Hi, experts
I'm the new one porting armv8 linux. I have some problem about gic400 access.
In the porting linux progress,CPU will switch to EL1NS.
In gic_dist_init() function, I read the the GICD_ISENABLERn\GICD_ICENABLERn\GICD_ITARGETSRn\GICD_IPRIORITYRn registers and get 'zero' value.
Linux kernel warns the message "GIC CPU mask not found - kernel will fail to boot."
Then I can' receive any IRQ exception and I guess it's caused GIC wrong setting.
The above registers can't access by non-secure access,right?
How can I read/write correctly the gic register?
Hi Martin,
I try to configure the interrupt ID as non-secure and I can read/write the registers.
Then I set the GICD_CTLR to be 0x3.(Enable the group 0/1). The value I read is '0x3'.
After cpu change to EL1NS, the value I read is '0x1'.
I tried to write '0x3',but BIT1 seems can't been write to '1'.
Many of the GIC registers behave differently depending on whether the read/write is a Secure or Non-secure access. This allows, for example, the GIC to prevent Non-secure accesses seeing or modifying the settings for Secure interrupts.
GICD_CTLR is a good example of this.
For Secure accesses: bit[0]=EnableGrp0, bit[1]=EnableGrp1
For Non-secure accesses: bit[0]=EnableGrp1, bit[1]=<unused>
In other words, a Secure access can access the enables for both Secure and Non-secure interrupts. A Non-secure access can only access the Non-secure (Group 1) enable. So what you are describing is consistent with doing a Non-secure write.
What I meant by "firmware" is the software that runs after a reset. A common sequence would look something like this:
<reset> --> boot ROM code --> firmware code from flash --> OS loaded (e.g. UEFI/U-boot) --> OS
The first two parts (boot ROM and firmware) would typically run in Secure state. And part of what they did would be to configure which interrupt sources are Secure/Non-secure. You could take a look at the ARM Trusted Firmware project in GitHub for a more concrete example.
I think the GIC setting is OK now.
Thanks your help and the information about ARM Trusted Firmware.