- The Host-Target Interface (HTIF) isn’t accessed through the mtohost and mfromhost CSRs anymore. Instead, you have to define two ELF symbols (tohost and fromhost). Usually this is done by declaring two global variables with these names, but since the coreboot build system doesn’t natively produce an ELF file, it would get a little tricky.
- Spike doesn’t implement a classic UART.
- The memory layout is different. The default entry point is now at 0x1000, where spike puts a small ROM, which jumps to the start of the emulated RAM, at 0x80000000. One way to run coreboot is to load it at 0x80000000, but then it can’t catch exceptions: The exception vector is at 0x1010.
- Within spike’s boot ROM, there’s also a text-based “platform tree”, which describes the installed peripherals.
“Why does coreboot need a serial console?”, you may ask. Coreboot uses it to log everything it does (at a configurable level of detail), and that’s quite useful for debugging and development.
Plans for this week
This week, I will rewrite the bootblock and CBFS code to work with RISC-V’s new memory layout, and make sure that the spike UART works with coreboot’s 8250 UART driver. Booting Linux probably still takes some time.