kolibrios/programs/system/cpuid/trunk/CPUID.ASM
Iliya Mihailov (Ghost) 8871a59fcf * GMon now support ABIT uGuru
* kernel.asm free port area 0xe0-0xe4 (special for uGuru)
+ CPUID by Wildwest
* APM GDT limit fix 3

git-svn-id: svn://kolibrios.org@223 a494cfbc-eb01-0410-851d-a64ba20cac60
2006-11-28 15:54:36 +00:00

2320 lines
46 KiB
NASM
Raw Blame History

;******************************************************************************
; project name: CPUID *
; target platform: KolibriOS, x86 (IA-32), x86-64 achitectures *
; compiler: flat assembler 1.67.5 *
; version: 2.05 *
; last update: 1st November 2006 1st 2nd 3rd 4th *
; maintained by: Sergey Kuzmin aka Wildwest *
; e-mail: kuzmin_serg@list.ru *
; site: http://coolthemes.narod.ru/files.html *
; license: Copyright 2004-2006 Sergey Kuzmin and coauthors *
; Rules: *
; 1)you can use pieces of code in your project, but should *
; mention original author; *
; 2)if you modify CPUID (improve, port, translate, etc) send *
; your changes to maintainer or KolibriOS project leader *
;-----------------------------------------------------------------------------*
; English comments *
;------------------------------------------------------------------------------
use32
org 0x0
db 'MENUET01'
dd 0x01
dd START
dd I_END
dd U_END+4096*8
dd U_END+4096*8
; dd 0x100000+4096
; dd 0x100000+4096
dd 0x0
dd 0x0
macro udata
{
}
include 'mos_uzel.inc'
; useful macroses and some required stuff
;(L1 and L2 cashes decoding for Intel)
include 'gif2img.inc'
; include macro to convert gif to img
;include 'debug.inc'
include 'rsatest.inc'
include 'variable.inc'
START: ; LET'S GO!!!
;------------
CYCLES:
; CPU speed
mov eax, 18
mov ebx,5
int 0x40
mov [total1],eax ;in Hz example 1600490000
xor edx,edx
mov ebx,1000000
div ebx
mov [total], eax ; in Mhz example 1600
xor edx, edx
mov eax, [total1]
mov ebx, 10000
div ebx
mov [ost], eax ; example 160049
mov eax, [total]
imul eax, 100
mov [sot], eax ; example 160000
mov eax, [ost]
sub eax, [sot]
mov [sot], eax ; example 49
;------------
cpu: ;is CPUID supported?
pushfd ;push original EFLAGS
pop eax ;get original EFLAGS
mov ebx, eax ;save original EFLAGS
xor eax, 00200000h ;flip 21th bit in EFLAGS
push eax ;save new EFLAGS value on stack
popfd ;replace current EFLAGS value
pushfd ;get new EFLAGS
pop eax ;store new EFLAGS in EAX
cmp eax, ebx ;compare values of 21th bit
jz NO_CPUID ;CPUID isn't supported
;------------
CPUNAME: ; VENDOR
mov eax,0 ; eax=0
cpuid
mov [stdc], eax ; number of calls
mov [cpuname+ 12],ebx
mov [cpuname+ 16],edx
mov [cpuname+ 20],ecx
mov [smallvendor],ecx
; for various vendors we should later use different methods
;Decoding cache L1 and L2 for Intel
cmp [smallvendor], 'ntel'
jne cpu1 ;is not Intel
je .detec
.detec:
;Starting L1, L2, L3 caches detection (Intel made it VERY HARD)
mov eax, 2
cpuid
mov [che], al ; number of calls
multik:
dec [che]
.eaxl:
test eax, $80000000 ; Test bit 31
jnz .ebxl ; <> 0 =>not valid values
shr eax, 8
call decodecache
shr eax, 8
call decodecache
shr eax, 8
call decodecache
.ebxl:
test ebx, $80000000
jnz .ecxl
mov eax, ebx
call decodecache
shr eax, 8
call decodecache
shr eax, 8
call decodecache
shr eax, 8
call decodecache
.ecxl:
test ecx, $80000000
jnz .edxl
mov eax, ecx
call decodecache
shr eax, 8
call decodecache
shr eax, 8
call decodecache
shr eax, 8
call decodecache
.edxl:
test edx, $80000000
jnz cpu1
mov eax, edx
call decodecache
shr eax, 8
call decodecache
shr eax, 8
call decodecache
shr eax, 8
call decodecache
cmp [che], 0 ; we made all calls
je cpu1
multi: ; not yet
mov eax, 2 ; so we made call again
cpuid
jmp multik
; FAMILY MODEL STEPPING
cpu1:
xor eax, eax
inc eax ; eax=1
cpuid
mov ecx, eax
and ecx,00000F00h ; get CPU family
shr ecx,8 ; shift it to the correct position
mov dword[f],ecx
mov ecx, eax
and ecx,000000F0h ; get CPU model
shr ecx,4
mov dword[m],ecx
mov ecx, eax
and ecx,0000000Fh ; get CPU stepping
mov dword[s],ecx
;-
mov ecx, eax ; get Type
shl ecx, 18
shr ecx,30
;and ecx, 0000000Fh ; only two lower bits can be nonzero
mov dword[t], ecx
;=======================================================
cmp dword[smallvendor], 'cAMD'
jz maybe_athlon
cmp dword[smallvendor], 'ntel'
jz detect_it
jmp no_full ; if not AMD or Intel
detect_it:
cmp [f], 0Fh
jne no_full
full:
mov ecx, eax ; get Extended model
shr ecx,16 ;shift it to the correct position
and ecx, 0000000Fh
shl ecx, 4
add ecx, [m]
mov dword[em],ecx ; effective model
mov ecx, eax ; get Extended family
shr ecx, 20 ;shift it to the correct position
and ecx, 000000FFh
add ecx, [f]
mov dword[ef],ecx ; effective family
jmp fut
no_full:
mov ecx, [m]
mov [em], ecx
mov ecx, [f]
mov [ef], ecx
jmp fut
maybe_athlon:
mov eax, 0x80000001 ; CPUID ext. function 0x80000001
cpuid
mov ecx, eax
and ecx,00000F00h ; get CPU family
shr ecx,8 ; shift it to the correct position
mov dword[ef],ecx
mov ecx, eax
and ecx,000000F0h ; get CPU model
shr ecx,4
mov dword[em],ecx
fut:
call decode_sse3
;-
call decode_extended
mov eax,$80000000
cpuid
mov [extc], eax ; max number of calls
test eax, $80000000 ;// Test bit 31
jz .noname
cmp eax,$80000003
ja .mynameis
jmp .noname
.mynameis:
mov eax,$80000002
cpuid
mov [myname],eax
mov [myname+4],ebx
mov [myname+8],ecx
mov [myname+12],edx
mov eax,$80000003
cpuid
mov [myname+16],eax
mov [myname+20],ebx
mov [myname+24],ecx
mov [myname+28],edx
mov eax,$80000004
cpuid
mov [myname+32],eax
mov [myname+36],ebx
mov [myname+40],ecx
mov [myname+44],edx
jmp red
.noname:
mov dword [myname], $612F6E
red:
xor ecx, ecx
xor eax, eax
xor edx, edx
xor ebx, ebx
;mov byte [multiplier], 115; ; for testing
call multipl ; get multiplier
mov byte [multiplier], cl
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
cmp dword[multiplier], 0
jz contin
calc:
mov eax,dword [ost] ; example 166474
imul eax, 10 ; example 1664740
mov ebx, dword [multiplier] ; get system clock (if multiplier detected)
div ebx
mov dword [freqbb], eax ; 16647
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
mov eax,dword [ost] ;example 166474
mov ebx,10
div ebx ; example 16647
mov dword [temp], eax
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
mov eax, dword [temp]
mov ebx, dword [multiplier]
div ebx ; example 166
imul eax, 100
mov dword[freqll], eax ; example 16600
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
mov eax, dword[freqbb]; example 16647
sub eax, dword[freqll]; example 16600
mov dword[freqll], eax ;example 47
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
mov eax,dword [freqbb]; example 16647
mov ebx, 100
div ebx
mov dword [freqbb], eax ; example 166
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
mov eax,dword[multiplier] ; example 115
mov ebx,10
div ebx
mov dword[multb], eax ; example 11
imul eax, 10
mov dword[multa], eax ; example 110
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
mov eax, dword[multiplier]
sub eax, dword[multa]
mov dword[multa], eax ; example 5
xor eax, eax
xor ebx, ebx
xor ecx, ecx
xor edx, edx
jmp output
contin:
mov dword [freqbb], 0
mov dword [freqll], 0
output:
call draw_window ; Draw window
typedetect:
cmp [t], 00b
jne t2d
Text 275,190,0x00000000,t1, t1len-t1
jmp PROCCORE
t2d:
cmp [t], 01b
jne t3d
Text 275,190,0x00000000,t2, t2len-t2
jmp PROCCORE
t3d:
cmp [t], 11b
jne notype
Text 275,190,0x00000000,t3, t3len-t3
jmp PROCCORE
notype:
Text 275,190,0x00000000,t4, t4len-t4
PROCCORE: ; Who are you?
