Bran's Kernel Development Tutorial Known Bugs
Several sources - including this Wiki - point to Bran's Kernel Development Tutorial as a starting point. This is all well, but there are some issues with that tutorial that usually make people appear on the forum and asking all the same questions again. This article is meant to preempt those questions, like a "Bran's FAQ" if you like.
NOTE: osdever.net, the site that contains Bran's tutorial, went down for an extended amount of time recently. You can find it no matter what on the Internet Archive.
As soon as I add strings, things go wrong.
The linker script from Bran's tutorial does not add the rodata
sections to the binary, which is where the compiler puts static strings. Use this one instead:
OUTPUT_FORMAT("binary") ENTRY(start) phys = 0x00100000; SECTIONS { .text phys : AT(phys) { code = .; *(.text) *(.rodata*) . = ALIGN(4096); } .data : AT(phys + (data - code)) { data = .; *(.data) . = ALIGN(4096); } .bss : AT(phys + (bss - code)) { bss = .; *(.bss) . = ALIGN(4096); } end = .; }
If you still have problems, you may need to change the output format of the nasm command in the build.bat to make an ELF file instead of a.out.
timer_wait never returns
The provided method to wait a number of timer ticks never returns because the timer_ticks
variable is not defined as volatile. Changing its definition to volatile unsigned int timer_ticks = 0;
will make the timer_wait()
function work.
Also, instead of busy waiting, the processor could be put into sleep in order to save power. It can be done like this:
void timer_wait(int ticks)
{
unsigned int eticks;
eticks = timer_ticks + ticks;
while(timer_ticks < eticks)
{
__asm__ __volatile__ ("sti//hlt//cli");
}
}
Does not properly set up PIT
The tutorial says the PIT setup code snippet it provides is "optional", when in reality it isn't.
Does not use Cross-Compiler
Bran's Kernel Tutorial uses DJGPP and NASM (standard install) on windows.
To allow the code to link on a cross-compiler you must first remove all leading underscores from Global and External ASM Labels.
Divide by zero interrupt does not get raised
After implementing the IDT and ISRs, the tutorial explains that dividing by zero will now raise the exception 'divide by zero' and consequently execute the fault handler. The tutorial provides the following C code:
int i = 10 / 0;
The fault handler on this exception, however, will not be raised and nothing happens. Compilers usually optimize and insert some extra code (so there is actually no divide by zero). The only way to guarantee this exception is raised is to write some in-line assembly like:
__asm__ ("div %0" :: "r"(0));
Compiler error: unknown type name ‘size_t'
GCC produces the following errors: unknown type name 'X'. The tutorial source code doesn't include any standard definitions for types like size_t or uint32_t. Including the following headers in each source file:
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>