I've been banging my head with this for the last 3-4 days and I can't find a DECENT explanatory documentation (from ARM or unofficial) to help me. I've got an ODROID-XU board (big.LITTLE 2 x Cortex-A15 + 2 x Cortex-A7) board and I'm trying to understand a bit more about the ARM architecture. In my "experimenting" code I've now arrived at the stage where I want to WAKE UP THE OTHER CORES FROM THEIR WFI (wait-for-interrupt) state.
The missing information I'm still trying to find is:
1. When getting the base address of the memory-mapped GIC I understand that I need to read CBAR; But no piece of documentation explains how the bits in CBAR (the 2 PERIPHBASE values) should be arranged to get to the final GIC base address
2. When sending an SGI through the GICD_SGIR register, what interrupt ID between 0 and 15 should I choose? Does it matter?
3. When sending an SGI through the GICD_SGIR register, how can I tell the other cores WHERE TO START EXECUTION FROM?
4. How does the fact that my code is loaded by the U-BOOT bootloader affect this context?
The Cortex-A Series Programmer's Guide v3.0 (found here: link) states the following in section 22.5.2 (SMP boot in Linux, page 271):
While the primary core is booting, the secondary cores will be held in a standby state, using the WFI instruction. It (the primary core) will provide a startup address to the secondary cores and wake them using an Inter-Processor Interrupt(IPI), meaning an SGI signalled through the GIC
How does Linux do that? The documentation-S don't give any other details regarding "It will provide a startup address to the secondary cores".
My frustration is growing and I'd be very grateful for answers. Thank you very much in advance!
Documentation I use:
- ARMv7-A&R Architecture Reference Manual
- Cortex-A15 TRM (Technical Reference Manual)
- Cortex-A15 MPCore TRM
- Cortex-A Series Programmer's Guide v3.0
- GICv2 Architecture Specification
What I've done by now:
- UBOOT loads me at 0x40008000; I've set-up Translation Tables (TTBs), written TTBR0 and TTBCR accordingly and mapped 0x40008000 to 0x8000_0000 (2GB), so I also enabled the MMU
- Set-up exception handlers of my own
- I've got Printf functionality over the serial (UART2 on ODROID-XU)
All the above seems to work properly.
What I'm trying to do now:
- Get the GIC base address => at the moment I read CBAR and I simply AND (&) its value with 0xFFFF8000 and use this as the GIC base address, although I'm almost sure this ain't right
- Enable the GIC distributor (at offset 0x1000 from GIC base address?), by writting GICD_CTLR with the value 0x1
- Construct an SGI with the following params: Group = 0, ID = 0, TargetListFilter = "All CPUs Except Me" and send it (write it) through the GICD_SGIR GIC register
- Since I haven't passed any execution start address for the other cores, nothing happens after all this
I've started looking at the Linux kernel and QEMU source codes in search for an answer. Here's what I found out (please correct me if I'm wrong):
- When powering up the board ALL THE CORES start executing from the reset vector
- A software (firmware) component executes WFI on the secondary cores and some other code that will act as a protocol between these secondary cores and the primary core, when the latter wants to wake them up again
- For example, the protocol used on the EnergyCore ECX-1000 (Highbank) board is as follows:
**(1)** the secondary cores enter WFI and when
**(2)** the primary core sends an SGI to wake them up
**(3)** they check if the value at address (0x40 + 0x10 * coreid) is non-null;
**(4)** if it is non-null, they use it as an address to jump to (execute a BX)
**(5)** otherwise, they re-enter standby state, by re-executing WFI
**(6)** So, if I had an EnergyCore ECX-1000 board, I should write (0x40 + 0x10 * coreid) with the address I want each of the cores to jump to and send an SGI
- 1. What is the software component that does this? Is it the BL1 binary I've written on the SD Card, or is it U-BOOT?
- 2. From what I understand, this software protocol differs from board to board. Is it so, or does it only depend on the underlying processor?
- 3. Where can I find information about this protocol for a pick-one ARM board? - can I find it on the official ARM website or on the board webpage?