; Intel - "GenuineIntel" +
; AMD - "AuthenticAMD" +
; Cyrix - "CyrixInstead" +
; UMC - "UMC UMC UMC "
; NexGen - "NexGenDriven"
; Centaur - "CentaurHauls" +
; Rise Technology - "RiseRiseRise"
; SiS - "SiS SiS SiS "
; Transmeta - "GenuineTMx86" +
; National Semiconductor - "Geode by NSC"
cmp dword[smallvendor], 'ntel'
jz Intel
cmp dword[smallvendor], 'cAMD'
jz AMD
cmp dword[smallvendor], 'tead'
jz Cyrix
cmp dword[smallvendor], 'auls'
jz Centaur
cmp dword[smallvendor], 'Mx86'
jz Transmeta
; cmp ecx, 'UMC '
; jz .UMC
; cmp ecx, 'iven'
; jz .NexGen
; cmp ecx, 'Rise'
; jz .Rise
; cmp ecx, 'SiS '
; jz .SiS
; cmp ecx, ' NSC'
; jz .NSC
jmp Other ; I don't know what to do with you...
Other:
Text 80,90,0x00000000,other, otherlen-other
jmp MMXtest
;-------------------------
AMD:
Text 20, 210,0x00000000,cache, cachelen-cache
Text 80,90,0x00000000,AMDn, AMDnlen-AMDn
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Print the unpacked img to screen
mov esi, amd
call load_gif
mov eax,7 ; sysfunc7: putimage
mov ebx,img_area+8 ; pointer to image
mov ecx,201*65536+49 ; resolution (all gif's included are 64*81)
mov edx,130*65536+127 ; place to print image on screen (first number is
;pixels from left, second pixels from top)
int 0x40 ; execute function
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Relax, man. AMD made PRETTY SIMPLE cache detection routine
;CACHE1:
mov eax, 80000005h
cpuid
shr ecx, 24
mov [L1d], ecx
shr edx, 24
mov [L1i], edx
;CACHE2:
mov eax, 80000006h
cpuid
shr ecx, 16
mov [L2],ecx
cmp [f], $5
jz .fiv
cmp [f], $6
jz .si
cmp [f], $F
jz fif
.fiv: ; Family=5
cmp [m],$0
jz .A50
cmp [m],$1
jz .A51
cmp [m],$2
jz .A52
cmp [m],$3
jz .A53
cmp [m],$6
jz .A56
cmp [m],$7
jz .A57
cmp [m],$8
jz .A58
cmp [m],$9
jz .A59
cmp [m],$D
jz .A5D
.A50:
mov [micron], 50 ; 0.35?
Text 105,90,0x00000000,A50, A50len-A50
jmp MMXtest
.A51:
mov [micron], 35
Text 105,90,0x00000000,A51, A51len-A51
jmp MMXtest
.A52:
mov [micron], 35
Text 105,90,0x00000000,A52, A52len-A52
jmp MMXtest
.A53:
mov [micron], 35
Text 105,90,0x00000000,A53, A53len-A53
jmp MMXtest
.A56:
mov [micron], 30
Text 105,90,0x00000000,A56, A56len-A56
jmp MMXtest
.A57:
mov [micron], 25
Text 105,90,0x00000000,A57, A57len-A57
jmp MMXtest
.A58:
mov [micron], 25
Text 105,90,0x00000000,A58, A58len-A58
jmp MMXtest
.A59:
mov [micron], 25
Text 105,90,0x00000000,A59, A59len-A59
jmp MMXtest
.A5D:
mov [micron], 18
Text 105,90,0x00000000,A5D, A5Dlen-A5D
jmp MMXtest
.si: ; Family=6
cmp [m],$1
jz A1
cmp [m],$2
jz A2
cmp [m],$3
jz A3
cmp [m],$4
jz A4
cmp [m],$6
jz A6
cmp [m],$7
jz A7
cmp [m],$8
jz A8
cmp [m],$A
jz AA
A1:
mov [micron], 25
Text 105,90,0x00000000,At1, At1len-At1
jmp MMXtest
A2:
mov [micron], 18
Text 105,90,0x00000000,At2, At2len-At2
jmp MMXtest
A3:
mov [micron], 18
Text 105,90,0x00000000,At3, At3len-At3
jmp MMXtest
A4:
mov [micron], 18
Text 105,90,0x00000000,At4, At4len-At4
jmp MMXtest
A6:
mov [micron], 18
Text 105,90,0x00000000,At6, At6len-At6
mov [FRS], 266 ;!!!!!!
Number 320,110,0,3,dword [FRS],0x000000; MHz
call newrating; !!!!
Text 250,90,0x00000000,pr, prlen-pr
Number 315,90,0,4,dword [rating],0x000000
jmp MMXtest
A7:
mov [micron], 13
Text 105,90,0x00000000,At7, At7len-At7
jmp MMXtest
A8:
mov [micron], 13
mov [FRS], 266 ;!!!!!!
Number 320,110,0,3,dword [FRS],0x000000; MHz
cmp [L2], 256
jl .App ; Applebred
Text 105,90,0x00000000,At8, At8len-At8
call newrating;!!!!
Text 250,90,0x00000000,pr, prlen-pr
Number 315,90,0,4,dword [rating],0x000000
jmp MMXtest
.App:
Text 105,90,0x00000000,At8a, At8alen-At8a
jmp MMXtest
AA:
mov [micron], 13
mov [FRS], 333; !!!!
Text 250,90,0x00000000,pr, prlen-pr
Number 320,110,0,3,dword [FRS],0x000000; MHz
cmp [L2], 256
jl .Tho ; Thorton
call newrating;!!!!!
