There are several problems with your inline assembly statement, most of which are indicated by the error messages.
The first error message Error: operand type mismatch for `push'
, corresponds to the pushw %eax
instruction. The error is a result of the fact that the operand size suffix you used, w
, doesn't match the actual size of the operand, %eax
. You've told it to use the instruction for pushing a 16-bit value on the stack but provided a 32-bit register as an operand. You could fix that by using pushw %ax
but that's not what you want. It would preserve only the lower 16-bits of the RAX register, not the entire register.
Another "obvious" fix would be to use pushl %eax
, but there's two problems with that. First in order to fix other problems you need to modify the entire RAX register, and that means you need to preserve all 64 bits of it, not just the lower 32 bits. The second is that there is no 32-bit PUSH instruction in 64-bit mode, so your forced to use pushq %rax
regardless.
The next two error messages are both Error: unsupported for `mov'
. These error messages correspond to the movl %cr0,%eax
and movl %eax,%cr0
instructions. and both are a result of the same problem. In 64-bit mode there's no 32-bit operand size version of these instructions. You need to use a 64-bit operand, so the fix is simply to use RAX instead of EAX. This is where the entire 64-bits of RAX gets clobbered and why I said you needed to preserve the entire register.
The last error message is Error: operand type mismatch for `pop'
. This is a result of a similar problem as the first. In this case you haven't used a operand size suffix, which means that assembler will try to determine the operand size based on the operands. Since you've used a 32-bit operand, %eax
, it uses a 32-bit operand size. However just like with PUSH, there's 32-bit POP instruction in 64-bit mode, so you can't use %eax
either. In any case since the PUSH instruction needs to be 64-bit, the POP instruction needs to be 64-bit to match, so the fix is to use popq %rax
.
Finally one problem that isn't indicated by an error message is that in 64-bit mode the size of CR0 is extended to 64-bits. While the extra 32-bits are currently reserved and must be set to zero, they could be defined in future processors. So the orl $0x40000000,%eax
instruction should preserve the upper 64-bits. Unfortunately it doesn't, it will clear the upper 32-bit bits of RAX meaning that this instruction would also unintentionally clear any of those bits that future CPUs might give meaning to. So it should be replaced with orq $0x40000000,%rax
.
So the fixed sequence of instructions would be:
pushq %rax
movq %cr0, %rax
orq $0x40000000, %rax
movq %rax, %cr0
wbinvd
popq %rax
This isn't what I'm going to suggest using in your inline assembly however. It's possible to simplify it by letting GCC pick the register used. This way there's no need to preserve it. Here's what I would suggest instead:
long long dummy;
asm volatile ("movq %%cr0, %0\n\t"
"orq $0x40000000, %0\n\t"
"movq %0, %%cr0\n\t"
"wbinvd"
: "=r" (dummy) : :);
pushw
for word size (16bit)? eax is 32bit, trypushl