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/* Project:     OSLib
 * Description: The OS Construction Kit
 * Date:                1.6.2000
 * Idea by:             Luca Abeni & Gerardo Lamastra
 *
 * OSLib is an SO project aimed at developing a common, easy-to-use
 * low-level infrastructure for developing OS kernels and Embedded
 * Applications; it partially derives from the HARTIK project but it
 * currently is independently developed.
 *
 * OSLib is distributed under GPL License, and some of its code has
 * been derived from the Linux kernel source; also some important
 * ideas come from studying the DJGPP go32 extender.
 *
 * We acknowledge the Linux Community, Free Software Foundation,
 * D.J. Delorie and all the other developers who believe in the
 * freedom of software and ideas.
 *
 * For legalese, check out the included GPL license.
 */

/*      CPU detection code      */

.title  "CPU2.S"

#include <ll/i386/linkage.h>
#include <ll/i386/defs.h>

/*
 * The following code has been extracted by Intel AP-485
 * Application Note: Intel Processor Identification with CPUID instruction
 */

.data

ASMFILE(CPU2)

.globl  SYMBOL_NAME(X86_fpu)

SYMBOL_NAME_LABEL(X86_fpu)              .byte   0
SYMBOL_NAME_LABEL(X86_cpu)              .byte   0
fpu_status:     .word   0

/*
        struct CPU {
                DWORD X86_cpu;                  0
                DWORD X86_cpuIdFlag;            4
                DWORD X86_vendor_1;             8
                DWORD X86_vendor_2;             12
                DWORD X86_vendor_3;             16
                DWORD X86_signature;            20
                DWORD X86_IntelFeature_1;       24
                DWORD X86_IntelFeature_2;       28
                DWORD X86_StandardFeature;      32
        }
*/

.text

.globl SYMBOL_NAME(X86_get_CPU)
.globl SYMBOL_NAME(X86_get_FPU)
.globl SYMBOL_NAME(X86_is386)
.globl SYMBOL_NAME(X86_isCyrix)
.globl SYMBOL_NAME(X86_hasCPUID)

SYMBOL_NAME_LABEL(X86_is386)
                pushfl
                popl    %eax
                movl    %eax, %ecx
                xorl    $0x40000, %eax
                pushl   %eax
                popfl
                pushfl
                popl    %eax
                cmp     %ecx, %eax
                jz      is386
                
                pushl   %ecx
                popfl   
                movl    $0, %eax
                ret
is386:
                movl    $1, %eax
                ret

SYMBOL_NAME_LABEL(X86_hasCPUID)
                pushfl
                popl    %eax
                movl    %eax, %ecx
                xorl    $0x200000, %eax
                pushl   %eax
                popfl
                pushfl
                popl    %eax
                xorl    %ecx, %eax
                je      noCPUID

                pushl   %ecx    /* Restore the old EFLAG value... */
                popfl
                movl    $1, %eax
                ret
noCPUID:
                movl    $0, %eax
                ret

SYMBOL_NAME_LABEL(X86_isCyrix)
                xorw    %ax, %ax
                sahf
                mov     $5, %ax
                mov     $2, %bx
                divb    %bl
                lahf
                cmpb    $2, %ah
                jne     noCyrix
                movl    $1, %eax
                ret
noCyrix:
                movl    $0, %eax
                ret

SYMBOL_NAME_LABEL(X86_get_FPU)
        /* First of all, set the FPU type to 0... */
                movb    $0, SYMBOL_NAME(X86_fpu)
                fninit
        /* Let's give some time to the FPU...
         * We cannot use WAIT 'cause we don't know if an FPU is present...
         */
                movl    $2, %ecx
here:
                loop    here
                movw    $0x5a5a, fpu_status
                fnstsw  fpu_status
        /* Guys, I really don't know when to wai and when not...
         */
                movl    $2, %ecx
here1:
                loop    here1
                movw    fpu_status, %ax
                
                cmpb    $0, %al
                jne     endFPUProc

chkCW:
        /* OK, if we are here, we have some kind of FPU... */
                fnstcw  fpu_status

        /* Guys, I really don't know when to wai and when not...
         */
                movl    $2, %ecx
here2:
                loop    here2
                
                movw    fpu_status, %ax
                andw    $0x103f, %ax
                cmpw    $0x03F, %ax
                jne     endFPUProc
        /* ... Err... I was wrong :(. Here we are sure to have an FPU */
                movb    $1, SYMBOL_NAME(X86_fpu)
                
chkInf:
/* Well... I assume that if we arrive to X86_get_FPU, we are running on a
 * 386+ processor... Hence, the following is a complete nonsense!!!
 * I'm commenting it out, we will see...
 */
#if 0
        /* Um... If we have a -386, end of the story! */
                cmpb    $3, SYMBOL_NAME(X86_cpu)
                jle     endFPUProc
                movb    $2, SYMBOL_NAME(X86_fpu)
                fld1
                fldz
                fdivp
                fld     %st
                fchs
                fcompp
                fstsw   fpu_status
                wait
                sahf
                jz      endFPUProc
                movb    $3, SYMBOL_NAME(X86_fpu)
#else
                movb    $3, SYMBOL_NAME(X86_fpu)
#endif
endFPUProc:
                ret