Text 105,90,0x00000000,Ata, Atalen-Ata
Number 315,90,0,4,dword [rating],0x000000
jmp MMXtest
.Tho:
call newrating;!!!!!
Text 105,90,0x00000000,Atat, Atatlen-Atat
Number 315,90,0,4,dword [rating],0x000000
jmp MMXtest
fif: ; AMD-64 Family=15
;here is a need to rewrite detection of AMD F-th family according to "Revision Guide for
;AMD AthlonTM 64 and AMD OpteronTM Processors" 25759.pdf
; checking sse3 for new AMD's is needed
cmp [m],$1 ; Dual-core Opteron
jz .AF1
cmp [m],$3 ; Toledo 1024 0.09 // Manchester
jz .AF3
cmp [m],$4 ;Athlon 64 Mobile Athlon 64 FX ClawHammer (1024) 0.13
jz .AF4
cmp [m],$5 ; Opteron Athlon 64 FX 0.13 (1024)
jz .AF5
cmp [m],$7 ;Athlon 64 Athlon 64 FX Clawhammer(1024) 0.13 Sledgehammer(1024) 0.13 // SSE3+ SanDiego(1024) (<28>-<2D><> <20><><EFBFBD>-<2D>-<2D><>)
jz .AF7
cmp [m],$8 ; Athlon 64 Mobile Athlon 64 FX ClawHammer (1024) 0.13
jz .AF8
cmp [m],$B ; Athlon 64
jz .AFB
cmp [m],$C ;Athlon 64 Newcastle(512) 0.13 Sempron> Paris (256) 0.13 |SSE3+ Sempron > Palermo FC0 0.09 // (Venice)
jz .AFC
cmp [m],$E ; Athlon 64 //
jz .AFE
cmp [m],$F ; Athlon 64 Winchester(512) |SSE3+ SanDiego(1024) Venice (512) Palermo (256) 0.09
jz .AFF
jmp next_generation
.AF1:
mov [micron], 09 ;?
Text 105,90,0x00000000,AF1, AF1len-AF1
jmp MMXtest
.AF3:
mov [micron], 09
Text 105,90,0x00000000,AF3, AF3len-AF3
jmp MMXtest
.AF4:
mov [micron], 13
Text 105,90,0x00000000,AF4, AF4len-AF4
jmp MMXtest
.AF5:
mov [micron], 13
Text 105,90,0x00000000,AF5, AF5len-AF5
jmp MMXtest
.AF7:
mov [micron], 13
Text 105,90,0x00000000,AF5, AF5len-AF5
jmp MMXtest
.AF8:
mov [micron], 13
Text 105,90,0x00000000,AF4, AF5len-AF4
jmp MMXtest
.AFB:
mov [micron], 13
Text 105,90,0x00000000,AF4, AF4len-AF4
jmp MMXtest
.AFC:
cmp [L2], 512
je .AFCn
cmp [sse3sup], 1
je .AFCnpal
.AFCnpar: ; paris
mov [micron], 13
Text 105,90,0x00000000,AFCs, AFCslen-AFCs
jmp MMXtest
.AFCnpal: ; palermo
mov [micron], 9
Text 105,90,0x00000000,AFCsp, AFCsplen-AFCsp
jmp MMXtest
.AFCn: ;newcastle
mov [micron], 13
Text 105,90,0x00000000,AFC, AFClen-AFC
jmp MMXtest
.AFE: ; error in cpu
jmp .AFC
.AFF:
cmp [sse3sup], 1
je .AFFsse
.win:
mov [micron], 9 ; winchester
jmp MMXtest
.AFFsse:
cmp [L2], 1024
jz .AFs
cmp [L2], 512
jz .AFd
cmp [L2], 256
jz .AFp
.AFs:
Text 105,90,0x00000000,AFS, AFSlen-AFS
jmp MMXtest
.AFd:
Text 105,90,0x00000000,AFV, AFVlen-AFV
jmp MMXtest
.AFp:
Text 105,90,0x00000000,AFCsp, AFCsplen-AFCsp
jmp MMXtest
;-----------------------------------------------
Intel:
Text 80,90,0x00000000,Inteln, Intelnlen-Inteln
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Print the unpacked img to screen
mov esi, intel
call load_gif
mov eax,7 ; sysfunc7: putimage
mov ebx,img_area+8 ; pointer to image
mov ecx,201*65536+49 ; resolution (all gif's included are 64*81)
mov edx,130*65536+127 ; place to print image on screen (first number is
;pixels from left, second pixels from top)
int 0x40 ; execute function
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
det:
cmp [f], $5
jz .five
cmp [f], $6
jz .six
cmp [f], $7
jz .sev
cmp [f], $F
jz .fift
.five: ;Family=5
Text 20, 210,0x00000000,cache, cachelen-cache
cmp [m],$0
jz .I0
cmp [m],$1
jz .I1
cmp [m],$2
jz .I2
cmp [m],$3
jz .I3
cmp [m],$4
jz .I4
cmp [m],$7
jz .I7
cmp [m],$8
jz .I8
.I0:
Text 115,90,0x00000000,P50, P50len-P50
mov [L1d], 8
mov [L1i], 8
mov [L2], 256
mov [micron], 80
jmp MMXtest
.I1:
Text 115,90,0x00000000,P5, P5len-P5
mov [L1d], 8
mov [L1i], 8
mov [L2], 256
mov [micron], 50
jmp MMXtest
.I2:
Text 115,90,0x00000000,P54C, P54Clen-P54C
mov [L1d], 8
mov [L1i], 8
mov [L2], 256
mov [micron], 50
jmp MMXtest
.I3:
Text 115,90,0x00000000,P54T, P54Tlen-P54T
mov [L1d], 8
mov [L1i], 8
mov [L2], 256
mov [micron], 50
jmp MMXtest
.I4:
Text 115,90,0x00000000,P55C, P55Clen-P55C
mov [L1d], 8
mov [L1i], 8
mov [L2], 256
mov [micron], 35
jmp MMXtest
.I7:
Text 115,90,0x00000000,P54C, P54Clen-P54C
mov [L1d], 8
mov [L1i], 8
mov [L2], 256
mov [micron], 35
jmp MMXtest
.I8:
Text 115,90,0x00000000,P55C, P55Clen-P55C
mov [L1d], 16
mov [L1i], 16
mov [L2], 256
mov [micron], 35
jmp MMXtest
.six: ;Family=6
Text 20, 210,0x00000000,cache, cachelen-cache
cmp [m],$0
jz .I60
cmp [m],$1
jz .I61
cmp [m],$3
jz .I63
cmp [m],$5
jz .I65
cmp [m],$6
jz .I66
cmp [m],$7
jz .I67
cmp [m],$8
jz .I68
cmp [m],$9
jz .I69
cmp [m],$A
jz .I6A
cmp [m],$B
jz .I6B
cmp [m],$D
jz .I6D
cmp [m],$E
jz .I6E
cmp [m],$F
jz .I6F
.I60:
mov [micron], 50
Text 115,90,0x00000000,P60, P60len-P60
jmp MMXtest
.I61:
mov [micron], 35
Text 115,90,0x00000000,P61, P61len-P61
jmp MMXtest
.I63:
mov [micron], 28
Text 115,90,0x00000000,P63, P63len-P63
jmp MMXtest
.I65:
mov [micron], 25
cmp [L2], 0
jne .pp65 ; Pentium
Text 115,90,0x00000000,P65c, P65clen-P65c
jmp MMXtest
.pp65:
Text 115,90,0x00000000,P65, P65len-P65
jmp MMXtest
.I66:
mov [micron], 25
Text 115,90,0x00000000,P66, P66len-P66
jmp MMXtest
.I67:
mov [micron], 25
Text 115,90,0x00000000,P67, P67len-P67
jmp MMXtest
.I68:
mov [micron], 18
cmp [L2], 128
jne .pp68 ; Pentium
Text 115,90,0x00000000,P68c, P68clen-P68c
jmp MMXtest
.pp68:
Text 115,90,0x00000000,P68, P68len-P68
jmp MMXtest
.I69:
mov [micron], 13
Text 115,90,0x00000000,P69 , P69len-P69
jmp MMXtest
.I6A:
mov [micron], 18
Text 115,90,0x00000000,P6A, P6Alen-P6A
jmp MMXtest
.I6B:
mov [micron], 13
cmp [L2], 256
jne .pp6B ; Pentium
Text 115,90,0x00000000,P6Bc, P6Bclen-P6Bc
jmp MMXtest
.pp6B:
Text 115,90,0x00000000,P6B, P6Blen-P6B
jmp MMXtest
.I6D:
mov [micron], 9
Text 115,90,0x00000000,P6D, P6Dlen-P6D
jmp MMXtest
.I6E:
mov [micron], 6
Text 115,90,0x00000000,P6E, P6Elen-P6E
jmp MMXtest
.I6F:
mov [micron], 6
Text 115,90,0x00000000,P6F, P6Flen-P6F
jmp MMXtest
;06Ex - Pentium M Yonah 0.065
;06Fx - Pentium D Conroe 0.065, Xeon Woodcrest, Celeron D AllenDale
.sev: ;Family=7
.IS0:
Text 20, 210,0x00000000,cache, cachelen-cache ;?
