function in order to activate multiprocessing support: Basically, this function would interrupt a processor and give him a new thread to process.

I looked for an IPI register in the ug585 (Technical Reference Manual for Zynq) but couldn't find any.

I tried digging further in the Cortex-A9 spec for an IPI register, and found out that software generated interrupts could be used as IPI.

After adding software interrupt support to my OS, the problem is that CPU_0 can interrupt itself, but cannot interrupt CPU_1 !

PS: for my OS to handle SGIs, I used the register spec from the ug585 in page 1486: SGI Control register

So is there any other special configuration to permit CPUs to interrupt each others? or any other way to implement IPI ?


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See questions like ARM bring up other CPU cores. It is not clear if you have the 2nd CPU functioning? I assumed you do in my answer. –  artless noise Jun 26 '14 at 16:53
How to write a Linux SGI handler has some pointers to different Linux source, which you can examine. –  artless noise Jun 26 '14 at 19:05
I did not put in place any code to start either of the CPUs. I actually compile the OS, along with the application to get a ~0.5MB elf file; I the use bootgen to generate a bin file from FSBL, my ELF file and my bitstream(s). I suppose FSBL loads my bitstream into FPGA, my elf into memory then points the PC of the CPU_0 to my OS entry point. Now after reading your comments and your answer, some code portions that I didn't understand earlier make sense. I will try to tweak the FSBL code to load the OS on both CPUs –  Younes R. Jun 27 '14 at 14:28
There is a controle test in the OS kickstart module that enable CPU_0 to continue loading the OS kernel while blocking any other CPU waiting for interrupts. Thanks for the hint, I will keep you updated once I make these changes –  Younes R. Jun 27 '14 at 14:30

1 Answer 1

Your reference documentation is a form of the GIC (global interrupt controller). The Cortex-A9 MP cores include an integrated GIC controller. Each CPU includes an Interrupt interface. As well, there is a system wide distributor. In order to receive the IPI (also known as SGI or software generate interrupt), you need to enable the CPU interface to receive the SGI interrupts on the 2nd CPU. This entails several steps,

  1. Configuring the GIC interrupt interface registers on CPU2.
  2. Setting the CP15 vector table for CPU2.
  3. Enabling the CPSR I-bit on CPU2
  4. Possibly setting up some banked PPI distributor registers. note1

Note1: While most distributor registers are system global, some are banked per CPU as well. For instance, see section 3.3.8. PPI Status Register in the Cortex-A9 MPcore TRM. I don't see any from a cursory investigation, but I would not rule it out.

Testing that an unused SPI (shared peripheral interrupt) works by handling the vector on CPU2 by setting the GIC distributor GICD_ISPEND register on the CPU1. This should verify that you have steps 2 and 3 covered. You may also need to set the type to ensure that they are interrupts and not FIQ; especially if you have security support. You need to use the GICD_ITARGETSR register to include CPU2.

GIC reference list

Especially useful in the Appendix B of the Generic GIC manual. For some reason, ARM likes to keep changing the register names in each and every document they publish.

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I do not have experience with Zynq CPUs. It is possible that the Zync GIC does not conform to the ARM documents, but I would guess that is unlikely; they would have to do a custom design of the Cortex-A9 MPCore. –  artless noise Jun 26 '14 at 16:58

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