audk/DuetPkg/CpuIoDxe/Ia32/CpuIoAccessGNU.c

135 lines
3.7 KiB
C

/* This file is only used when not able to compile the MASM CpuIoAccess.asm
NOTE: Compiling with -fomit-frame-pointer would get you to roughly the exact
same code as the MASM file although GCC will typically include movzbl %al, %eax
or movzwl %ax, %eax instructions on the read functions such that the entire
eax result register will be valid, not just the lowest 8 or 16 bits.
*/
#ifdef __GNUC__
/* A quick note about GCC inline asm and the GNU assembler:
When gas encounters an instruction with a suffix (e.g. inb, inw, or inl vs. just in) it will
warn if the operand corresponding to the suffix is not of the correct size and will assume you
meant what you said when you specified the suffix.
Because GCC does not enable us to see whether it is replacing %0 with %al, %ax, or %eax it is
helpful to have the assembler warn us that GCC is making an incorrect assumption. The actual
in or out instruction will always be generated correctly in this case since the assembler is
correct in assuming we meant what we said when we specified the suffix. However, GCC might
generate incorrect surrounding code. For example, if we were to incorrectly specify the
output size of an in instruction as UINT32, GCC would potentially fail to issue movz(b|w)l after
it under the assumption that the in instruction filled the entire eax register and not just
the al or ax portion.
GCC determines which size of register to use based on the C data type. So for in instructions
the interesting type is that of the automatic variable named Data which is specified as an
output operand to the inline assembly statement. For example:
UINT8 Data;
asm ( "inb %1, %0"
: "=a"(Data)
: "d"(Port)
);
return Data;
In this case, GCC will replace %0 with %al. If Data had been specified as UINT16, it would replace
%0 with %ax, and for UINT32 with %eax.
Likewise in the case of IA32 out instructions, GCC will replace %0 with the appropriately sized
register based on the size of the input operand. There is one gotcha though. The CpuIoWrite
series of functions all use UINT32 as the type of the second (Data) argument. This means that
for GCC to output the correct register size we must cast it appropriately.
The Port number is always a UINT16 so GCC will always ouput %dx.
*/
#include "CpuIoAccess.h"
UINT8
EFIAPI
CpuIoRead8 (
IN UINT16 Port
)
{
UINT8 Data;
asm ( "inb %1, %0"
: "=a"(Data)
: "d"(Port)
);
return Data;
}
UINT16
EFIAPI
CpuIoRead16 (
IN UINT16 Port
)
{
UINT16 Data;
asm ( "inw %1, %0"
: "=a"(Data)
: "d"(Port)
);
return Data;
}
UINT32
EFIAPI
CpuIoRead32 (
IN UINT16 Port
)
{
UINT32 Data;
asm ( "inl %1, %0"
: "=a"(Data)
: "d"(Port)
);
return Data;
}
VOID
EFIAPI
CpuIoWrite8 (
IN UINT16 Port,
IN UINT32 Data
)
{
asm ( "outb %1, %0"
: /* No outputs */
: "d"(Port)
, "a"((UINT8)Data)
);
}
VOID
EFIAPI
CpuIoWrite16 (
IN UINT16 Port,
IN UINT32 Data
)
{
asm ( "outw %1, %0"
: /* No outputs */
: "d"(Port)
, "a"((UINT16)Data)
);
}
VOID
EFIAPI
CpuIoWrite32 (
IN UINT16 Port,
IN UINT32 Data
)
{
asm ( "outl %1, %0"
: /* No outputs */
: "d"(Port)
/* NOTE: Cast is technically unnecessary but we use it to illustrate
that we always want to output a UINT32 and never anything else.
*/
, "a"((UINT32)Data)
);
}
#endif /* def __GNUC__ */