mov [micron], 18
Text 115,90,0x00000000,PS0, PS0len-PS0
jmp MMXtest
.fift: ;Family=15
Text 20, 210,0x00000000,cacheP4, cacheP4len-cacheP4
cmp [m],$0
jz .IF0
cmp [m],$1
jz .IF1
cmp [m],$2
jz .IF2
cmp [m],$3
jz .IF3
cmp [m],$4
jz .IF3 ;identical to F3xh
cmp [m],$5
jz .IF5
cmp [m],$6
jz .IF6
jmp next_generation
.IF0:
mov [micron], 18
cmp [L2], 128
jne .ppF0 ; Pentium
Text 115,90,0x00000000,PF0c, PF0clen-PF0c
jmp MMXtest
.ppF0:
Text 115,90,0x00000000,PF0, PF0len-PF0
jmp MMXtest
.IF1:
mov [micron], 18
cmp [L2], 128
je .IF0;jne.ppF1 ; Pentium
; mov eax,dword 0x00000004
; mov ebx,115*65536+80
; mov ecx,dword 0x00000000
; mov edx,PF0c
; mov esi,PF0clen-PF0c
; int 0x40
;jmp MMXtest
;.ppF1:
Text 115,90,0x00000000,PF0, PF0len-PF0
jmp MMXtest
.IF2:
mov [micron], 13
cmp [L2], 128
jne .ppF2 ; Pentium
Text 115,90,0x00000000,PF2c, PF2clen-PF2c
jmp MMXtest
.ppF2:
Text 115,90,0x00000000,PF2, PF2len-PF2
jmp MMXtest
.IF3:
mov [micron], 09
cmp [L2], 256
jne .ppF3 ; Pentium
Text 115,90,0x00000000,PF3c, PF3clen-PF3c
jmp MMXtest
.ppF3:
Text 115,90,0x00000000,PF3, PF3len-PF3
jmp MMXtest
.IF5:
mov [micron], 09
cmp [L2], 512
jae .ppF5 ; Pentium
Text 115,90,0x00000000,PF5c, PF5clen-PF5c
jmp MMXtest
.ppF5:
Text 115,90,0x00000000,PF5, PF5len-PF5
jmp MMXtest
.IF6:
mov [micron], 06 ; 065
cmp [L2], 512
ja .ppF6 ; Pentium
Text 115,90,0x00000000,PF6c, PF6clen-PF6c
jmp MMXtest
.ppF6:
Text 115,90,0x00000000,PF6, PF6len-PF6
jmp MMXtest
next_generation:
Text 115,90,0x00000000,NG, NGlen-NG
jmp MMXtest
;----------------------------------
Cyrix:
Text 20, 210,0x00000000,cache, cachelen-cache
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Print the unpacked img to screen
mov esi, cyrix
call load_gif
mov eax,7 ; sysfunc7: putimage
mov ebx,img_area+8 ; pointer to image
mov ecx,201*65536+49 ; resolution (all gif's included are 64*81)
mov edx,130*65536+127 ; place to print image on screen (first number is
;pixels from left, second pixels from top)
int 0x40 ; execute function
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
cmp [f], $5
jz .fivv
cmp [f], $6
jz .sixx
.fivv: ;Family=5
cmp [m],$2
jz .C52
cmp [m],$4
jz .C54
.C52:
mov [micron], 50 ;35?
mov [L1i], 8
mov [L1d], 8
mov [L2], 512
Text 80,90,0x00000000,Cyrixn, Cyrixnlen-Cyrixn
Text 115,90,0x00000000,C52, C52len-C52
jmp MMXtest
.C54:
mov [micron], 50
mov [L1i], 8
mov [L1d], 8
mov [L2], 512
Text 80,90,0x00000000,Cyrixn, Cyrixnlen-Cyrixn
Text 115,90,0x00000000,C54, C54len-C54
jmp MMXtest
.sixx: ;Family=6
cmp [m],$0
jz .C60
cmp [m],$5
jz .C65
.C60:
mov [micron], 25
mov [L1i], 32
mov [L1d], 32
mov [L2], 512
Text 80,90,0x00000000,Cyrixn, Cyrixnlen-Cyrixn
Text 115,90,0x00000000,C60, C60len-C60
jmp MMXtest
.C65:
mov [micron], 25 ;35?
mov [L1i], 32
mov [L1d], 32
mov [L2], 512
Text 80,90,0x00000000,Centaurn, Centaurnlen-Centaurn
Text 105,90,0x00000000,C65, C65len-C65
jmp MMXtest
;---------------------
Centaur:
Text 20, 210,0x00000000,cache, cachelen-cache
;CACHE1:
mov eax, 80000005h
cpuid
shr ecx, 24
mov [L1d], ecx
shr edx, 24
mov [L1i], edx
;CACHE2:
mov eax, 80000006h
cpuid
shr ecx, 24
mov [L2],ecx
cmp [f], $5
jz fivC
cmp [f], $6
jz sixC
fivC: ;Family=5
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Print the unpacked img to screen
mov esi, idt
call load_gif
mov eax,7 ; sysfunc7: putimage
mov ebx,img_area+8 ; pointer to image
mov ecx,201*65536+49 ; resolution (all gif's included are 64*81)
mov edx,130*65536+127 ; place to print image on screen (first number is
;pixels from left, second pixels from top)
int 0x40 ; execute function
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Text 80,90,0x00000000,IDTn, IDTnlen-IDTn
cmp [m],$4
jz .V54
cmp [m],$8
jz .V58
cmp [m],$9
jz .V59
.V54:
mov [micron], 35
Text 105,90,0x00000000,V54, V54len-V54
jmp MMXtest
.V58:
mov [micron], 25
Text 105,90,0x00000000,V58, V58len-V58
jmp MMXtest
.V59:
mov [micron], 25
Text 105,90,0x00000000,V59, V59len-V59
jmp MMXtest
sixC: ;Family=6
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Print the unpacked img to screen
mov esi, via
call load_gif
mov eax,7 ; sysfunc7: putimage
mov ebx,img_area+8 ; pointer to image
mov ecx,201*65536+49 ; resolution (all gif's included are 64*81)
mov edx,130*65536+127 ; place to print image on screen (first number is
;pixels from left, second pixels from top)
int 0x40 ; execute function
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Text 80,90,0x00000000,Centaurn, Centaurnlen-Centaurn
cmp [m],$6
jz .V66
cmp [m],$7
jz .V67
cmp [m],$8
jz .V68
cmp [m],$9
jz .V69
cmp [m],$A
jz .V6A
.V66:
mov [micron], 18 ; 25?
