If the exception handler is entered with ds
and es
already set to the data segment, it makes no difference except for maybe a microsecond of delay. Exception handlers don't usually need to be fast.
But what might cause going to the exception handler? Could it have been because a bad value was loaded into a segment register and then referenced? In such cases it is important for the code to establish a safe environment. cs
is set by the exception invocation. To be bulletproof, ss
and esp
should be set up too.
Followup:
Looking at the 2-6.22.18 kernel for i386, I don't see exactly that:
error_code: /* the function address is in %fs's slot on the stack */
pushl %es
... pushes %ds, %eax, %ebp, %edi, %esi, %edx, %ecx, %ebx, %fs
... along with pseudo-ops to manage stack frame layout
movl $(__KERNEL_PERCPU), %ecx
movl %ecx, %fs
popl %ecx // retrieves saved %fs
... sets up registers for the exception function
The symbol __KERNEL_PERCPU
is a macro defined (in include/asm-i386/segment.h
) as 0
for non-SMP machines and (GDT_ENTRY_PERCPU * 8)
for SMPs. The 8 is for the GDT entry size (I think) and the GDT_ENTRY_PERCPU
relates to the entries in the per-CPU GDT. Its value is <base> + 15
which the comments indicate is "default user DS", so it is, in fact, the same thing.
The kernel data segment is accessed through fs
and ss
. Much kernel data access is on the stack. By keeping the user mode descriptors accessed through ds
, very little loading of segment registers is needed.