Jason Xu 9c5c2813a0 Update QEMU command in all README and Makefile | 2 rokov pred | |
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Makefile | 5 rokov pred | |
Makefile.clang | 2 rokov pred | |
Makefile.gcc | 2 rokov pred | |
OLVASSEL.md | 2 rokov pred | |
README.md | 2 rokov pred | |
gpio.h | 6 rokov pred | |
kernel8.img | 4 rokov pred | |
link.ld | 6 rokov pred | |
main.c | 6 rokov pred | |
mbox.c | 6 rokov pred | |
mbox.h | 6 rokov pred | |
start.S | 3 rokov pred | |
uart.c | 6 rokov pred | |
uart.h | 6 rokov pred |
Before we can go on to virtual memory, we have to talk about execution levels. Each level has it's own memory translation tables, therefore it's cruital to know which one we are using. So in this tutorial we're make sure of it, we are at supervisor level, EL1. Qemu may start machine at EL1, but real Raspberry Pi hardware normally boots at hypervisor level, EL2. Under qemu use "-d int" to debug the level change.
$ qemu-system-aarch64 -M raspi3b -kernel kernel8.img -serial stdio -d int
Exception return from AArch64 EL2 to AArch64 EL1 PC 0x8004c
Current EL is: 00000001
I've added a little bit more Assembly code for changing the execution level if we're not at supervisor level. But before we can do that, we have to grant access for the counter registers (used by wait_msec()), and tell the CPU we want AArch64 mode in EL1. Finally, we fake an exception return to change the level for real.
NOTE: For completeness, I've added code for EL3 too because of Issue #6, although normally Raspberry runs kernel8.img in EL2. With some config.txt options, you can make it run in EL3 (thanks @btauro for the info).
We query the current execution level and then we display it on the serial console.