Text 105,90,0x00000000,V66, V66len-V66
jmp MMXtest
.V67:
mov [micron], 15
Text 105,90,0x00000000,V67, V67len-V67
jmp MMXtest
.V68:
mov [micron], 13
Text 105,90,0x00000000,V68, V68len-V68
jmp MMXtest
.V69:
mov [micron], 13
Text 105,90,0x00000000,V69, V69len-V69
jmp MMXtest
.V6A:
mov [micron], 9
Text 105,90,0x00000000,VA, VAlen-VA
jmp MMXtest
;-----------
Transmeta:
Text 20, 210,0x00000000,cache, cachelen-cache
Text 80,90,0x00000000,Tranmsmetan, Tranmsmetanlen-Tranmsmetan
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Print the unpacked img to screen
mov esi, transmeta
call load_gif
mov eax,7 ; sysfunc7: putimage
mov ebx,img_area+8 ; pointer to image
mov ecx,201*65536+49 ; resolution (all gif's included are 64*81)
mov edx,130*65536+127 ; plce to print image on screen (first number is
;pixels from left, second pixels from top)
int 0x40 ; execute function
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; cache detection routine
;CACHE1:
mov eax, 80000005h
cpuid
shr ecx, 24
mov [L1d], ecx
shr edx, 24
mov [L1i], edx
;CACHE2:
mov eax, 80000006h
cpuid
shr ecx, 16
mov [L2],ecx
cmp [f], $5
jz .fivt
cmp [f], $F
jz .fift
.fivt: ; Family=5
mov [micron], 13 ; ?
Text 145,90,0x00000000,T5, T5len-T5
jmp MMXtest
.fift: ; Family=F
mov [micron], 13 ;
Text 145,90,0x00000000,TF, TFlen-TF
jmp MMXtest
;----
MMXtest: ; MMX test and Brand ID decoding
call decodebrand ; get Brand ID
call decode_standard_features
call decode_extended_features
xor eax,eax
inc eax
cpuid
HTTtest:
test edx, $10000000; ;Test bit 28
jnz .EL ;HTT technology is supported
jz .ELN
.EL:
and ebx,00FF0000h ; numbers of logical processors
shr ebx,16 ; shift it to the correct position
cmp ebx, 1
je .ELN ; HHT not enabled (Celeron)
mov dword [HTTn+9], $736579
mov dword [HTT+ 6], $736579
jmp TEXTOUT
.ELN:
mov dword [HTTn+ 9], $6F6E
mov dword [HTT+ 6], $6F6E
jmp TEXTOUT
TEXTOUT:
Text 20,130,0x00000000,fam, famlen-fam
Text 20,150,0x00000000,mode, modelen-mode
Text 20,170,0x00000000,step, steplen-step
;--------L1 L2
Number 80,190,0,3,dword [L1d],0x000000;
Number 80,210,0,3,dword [L1i],0x000000;
Number 178,190,0,4,dword[L2],0x000000;
Number 172,210,0,5,dword[L3],0x000000;
;-----------Features
Number 263,70,0,2,dword [micron],0x000000 ; micron
Text 280,250,0x00000000,HTT, HTTlen-HTT
Text 280,270,0x00000000,sse3, sse3len-sse3
Text 20,90,0x00000000,name, namelen-name
Text 20,250,0x00000000,MMXs, MMXslen-MMXs
Text 20,270,0x00000000,SSE, SSElen-SSE
Text 100,270,0x00000000,SSE2, SSE2len-SSE2
jmp TEST3DNOW
;-------------------
TEST3DNOW:
cmp [smallvendor], 'ntel'
je .NOEXTENDED
jne .t
.t:
mov eax, $80000001 ;// Setup extended function 8000_0001h
cpuid
test edx, $80000000 ;// Test bit 31
jnz .XIT
.NOEXTENDED: ;// 3DNow! technology is supported
mov dword [now+ 9], $6F6E
jmp TEST3DNOWP
.XIT:
mov dword [now+ 9], $736579
jmp TEST3DNOWP
TEST3DNOWP:
cmp [smallvendor], 'ntel'
je .NOEXTENDEDP
.tp:
mov eax, $80000001 ;// Setup extended function 8000_0001h
cpuid
test edx, $40000000 ;// Test bit 30
jnz .XITP ;// 3DNow! technology is supported
.NOEXTENDEDP:
mov dword [nowp+ 9], $6F6E
jmp TESTMMXP
.XITP:
mov dword [nowp+ 9], $736579
jmp TESTMMXP
TESTMMXP:
mov eax,$80000000
cpuid
test eax, 80000000h
jna NOEXTENDEDM
;cmp eax, $80000000 ;// Is 800_0001h supported?
;jz .NOEXTENDEDM ;// If not, 3DNow! technology is not supported
mov eax, $80000001 ;// Setup extended function 8000_0001h
cpuid
cmp [smallvendor], 'tead'
jne noCyr
Cyrmx:
test edx, $01000000 ;// Test bit 24
jnz XITM ;// 3DNow! technology is supported
jz NOEXTENDEDM
noCyr:
test edx, $00400000 ;// Test bit 22
jnz XITM ;// 3DNow! technology is supported
;jz .NOEXTENDEDM
NOEXTENDEDM:
mov dword [mmxp+ 7], $6F6E
mov dword [MMXPi+ 8], $6F6E
jmp text3d
XITM:
mov dword [mmxp+ 7], $736579
mov dword [MMXPi+ 8], $736579
jmp text3d
text3d:
Text 180,250,0x00000000,now, nowlen-now
Text 180,270,0x00000000,nowp, nowplen-nowp
Text 100,250,0x00000000,mmxp, mmxplen-mmxp
jmp still
;--------------------------
NO_CPUID:
Text 20,70,0x00000000,oblom, oblomlen-oblom
jmp FREEZE
FREEZE:
nop
jmp FREEZE
;----------------
still:
mov eax,10
int 0x40 ;
cmp eax,1 ;
je red ; red
cmp eax,2 ;
je key ; key
cmp eax,3 ;
je button ; button
jmp still ;
key: ;
mov eax,2 ; <20>
int 0x40 ;
jmp still ;
button: ;
mov eax,17 ;
int 0x40 ;
cmp ah,1 ; = 1 ?
