Zoltan Baldaszti b88fcb5fa8 fix typo | 2 лет назад | |
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.. | ||
Makefile | 5 лет назад | |
Makefile.clang | 2 лет назад | |
Makefile.gcc | 2 лет назад | |
OLVASSEL.md | 2 лет назад | |
README.md | 2 лет назад | |
kernel8.img | 6 лет назад | |
link.ld | 6 лет назад | |
start.S | 6 лет назад |
Okay, we're not going to do anything here, just test our toolchain. The resulting kernel8.img should boot on Raspberry Pi, and stop the CPU cores in an infinite loop. You can check that by running
$ qemu-system-aarch64 -M raspi3b -kernel kernel8.img -d in_asm
... output removed for clarity, last line: ...
0x0000000000080004: 17ffffff b #-0x4 (addr 0x80000)
When the control is passed to kernel8.img, the environment is not ready for C. Therefore we must implement a small preamble in Assembly. As this first tutorial is very simple, that's all we have, no C for now.
Note that CPU has 4 cores. All of them are running the same infinite loop for now.
Our Makefile is very simple. We compile start.S, as this is our only source. Then in linker phase we link it using the linker.ld script. Finally we convert the resulting elf executable into a raw image.
Not surpisingly simple too. We just set the base address where our kernel8.img will be loaded, and we put the only section we have there. Important note, for AArch64 the load address is 0x80000, and not 0x8000 as with AArch32.