je close ; close
cmp ah,2 ; = 2 ?
je thread_start ;
;
cmp ah,3 ; = 3 ?
je vybor ; vybor
jne noclose
vybor:
Number 315,90,0,4,dword [rating],0xFFFFFF ;
Number 320,110,0,3,dword [FRS],0xFFFFFF; MHz
cmp [FRS], 266
jz .s1
cmp [FRS], 333
jz .s2
cmp [FRS], 400
jz .s3
.s1:
mov [FRS], 333
call newrating
Number 315,90,0,4,dword [rating],0x000000
Number 320,110,0,3,dword [FRS],0x000000; MHz
jmp still
.s2:
mov [FRS], 400
call newrating
Number 315,90,0,4,dword [rating],0x000000
Number 320,110,0,3,dword [FRS],0x000000; MHz
jmp still
.s3:
mov [FRS], 266
call newrating
Number 315,90,0,4,dword [rating],0x000000
Number 320,110,0,3,dword [FRS],0x000000; MHz
jmp still
noclose:
jmp still
close:
mov eax,-1
int 0x40
;**************************** THREAD-SECOND WINDOW
thread_start:
cmp [num_win2],0
jne still
;================================================RSA test
call init_test ; start RSA code
call module_test
jmp somewhere
module_test:
;test rsa coding speed
;length of module - 256 bit
mov eax,26
mov ebx,9
int 0x40
add eax,100 ;test lasts 1 second.
push eax
.loop:
mov ecx,4 ;do 4 iterations
push ecx ;this reduces number of calls int 0x40.
.loop1:
call rsa_test ;this procedure change all registers
dec dword [esp]
jnz .loop1
pop ecx
mov eax,26
mov ebx,9
int 0x40
cmp eax,dword [esp] ;Is time changed?
jl .loop
pop eax
shr dword [iter],4 ;[iter] - speed in Kb/sec. (every iteration codes 64 bytes)
ret
somewhere:
;======================================================================
mov eax,51 ;
mov ebx,1
mov ecx,window_2
mov edx,thread2_esp
int 0x40
jmp still
window_2:
mov [num_win2],1
call draw_window_2
still_2:
mov eax,10
int 0x40
cmp eax,1
je window_2 ; window_2
cmp eax,2 ;
je key_2 ; key_2
cmp eax,3 ;
je button_2 ; button_2
jmp still_2 ;
key_2: ;
mov eax,2 ; <20> 2
int 0x40 ;
jmp still_2 ;
button_2: ;
mov eax,17 ; 17
int 0x40 ;
cmp ah,1 ; = 1 ?
jne noclose_2 ; noclose
mov [num_win2],0 ;
or eax,-1 ;
int 0x40
noclose_2:
jmp still_2 ;
draw_window_2:
mov eax,12 ; function 12:tell os about windowdraw
mov ebx,1h ; 1, start of draw
int 0x40
; DRAW WINDOW
mov eax,0 ; function 0 : define and draw window
mov ebx,250 shl 16 + 410
mov ecx,250 shl 16 + 350
mov edx,0x03FFFFFF ;aabbcc color of work area RRGGBB,8->color gl
int 0x40
Text 8, 8,0x20ddeeff, standard, standardlen-standard
Text 20, 30,0x00000000, STDCA, STDCAlen-STDCA
Text 220, 30,0x00000000, EXTCA, EXTCAlen-EXTCA
Number 140,30,1*256,8,dword [stdc],0x000000
Number 340,30,1*256,8,dword [extc],0x000000
Text 20, 50,0x00000000, FPU, FPUlen-FPU
Text 120, 50,0x00000000, VME, VMElen-VME
Text 220, 50,0x00000000, DE, DElen-DE
Text 320, 50,0x00000000, PSE, PSElen-PSE
Text 20, 70,0x00000000,TSC, TSClen-TSC
Text 120, 70,0x00000000,MSR, MSRlen-MSR
Text 220,70,0x00000000,PAE, PAElen-PAE
Text 320,70,0x00000000,MCE, MCElen-MCE
Text 20,90,0x00000000,CX8, CX8len-CX8
Text 120,90,0x00000000,APIC, APIClen-APIC
Text 220,90,0x00000000,Res, Reslen-Res
Text 320,90,0x00000000,SEP, SEPlen-SEP
Text 20,110,0x00000000,MTRR, MTRRlen-MTRR
Text 120,110,0x00000000,PGE, PGElen-PGE
Text 220,110,0x00000000,MCA, MCAlen-MCA
Text 320,110,0x00000000,CMOV, CMOVlen-CMOV
Text 20,130,0x00000000,PAT, PATlen-PAT
Text 120,130,0x00000000,PSE36, PSE36len-PSE36
Text 220,130,0x00000000,PSNUM, PSNUMlen-PSNUM
Text 320,130,0x00000000,CLFLUSHn, CLFLUSHnlen-CLFLUSHn
Text 20,150,0x00000000,Res, Reslen-Res
Text 120,150,0x00000000,DTS, DTSlen-DTS
Text 220,150,0x00000000,ACPI, ACPIlen-ACPI
Text 320,150,0x00000000,MMX, MMXlen-MMX
Text 20,170,0x00000000,FXSR, FXSRlen-FXSR
Text 120,170,0x00000000,SSE, SSElen-SSE
Text 220,170,0x00000000,SSE2, SSE2len-SSE2
Text 320,170,0x00000000,SSn, SSnlen-SSn
Text 20,190,0x00000000,HTT, HTTnlen-HTTn
Text 120,190,0x00000000,TM, TMlen-TM
Text 220,190,0x00000000,IA64, IA64len-IA64
Text 320,190,0x00000000,PBE, PBElen-PBE
;---------------
DrawLine 5, 405, 205,205,0x8080FF ;10
mov eax,$80000000
cpuid
;mov eax, $03020101 <20>for test of reaction
test eax, 80000000h
jnz goooddd
baaadd:
Text 100,255,0x00000000,NEF, NEFlen-NEF
jmp too
goooddd:
Text 20,215,0x00000000,SS3, SS3len-SS3
Text 20,235,0x00000000,MON, MONlen-MON
Text 20,255,0x00000000,DS_CPL, DS_CPLlen-DS_CPL
Text 20,275,0x00000000,EST, ESTlen-EST
Text 20,295,0x00000000,TM2, TM2len-TM2
Text 120,215,0x00000000,CNXT_ID, CNXT_IDlen-CNXT_ID
Text 120,235,0x00000000,CX16, CX16len-CX16
Text 120,255,0x00000000,ETPRD, ETPRDlen-ETPRD
Text 120,275,0x00000000,SYS, SYSlen-SYS
Text 120,295,0x00000000,LAF, LAFlen-LAF
Text 220,215,0x00000000,MP, MPlen-MP
Text 220,235,0x00000000,NX, NXlen-NX
Text 220,255,0x00000000,MMXPi, MMXPilen-MMXPi
Text 220,275,0x00000000,MMXn, MMXnlen-MMXn
Text 220,295,0x00000000,FXSRn, FXSRnlen-FXSRn
Text 320,215,0x00000000,FFXSR, FFXSRlen-FFXSR
Text 320,235,0x00000000,TSCP, TSCPlen-TSCP
Text 320,255,0x00000000,LM, LMlen-LM
Text 320,275,0x00000000,DNo, DNolen-DNo
Text 320,295,0x00000000,DN, DNlen-DN
too:
DrawLine 5, 405, 315,315,0x8080FF ;10
Text 20,330,0x00000000,speed, speedlen-speed
Text 135,330,0x00000000,kbpersec, kbperseclen-kbpersec
Number 100,330,0,5,dword [iter],0x000000; RSA test results
mov eax,12
mov ebx,2h
int 0x40
ret
num_win2 db 0
; ******* main window *******
draw_window:
mov eax,12
mov ebx,1h
int 0x40
mov eax,0 ; <20>0
mov ebx,150*65536+351 ; [x ] *65536 + [x ]
mov ecx,150*65536+325 ; [y ] *65536 + [y ]
mov edx,0x03FFFFFF;aabbcc RRGGBB,8->color gl
mov esi,0x805080d0 ; RRGGBB,8->color gl
mov edi,0x005080d0 ; RRGGBB
int 0x40
mov eax,8
mov ebx,20 shl 16 + 92;93
mov ecx,290 shl 16 + 23;24
mov edx,2
mov esi,0x03FFFFFF;aabbcc
int 0x40
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Print the unpacked img to screen
mov esi, knopka
mov edi, img_area2
call load_gif2
mov eax,7 ; sysfunc7: putimage
mov ebx,img_area2+8 ; pointer to image
mov ecx,93*65536+24 ; resolution (all gif's included are 64*81)
mov edx,20*65536+290 ; plce to print image on screen (first number is
;pixels from left, second pixels from top)
int 0x40 ; execute function
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Text 8,8,0x20ddeeff,zag,zaglen-zag ; application header
mov eax,12
mov ebx,2h
int 0x40
Text 135,230,0x00000000,instruct, instructlen-instruct
DrawLine 15, 335, 285,285,0x8080FF
DrawLine 335, 335, 235,285,0x8080FF
DrawLine 15, 15, 235,285,0x8080FF
DrawLine 15, 130, 235,235,0x8080FF
DrawLine 235, 335, 235,235,0x8080FF
cmp dword[smallvendor], 'cAMD'
jne cont
cmp [f], $6
jne cont
cmp [f], $6
jl cont
mov eax,8 ; new button for rating
mov ebx,245 shl 16 + 69
mov ecx,105 shl 16 + 15
mov edx,3
;mov esi,0x03FFFFFF
mov esi,0x030000FF
int 0x40
Text 250,110,0x00FFFFFF,FR, FRlen-FR
call newrating; !!!!
cont:
;================_RAM_==============
mov eax, 18
mov ebx, 16
int 0x40
shr eax, 10
mov [ram_size_a], eax
mov eax, 18
mov ebx, 17
int 0x40
shr eax, 10
mov [ram_size_t], eax
Text 120,300,0x00000000,ram, ramlen-ram
Number 205,300,0,4,dword [ram_size_a],0x000000
Number 275,300,0,4,dword [ram_size_t],0x000000
Text 305,300,0x00000000,mb, mblen-mb
;==============================
Text 20,70,0x00000000,tsum, tsumlen-tsum ;
Text 20,110,0x00000000,cpuname, cpunamelen-cpuname;
Text 230,190,0x00000000,typen, typenlen-typen;
Text 180, 70,0x00000000,tech, techlen-tech;
Number 87,70,0,4,dword [total],0x000000; MHz
Number 115,70,0,2,dword [sot],0x000000; KHz
Text 20,190,0x00000000,cache2, cache2len-cache2
Number 80,130,1*256,1,dword [f],0x000000 ;
Number 80,150,1*256,1,dword [m],0x000000;
Number 80,170,1*256,1,dword [s],0x000000;
Number 115,130,1*256,2,dword [ef],0x000000 ;
Number 115,150,1*256,2,dword [em],0x000000;
Text 20,50,0x00000000,multil, multillen-multil
Number 90,50,0,2,dword [multb],0x000000;
Number 110,50,0,1,dword [multa],0x000000;
Text 180,50,0x00000000,freql, freqllen-freql
Number 264,50,0,4,dword [freqbb],0x000000;
Number 294,50,0,2,dword [freqll],0x000000;
Text 20,30,0x00000000,stm, stmlen-stm
; Fix for deleting leading whitespaces
; in Intel P4's internal name
; by Madis Calme
; 23.12.2004 ver. 0.81
cld
mov edi,myname
mov al,20h
or ecx,-1
repe scasb
dec edi
mov esi,mynamelen
sub esi,edi
Text 110, 30, 0x00000000, edi, esi
; Text 110,40,0x00000000,myname, mynamelen-myname
;-
Text 230,210,0x00000000,brandid, brandidlen-brandid
ret ;
load_gif:
mov edi, img_area
load_gif2:
gif2img esi,edi
ret
; DATA AREA
zag:
db 'CPUID 2.05 by Sergey Kuzmin and the KolibriOS team'
zaglen:
tsum:
db 'Frequency: . MHz'
tsumlen:
ost dd ?
sot dd ?
f dd ?
m dd ?
s dd ?
t dd ?
ef dd ?
em dd ?
multiplier dd ?
multa dd ?
multb dd ?
smallvendor dd ?
L1d dd ?
L1i dd ?
L2 dd ?
L3 dd ?
total dd 0x0
total1 dd 0x0
rating dd 0x0
rat dd 0x0 ;
micron dd ?
sse3sup dd ?
brand dd ?
ram_size_a dd ?
ram_size_t dd ?
ram:
db 'Available RAM: out of'
ramlen:
NEF:
db 'EXTENDED FEATURES ARE NOT AVAILABLE'
NEFlen:
mb :
db 'MB'
mblen:
speed :
db 'PERFORMANCE:'
speedlen:
kbpersec:
db 'KB/SEC'
kbperseclen:
instruct:
db 'Instruction sets'
instructlen:
standard:
db 'Standard and Extended features plus Performance test'
standardlen:
FR:
db 'Choose FSB:'
FRlen:
STDCA:
db 'Highest STD call is '
STDCAlen:
EXTCA:
db 'Highest EXT call is h'
EXTCAlen:
brandid:
db 'Brand:'
brandidlen:
stdc dd ?
extc dd ?
FRS dd ?
freqsel db ?
temp dd ?
freqbb dd ?
freqll dd ?
che db ? ; numbers of calls for Intel caches detection
oblom:
db 'SORRY, CPUID IS NOT AVAILABLE'
oblomlen:
other:
db 'SORRY, THIS VENDOR IS NOT SUPPORTED YET'
otherlen:
cpuname:
db 'CPU VENDOR: '
cpunamelen:
fam:
db 'FAMILY: std ext'
famlen:
mode:
db 'MODEL: std ext'
modelen:
step:
db 'STEPPING:'
steplen:
cache2:
db 'L1(data): KB L2: KB'
cache2len:
cache:
db 'L1(inst): KB L3: KB'
cachelen:
cacheP4:
db 'L1(inst): Kuops L3: KB'
cacheP4len:
tech:
db 'Technology: 0. micron '
techlen:
typen:
db 'Type:'
typenlen:
pr:
db 'P-rating:'
prlen:
multil:
db 'Multiplier: .'
multillen:
freql:
db 'System clock: . MHz'
freqllen:
name:
db 'CODENAME:'
namelen:
AMDn:
db 'AMD'
AMDnlen:
Inteln:
db 'Intel'
Intelnlen:
Cyrixn:
db 'Cyrix'
Cyrixnlen:
IDTn:
db 'IDT/Centaur'
IDTnlen:
Centaurn:
db 'VIA'
Centaurnlen:
Tranmsmetan:
db 'Transmeta'
Tranmsmetanlen:
MMXs:
db 'MMX: '
MMXslen:
mmxp:
db 'MMX+: '
mmxplen:
HTT:
db 'HTT: '
HTTlen:
HTTn:
db 'HTT: '
HTTnlen:
sse3:
db 'SSE3: '
sse3len:
now:
db '3DNOW!: '
nowlen:
nowp:
db '3DNOW!+: '
nowplen:
;-Type
t1:
db 'OEM'
t1len:
t2:
db 'Overdrive'
t2len:
t3:
db 'Dual'
t3len:
t4:
db 'Unknown'
t4len:
;----------Intel
P50:
db 'P5 A-step'
P50len:
P5:
db 'P5'
P5len:
P54T:
db 'P24T Overdrive'
P54Tlen:
P54C:
db 'P54C'
P54Clen:
P55C:
db 'P55C (with MMX)'
P55Clen:
; ---
P60:
db 'Pentium Pro A-step'
P60len:
P61:
db 'Pentium Pro'
P61len:
P63:
db 'Pentium II (Klamath)'
P63len:
P65:
db 'Pentium II (Deschutes)'
P65len:
P66:
db 'Celeron (Medocino)'
P66len:
P67:
db 'Pentium III (Katmai)'
P67len:
P68:
db 'Pentium III (Coppermine)'
P68len:
P69:
db 'Pentium M (Banias)'
P69len:
P6A:
db 'Pentium III Xeon (Cascades)'
P6Alen:
P6B:
db 'Pentium III (Tualatin)'
P6Blen:
P6D:
db 'Pentium M (Dothan)'
P6Dlen:
P6E:
db 'Pentium M (Yonah)'
P6Elen:
P6F:
db 'Pentium D (Conroe)'
P6Flen:
;---
PS0:
db 'Itanium (IA-64)'
PS0len:
;------------
PF0:
db 'Pentium 4 (Willamete)'
PF0len:
PF2:
db 'Pentium 4 (Northwood)'
PF2len:
PF3:
db 'Pentium 4 (Prescott)'
PF3len:
PF5:
db 'Pentium 4 (Tejas)'
PF5len:
PF6:
db 'Pentium 4 (Presler)'
PF6len:
;----------------Intel Celerons
P65c:
db 'Celeron (Covington)'
P65clen:
P68c:
db 'Celeron (Coppermine)'
P68clen:
P6Bc:
db 'Celeron (Tualatin)'
P6Bclen:
PF0c:
db 'Celeron (Willamete)'
PF0clen:
PF2c:
db 'Celeron (Northwood)'
PF2clen:
PF3c:
db 'Celeron (Prescott)'
PF3clen:
PF5c:
db 'Celeron D (Texas)'
PF5clen:
PF6c:
db 'Celeron D (Presler)'
PF6clen:
;---------AMD
A50:
db 'K5 (PR75, PR90, PR100)'
A50len:
A51:
db '5k86 (PR120, PR133)'
A51len:
A52:
db '5k86 (PR166)'
A52len:
A53:
db '5k86 (PR200)'
A53len:
A56:
db 'K6'
A56len:
A57:
db 'K6'
A57len:
A58:
db 'K6-2'
A58len:
A59:
db 'K6-III'
A59len:
A5D:
db 'K6-2+ or K6-III+'
A5Dlen:
;-------------------
At1:
db 'Athlon'
At1len:
At2:
db 'Athlon'
At2len:
At3:
db 'Duron (Spitfire)'
At3len:
At4:
db 'Athlon (Thunderbird)'
At4len:
At6:
db 'AthlonXP (Palomino)'
At6len:
At7:
db 'Duron (Morgan)'
At7len:
At8:
db 'AthlonXP (Thoroughbred)'
At8len:
At8a:
db 'Duron (Applebred)'
At8alen:
Ata:
db 'AthlonXP (Barton)'
Atalen:
Atat:
db 'AthlonXP (Thorton)'
Atatlen:
;-------------------
AF1:
db 'Dual-core Opteron'
AF1len:
AF3:
db 'Athlon 64 (Toledo)'
AF3len:
AF4:
db 'Athlon 64 (ClawHammer)'
AF4len:
AF5:
db 'Opteron/Athlon 64 FX (SledgeHammer)'
AF5len:
AFC:
db 'Athlon 64 (Newcastle)'
AFClen:
AFF:
db 'Athlon 64 (Winchester)'
AFFlen:
AFS:
db 'Athlon 64 (San Diego)'
AFSlen:
AFV:
db 'Athlon 64 (Venice)'
AFVlen:
AFCs:
db 'Sempron (Paris)'
AFCslen:
AFCsp:
db 'Sempron (Palermo)'
AFCsplen:
;---------Cyrix
C52:
db '6x86 M1'
C52len:
C54:
db 'MediaGX'
C54len:
C60:
db '6x86MX M2'
C60len:
C65:
db 'C3 (Cyrix M2)' ;?
C65len:
;--------IDT
V54:
db 'WinChip C6'
V54len:
V58:
db 'WinChip 2'
V58len:
V59:
db 'WinChip 3'
V59len:
;-------VIA
V66:
db 'C3 (Samuel)' ; Joshua is unreleased 065
V66len:
V67:
db 'C3 (Samuel2/Ezra)' ; ?
V67len:
V68:
db 'C3 (Ezra-T/Eden)' ;?
V68len:
V69:
db 'C3 (Antaur/Nehemiah)' ;?
V69len:
VA:
db 'C7 (Esther)' ;?
VAlen:
;---------Transmeta
T5:
db 'Crusoe' ;
T5len:
TF:
db 'Efficeon' ;
TFlen:
;---------
NG:
db 'Next generation CPU'
NGlen:
stm:
db 'Internal name:'
stmlen:
athloncoef db 110, 115, 120, 125, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105
athloncoef2 db 120, 190, 120, 200, 130, 135, 140, 210, 150, 220, 160, 165, 170, 180, 230, 240
athloncoef3 db 45, 50, 40, 55, 25, 30, 60, 35
p4coef db 160, 170, 180, 190, 200, 210, 220, 230, 80, 90, 100, 110, 120, 130, 140, 150 ; Pentium 4
coppercoeff db 50, 30, 40, 20, 55, 35, 45, 25, 35, 70, 80, 60, 20, 75, 15, 65, 90, 110, 120, 20, 95, 115, 85, 25, 35, 70, 80, 100, 20, 75, 15, 105
tualatcoeff db 120, 35, 35, 40, 55, 35, 115, 35, 160, 70, 80, 60, 40, 75, 35, 65, 90, 110, 35, 35, 95, 35, 85, 35, 35, 35, 130, 100, 140, 35, 150, 105
myname:
db ' '
mynamelen:
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;
; include images and unpacking- and hasharea
;
include 'logos.inc' ; include file where gif's are stored
img_area: ; image is going to be unpacked to here
rb 201*49*3+8 ; image resolution (bits to reserve)
img_area2: ; image is going to be unpacked to here
rb 93*24*3+8 ; image resolution (bits to reserve)
gif_hash_area:
rd 4096+1 ;hash area size for unpacking gif
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
I_END:
align 4
udata
thread2_stack_area rb 64
thread2_esp = $
U_END: