Egor00f/kolibrios
1
0
Fork 0
forked from KolibriOS/kolibrios
Code Pull Requests Activity

Removing deprecated branch "hd_kolibri"

Browse Source 
The same can be achieved on trunk kolibri by using the "/sys" path.
A backup of the files can be found on the KolibriOS FTP server.

git-svn-id: svn://kolibrios.org@2928 a494cfbc-eb01-0410-851d-a64ba20cac60
This commit is contained in:
hidnplayr 2012-08-17 23:31:35 +00:00
parent ed2d3499be
commit 54202798c2
180 changed files with 0 additions and 88233 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

BIN
kernel/branches/hd_kolibri/apps/DEFAULT.SKN
View File

Binary file not shown.

24
kernel/branches/hd_kolibri/apps/icon/ICONS.DAT
View File

@ -1,24 +0,0 @@
AA-SYSXTREE-004-/hd0/1/kolibri/bin/sysxtree - *
AB-COPY -008-/hd0/1/kolibri/bin/copy2 - *
BB-CALC -006-/hd0/1/kolibri/bin/calc - *
CA-TINYPAD -011-/hd0/1/kolibri/bin/tinypad - *
CB-TINYPAD2-011-/hd0/1/kolibri/tinypad2 - *
JA-VRR -009-/hd0/1/kolibri/bin/vrr - *
II-C4 -005-/hd0/1/kolibri/bin/c4 - *
JI-MINE -017-/hd0/1/kolibri/bin/mine - *
IH-TETRIS -021-/hd0/1/kolibri/bin/tetris - *
JH-MBLOCKS -013-/hd0/1/kolibri/bin/mblocks - *
HI-PONG -026-/hd0/1/kolibri/bin/pong3 - *
GI-15 -000-/hd0/1/kolibri/bin/15 - *
HH-LIFE2 -015-/hd0/1/kolibri/bin/life2 - *
BA-FASM -012-/hd0/1/kolibri/bin/fasm - *
JB-ANIMAGE -018-/hd0/1/kolibri/bin/animage - *
CC-CMD -023-/hd0/1/kolibri/bin/cmd - *
IA-BOARD -022-/hd0/1/kolibri/bin/board - *
BC-KFAR -027-/hd0/1/kolibri/bin/kfar/kfar - *
HA-MTDBG -029-/hd0/1/kolibri/bin/mtdbg - *
AH-PIPES -030-/hd0/1/kolibri/bin/pipes - *
AI-FARA -031-/hd0/1/kolibri/bin/fara - *
BI-ARC-II -014-/hd0/1/kolibri/bin/arcanii - *
BH-XONIX -024-/hd0/1/kolibri/bin/xonix - *
GH-CHECKERS-002-/hd0/1/kolibri/bin/checkers - *

5
kernel/branches/hd_kolibri/apps/icon/build_en.bat
View File

@ -1,5 +0,0 @@
@erase lang.inc
@echo lang fix en >lang.inc
@fasm icon.asm icon
@erase lang.inc
@pause

5
kernel/branches/hd_kolibri/apps/icon/build_ge.bat
View File

@ -1,5 +0,0 @@
@erase lang.inc
@echo lang fix ge >lang.inc
@fasm icon.asm icon
@erase lang.inc
@pause

5
kernel/branches/hd_kolibri/apps/icon/build_ru.bat
View File

@ -1,5 +0,0 @@
@erase lang.inc
@echo lang fix ru >lang.inc
@fasm icon.asm icon
@erase lang.inc
@pause

328
kernel/branches/hd_kolibri/apps/icon/gif_lite.inc
View File

@ -1,328 +0,0 @@
; GIF LITE v2.0 by Willow
; Written in pure assembler by Ivushkin Andrey aka Willow
;
; This include file will contain functions to handle GIF image format
;
; Created: August 15, 2004
; Last changed: September 9, 2004
; Change COLOR_ORDER in your program
; if colors are displayed improperly
if ~ (COLOR_ORDER in <MENUETOS,OTHER>)
; This message may not appear under MenuetOS, so watch...
display 'Please define COLOR_ORDER: MENUETOS or OTHER',13,10
end if
; virtual structure, used internally
struc GIF_list
{
.NextImg rd 1
.Left rw 1
.Top rw 1
.Width rw 1
.Height rw 1
}
struc GIF_info
{
.Left rw 1
.Top rw 1
.Width rw 1
.Height rw 1
}
_null fix 0x1000
; ****************************************
; FUNCTION GetGIFinfo - retrieve Nth image info
; ****************************************
; in:
; esi - pointer to image list header
; ecx - image_index (0...img_count-1)
; edi - pointer to GIF_info structure to be filled
; out:
; eax - pointer to RAW data, or 0, if error
GetGIFinfo:
push esi ecx edi
xor eax,eax
jecxz .eloop
.lp:
mov esi,[esi]
test esi,esi
jz .error
loop .lp
.eloop:
add esi,4
movsd
movsd
mov eax,esi
.error:
pop edi ecx esi
ret
; ****************************************
; FUNCTION ReadGIF - unpacks GIF image
; ****************************************
; in:
; esi - pointer to GIF file in memory
; edi - pointer to output image list
; eax - pointer to work area (MIN 16 KB!)
; out:
; eax - 0, all OK;
; eax - 1, invalid signature;
; eax >=8, unsupported image attributes
;
; ecx - number of images
ReadGIF:
push esi edi
mov [.table_ptr],eax
mov [.cur_info],edi
xor eax,eax
mov [.globalColor],eax
mov [.img_count],eax
inc eax
cmp dword[esi],'GIF8'
jne .er ; signature
mov ecx,[esi+0xa]
inc eax
add esi,0xd
mov edi,esi
bt ecx,7
jnc .nextblock
mov [.globalColor],esi
call .Gif_skipmap
.nextblock:
cmp byte[edi],0x21
jne .noextblock
inc edi
cmp byte[edi],0xf9 ; Graphic Control Ext
jne .no_gc
add edi,7
jmp .nextblock
.no_gc:
cmp byte[edi],0xfe ; Comment Ext
jne .no_comm
inc edi
.block_skip:
movzx eax,byte[edi]
lea edi,[edi+eax+1]
cmp byte[edi],0
jnz .block_skip
inc edi
jmp .nextblock
.no_comm:
cmp byte[edi],0xff ; Application Ext
jne .nextblock
add edi,13
jmp .block_skip
.noextblock:
cmp byte[edi],0x2c ; image beginning
jne .er
inc [.img_count]
inc edi
mov esi,[.cur_info]
add esi,4
xchg esi,edi
movsd
movsd
push edi
movzx ecx,word[esi]
inc esi
bt ecx,7
jc .uselocal
push [.globalColor]
mov edi,esi
jmp .setPal
.uselocal:
call .Gif_skipmap
push esi
.setPal:
movzx ecx,byte[edi]
inc ecx
mov [.codesize],ecx
dec ecx
pop [.Palette]
lea esi,[edi+1]
mov edi,[.table_ptr]
xor eax,eax
cld
lodsb ; eax - block_count
add eax,esi
mov [.block_ofs],eax
mov [.bit_count],8
mov eax,1
shl eax,cl
mov [.CC],eax
inc eax
mov [.EOI],eax
lea ecx,[eax-1]
mov eax, _null shl 16
.filltable:
stosd
inc eax
loop .filltable
pop edi
mov [.img_start],edi
.reinit:
mov edx,[.EOI]
inc edx
push [.codesize]
pop [.compsize]
call .Gif_get_sym
cmp eax,[.CC]
je .reinit
call .Gif_output
.cycle:
movzx ebx,ax
call .Gif_get_sym
cmp eax,edx
jae .notintable
cmp eax,[.CC]
je .reinit
cmp eax,[.EOI]
je .end
call .Gif_output
.add:
push eax
mov eax,[.table_ptr]
mov [eax+edx*4],ebx
pop eax
cmp edx,0xFFF
jae .cycle
inc edx
bsr ebx,edx
cmp ebx,[.compsize]
jne .noinc
inc [.compsize]
.noinc:
jmp .cycle
.notintable:
push eax
mov eax,ebx
call .Gif_output
push ebx
movzx eax,bx
call .Gif_output
pop ebx eax
jmp .add
.er:
pop edi
jmp .ex
.end:
mov eax,[.cur_info]
mov [eax],edi
mov [.cur_info],edi
add esi,2
xchg esi,edi
.nxt:
cmp byte[edi],0
jnz .continue
inc edi
jmp .nxt
.continue:
cmp byte[edi],0x3b
jne .nextblock
xor eax,eax
stosd
mov ecx,[.img_count]
.ex:
pop edi esi
ret
.Gif_skipmap:
; in: ecx - image descriptor, esi - pointer to colormap
; out: edi - pointer to area after colormap
and ecx,111b
inc ecx ; color map size
mov ebx,1
shl ebx,cl
lea ebx,[ebx*2+ebx]
lea edi,[esi+ebx]
ret
.Gif_get_sym:
mov ecx,[.compsize]
push ecx
xor eax,eax
.shift:
ror byte[esi],1
rcr eax,1
dec [.bit_count]
jnz .loop1
inc esi
cmp esi,[.block_ofs]
jb .noblock
push eax
xor eax,eax
lodsb
test eax,eax
jnz .nextbl
mov eax,[.EOI]
sub esi,2
add esp,8
jmp .exx
.nextbl:
add eax,esi
mov [.block_ofs],eax
pop eax
.noblock:
mov [.bit_count],8
.loop1:
loop .shift
pop ecx
rol eax,cl
.exx:
xor ecx,ecx
ret
.Gif_output:
push esi eax edx
mov edx,[.table_ptr]
.next:
push word[edx+eax*4]
mov ax,word[edx+eax*4+2]
inc ecx
cmp ax,_null
jnz .next
shl ebx,16
mov bx,[esp]
.loop2:
pop ax
lea esi,[eax+eax*2]
add esi,[.Palette]
if COLOR_ORDER eq MENUETOS
mov esi,[esi]
bswap esi
shr esi,8
mov [edi],esi
add edi,3
else
movsw
movsb
end if
loop .loop2
pop edx eax esi
ret
.globalColor rd 1
.img_count rd 1
.cur_info rd 1 ; image table pointer
.img_start rd 1
.codesize rd 1
.compsize rd 1
.bit_count rd 1
.CC rd 1
.EOI rd 1
.Palette rd 1
.block_ofs rd 1
.table_ptr rd 1

1418
kernel/branches/hd_kolibri/apps/icon/icon.asm
View File

File diff suppressed because it is too large Load Diff

BIN
kernel/branches/hd_kolibri/apps/icon/iconstrp.gif
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 12 KiB

269
kernel/branches/hd_kolibri/apps/icon/macros.inc
View File

@ -1,269 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & ((arg2 eqtype 0) | (arg2 eqtype '0'))
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
dw ? ; +52 - reserved
.client_left dd ? ; +54
.client_top dd ? ; +58
.client_width dd ? ; +62
.client_height dd ? ; +66
.wnd_state db ? ; +70
rb (1024-71)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

3
kernel/branches/hd_kolibri/apps/jpegview/build.bat
View File

@ -1,3 +0,0 @@
echo lang fix en >lang.inc
fasm jpegview.asm jpegview

77
kernel/branches/hd_kolibri/apps/jpegview/filelib.asm
View File

@ -1,77 +0,0 @@
file_handler:
.operation=0
.position=4
.reserved=8
.n_bytes=12
.bufer=16
.name=20
.st_size=20+1024
open: ;esi=name_string
;retorna eax
pushad
mov ecx,file_handler.st_size
call mallocz
mov [esp+28],edi
push edi
mov ecx,1024
add edi,file_handler.name
call movedata
pop edi
; test if file exists
lea ebx,[edi+file_handler.operation]
mov byte[ebx],5
mov dword[ebx+16],fileattr
mov eax,70
int 0x40
cmp eax,2
jz .virtual
test eax,eax
jnz close.b
@@:
clc
popad
ret
.virtual:
mov byte [fileattr], 0x10
jmp @b
close:
pushad
.b:
mov edi,[esp+28]
call free
popad
xor eax,eax
ret
read: ;(f,bufer,nbytes) eax,edi,ecx ncr
;retorna bytes leidos en ecx
pushad
lea ebx, [eax+file_handler.operation]
mov byte [ebx], 0
mov [ebx+12], ecx
mov [ebx+16], edi
mov eax, 70
int 0x40
cmp ebx, -1
sbb ebx, -1
mov eax, [esp+28]
add [eax+file_handler.position], ebx
mov [esp+24], ebx
popad
ret
ftell: mov edx,[eax+file_handler.position]
ret
lseek: ;eax=file edx=pos
mov [eax+file_handler.position],edx
ret
skip: ;eax=file edx=bytes to skip
add [eax+file_handler.position],edx
ret

22
kernel/branches/hd_kolibri/apps/jpegview/jpegdat.asm
View File

@ -1,22 +0,0 @@
modes:
dd mcu100,color100,8,8 ;monocromo
dd mcu111,color111,8,8
dd mcu211,color211,16,8
dd mcu411,color411,16,16
zigzag:
db 0,0, 4+1,0, 32,1, 64,1, 36,2, 8+1,0, 12+1,0, 40,4
db 68,2, 96,1, 128,1, 100,2, 72,4, 44,8, 16+1,0, 20+1,0
db 48,16, 76,8, 104,4, 132,2, 160,1, 192,1, 164,2, 136,4
db 108,8, 80,16, 52,32, 24+1,0, 28+1,0, 56,64, 84,32, 112,16
db 140,8, 168,4, 196,2, 224,1, 228,2, 200,4, 172,8, 144,16
db 116,32, 88,64, 60,128, 92,128, 120,64, 148,32, 176,16, 204,8
db 232,4, 236,8, 208,16, 180,32, 152,64, 124,128, 156,128, 184,64
db 212,32, 240,16, 244,32, 216,64, 188,128, 220,128, 248,64, 252,128
k:
dd 1.41421,1.84776,1.08239,-2.6131
k2:
dd 0.3535534,0.49039264,0.46193953,0.415734806
dd 0.3535534,0.277785116,0.191341716,0.0975451609

1181
kernel/branches/hd_kolibri/apps/jpegview/jpeglib.asm
View File

File diff suppressed because it is too large Load Diff

545
kernel/branches/hd_kolibri/apps/jpegview/jpegview.asm
View File

@ -1,545 +0,0 @@
; IMGVIEW.ASM
;
; This program displays jpeg images. The window can be resized.
;
; Version 0.0 END OF 2003
; Octavio Vega
; Version 0.1 7th March 2004
; Mike Hibbett ( very small part! )
; Version 0.11 7th April 2004
; Ville Turjanmaa ( 'set_as_bgr' function )
; Version 0.12 29th May 2004
; Ivan Poddubny (correct "set_as_bgr"+parameters+boot+...)
; Version 0.12 30 de mayo 2004
; Octavio Vega
; bugs correction and slideshow
; version 0.13 3 de junio 2004
; Octavio Vega
; unos retoques
; version 0.14 10th August 2004
; Mike Hibbett Added setting default colours
; version 0.15 24th August 2006
; diamond (rewritten to function 70)
;
memsize=20000h
org 0
PARAMS = memsize - 1024
appname equ 'Jpegview '
version equ '0.15'
use32
db 'MENUET01' ; 8 byte id
dd 0x01 ; header version
dd START ; start of code
dd I_END ; size of image
dd memsize ; memory for app
dd memsize - 1024 ; esp
dd PARAMS , 0x0 ; I_Param , I_Icon
stack_size=4096 + 1024
include 'macros.inc'
START: ; start of execution
cmp [PARAMS], byte 0
jne check_parameters
; Calculate the 'free' memory available
; to the application, and create the malloc block from it
.l1:
mov ecx,memsize-fin-stack_size
mov edi,fin
call add_mem
call colorprecalc ;inicializa tablas usadas para pasar de ybr a bgr
call draw_window
call read_string.rs_done
still:
push still
mov ebx,100 ;1 second
mov eax,23 ; wait here for event
int 0x40
cmp eax,1 ; redraw request ?
je draw_window
cmp eax,2 ; key in buffer ?
je read_string
cmp eax,3 ; button in buffer ?
je button
jmp display_next
button: ; BUTTON
mov eax,17
int 0x40
cmp ah,3
je set_as_bgr2
cmp ah,2
je slideshow
cmp ah,1 ; CLOSE PROGRAM
jne close_program.exit
close_program:
mov eax,-1
int 0x40
.exit:
ret
; Put a 'chunk' of the image on the window
put_image:
pushad
lea ebp,[edx+eax+7]
cmp [winxs],bp
jc .l1
lea ebp,[ecx+ebx+20+2+17]
cmp [winys],bp
jc .l1
add eax,2 ; offset for boarder
add ebx,2 ; offset for title bar
push ax ; pox
push bx ; pos
push cx ; size
push dx ; size
pop ecx
pop edx
mov ebx,edi
mov eax,7
int 40h ; Put image function
.l1:
popad
ret
;******************************************************************************
check_parameters:
cmp [PARAMS], dword "BOOT" ; received BOOT parameter -> goto handler
je boot_set_background
mov edi, name_string ; clear string with file name
mov al, 0
mov ecx, 100
rep stosb
mov ecx, 100 ; calculate length of parameter string
mov edi, PARAMS
repne scasb
sub edi, PARAMS
mov ecx, edi
mov esi, PARAMS ; copy parameters to file name
mov edi, name_string
cld
rep movsb
jmp START.l1 ; return to beggining of the progra
;******************************************************************************
boot_set_background:
mov ecx,memsize-fin-stack_size ; size
mov edi,fin ; pointer
call add_mem ; mark memory from fin to 0x100000-1024 as free
call colorprecalc ; calculate colors
mov esi,name_string
call open
test eax,eax
jz close_program
call jpeg_info
mov dword [jpeg_st],ebp
call set_as_bgr2 ; set wallpaper
jmp close_program ; close the program right now
;******************************************************************************
;******************************************************************************
set_as_bgr2:
mov ebp,dword[jpeg_st]
test ebp,ebp
jz .end
mov dword [ebp+draw_ptr],put_chunk_to_bgr
call jpeg_display
mov eax, 15
mov ebx, 1
mov ecx, [ebp + x_size]
mov edx, [ebp + y_size]
int 0x40
; Stretch the image to fit
mov eax, 15
mov ebx, 4
mov ecx, 2
int 0x40
mov eax, 15
mov ebx, 3
int 0x40
.end:
ret
;******************************************************************************
put_chunk_to_bgr:
pushad
mov [x_pointer], edi
mov esi, ecx
imul esi, 3
mov [x_numofbytes], esi
mov ecx, [ebp + x_size]
imul ecx, ebx
add ecx, eax
imul ecx, 3
mov [x_offset], ecx
mov [x_counter], edx
mov eax, [ebp + x_size]
imul eax, 3
mov [x_numofb2], eax
.new_string:
mov eax, 15
mov ebx, 5
mov ecx, [x_pointer]
mov edx, [x_offset]
mov esi, [x_numofbytes]
int 0x40
mov eax, [x_numofbytes]
add [x_pointer], eax
mov eax, [x_numofb2]
add [x_offset], eax
dec [x_counter]
jnz .new_string
popad
ret
;******************************************************************************
; *********************************************
; ******* WINDOW DEFINITIONS AND DRAW ********
; *********************************************
draw_window:
mov eax,48
mov ebx,3
mov ecx,sc
mov edx,sizeof.system_colors
int 0x40
mov eax,12
mov ebx,1
int 0x40
; Draw the window to the appropriate size - it may have
; been resized by the user
cmp [winxs], 0
jne dw_001
; Give the screen some inital defaults
mov [winxs], 400
mov [winys], 300
mov ax, 100
mov [winxo], ax
mov [winyo], ax
jmp dw_002
dw_001:
mov eax, 9
mov ebx, memsize - 1024
mov ecx, -1
int 0x40
mov eax, [ebx + 34]
mov [winxo], ax
mov eax, [ebx + 38]
mov [winyo], ax
mov eax, [ebx + 42]
mov [winxs], ax
mov eax, [ebx + 46]
mov [winys], ax
dw_002:
mov ebx, dword [winxo-2]
mov bx, [winxs]
mov ecx, dword [winyo-2]
mov cx, [winys]
xor eax,eax ; DRAW WINDOW
mov edx,[sc.work]
or edx,0x33000000
mov edi,header ; WINDOW LABEL
int 0x40
mov eax,8 ; BUTTON 2: slideshow
mov ebx,57
mov cx, [winys]
sub cx, 39
shl ecx, 16
add ecx, 12
mov esi, [sc.work_button]
mov edx,2
int 0x40
mov eax,4 ; Button text
movzx ebx, word [winys]
add ebx, 3 shl 16 - 36
mov ecx,[sc.work_button_text]
mov edx,setname
mov esi,setnamelen-setname
int 0x40
mov eax,8 ; BUTTON 3: set as background
mov bx, [winxs]
sub bx, 65
shl ebx, 16
mov bx,55
mov cx, [winys]
sub cx, 39
shl ecx, 16
add ecx, 12
mov esi, [sc.work_button]
mov edx,3
int 0x40
mov eax,4 ; Button text
movzx ebx, word [winxs]
sub ebx, 63
shl ebx,16
mov bx, word [winys]
sub bx,36
mov ecx,[sc.work_button_text]
mov edx,setbgr
mov esi,setbgrlen-setbgr
int 0x40
call print_strings
call load_image
mov eax,12 ; function 12:tell os about windowdraw
mov ebx,2 ; 2, end of draw
int 0x40
ret
; Read in the image file name.
read_string:
movzx edi,byte[name_string.cursor]
add edi,name_string
mov eax,2
int 0x40 ; Get the key value
shr eax,8
cmp eax,13 ; Return key ends input
je .rs_done
cmp eax,8
jnz .nobsl
cmp edi,name_string
je .exit
dec edi
mov [edi],byte 0;'_'
dec byte[name_string.cursor]
jmp print_strings
.exit: ret
.nobsl:
cmp eax,31
jbe .exit
cmp eax,97
jb .keyok
sub eax,32
.keyok:
mov ah,0
stosw
cmp edi,name_string.end
jnc print_strings
inc byte[name_string.cursor]
jmp print_strings
.rs_done:
call print_strings
mov esi,name_string
call open
test eax,eax
jz .exit
call jpeg_info
test ebp,ebp
jz close
xchg [jpeg_st],ebp
call jpeg_close
load_image:
mov eax,13 ; clear picture area
movzx ebx, word [winxs]
add ebx, 1 shl 16 -10
movzx ecx, word [winys]
sub ecx, 40
add ecx, 1 shl 16
mov edx,[sc.work]
int 0x40
mov ebp,[jpeg_st]
test ebp,ebp
jz .exit
mov dword [ebp+draw_ptr],put_image
jmp jpeg_display
.exit: ret
print_strings:
pusha
mov eax,13 ; clear text area
movzx ebx, word [winxs]
add ebx, 59 shl 16 -125
mov cx, [winys]
sub cx, 39
shl ecx, 16
add ecx, 12
mov edx,0xffffff
int 0x40
mov eax,4 ;
movzx ebx, word [winys]
add ebx, 61 shl 16 - 37
mov ecx,0x000000
mov edx,name_string
mov esi,60
int 0x40
popa
ret
slideshow:
cmp [file_dir], 0
jnz .exit
cmp [jpeg_st], 0
jz .exit
mov esi, name_string
movzx ecx, byte [name_string.cursor]
.l1:
cmp byte [esi+ecx], '/'
jz .l2
loop .l1
.exit:
ret
.l2:
mov byte [esi+ecx], 0
call open
mov byte [esi+ecx], '/'
test eax, eax
jz .exit
test byte [fileattr], 0x10
jz .exit
mov [file_dir], eax
inc ecx
mov [name_string.cursor], cl
display_next:
mov ebx, [file_dir]
test ebx, ebx
jnz @f
ret
@@:
mov byte [ebx], 1
mov byte [ebx+12], 1
mov dword [ebx+16], dirinfo
mov eax, 70
int 0x40
mov eax, [file_dir]
inc dword [eax+4]
cmp ebx, 1
jz @f
mov eax, [file_dir]
and [file_dir], 0
jmp close
@@:
movzx edi, byte [name_string.cursor]
add edi, name_string
lea esi, [dirinfo+32+40]
@@:
lodsb
stosb
test al, al
jnz @b
mov ecx, name_string.end
sub ecx, edi
rep stosb
call print_strings
mov esi,name_string
call open
test eax,eax
jz display_next
call jpeg_info
test ebp,ebp
jnz .l6
call close
jmp display_next
.l6:
mov dword[ebp+draw_ptr],put_image
push ebp
xchg [jpeg_st],ebp
call jpeg_close
pop ebp
jmp jpeg_display
include 'filelib.asm'
include 'memlib.asm'
include 'jpeglib.asm'
; DATA AREA
wcolor dd 0x000000
header db appname,version,0
setname db 'SLIDESHOW'
setnamelen:
setbgr db ' BGR '
setbgrlen:
x_pointer dd 0
x_offset dd 0
x_numofbytes dd 0
x_numofb2 dd 0
x_counter dd 0
winxo dw 0
winyo dw 0
winxs dw 0
winys dw 0
jpeg_st dd 0
file_dir dd 0
name_string: db '/HD0/1/KOLIBRI/ETC/jpegview.jpg',0
rb 256
.end:
.cursor: db 19
.cursor2: db 0
align 4
rgb16: db 0,4,8,13,17,21,25,29,34,38,42,46,50,55,59,63
rgb4: db 0,21,42,63
include 'jpegdat.asm'
align 4
iniciomemoria:
dd -(iniciomemoria+4),-(iniciomemoria+4),(iniciomemoria+4),.l1,0
.l1 dd 0
fin:
I_END:
sc system_colors
fileattr: rb 40
dirinfo: rb 32+304

BIN
kernel/branches/hd_kolibri/apps/jpegview/jpegview.jpg
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 19 KiB

268
kernel/branches/hd_kolibri/apps/jpegview/macros.inc
View File

@ -1,268 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; language for programs
lang fix ru ; ru en fr ge fi
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & (arg2 eqtype 0)
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
rb (1024-52)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

210
kernel/branches/hd_kolibri/apps/jpegview/memlib.asm
View File

@ -1,210 +0,0 @@
movedata:
push eax
xor eax,eax
sub eax,edi
and eax,3
xchg ecx,eax
sub eax,ecx
jle .l1
rep movsb
mov ecx,eax
shr ecx,2
rep movsd
and eax,3
.l1: add ecx,eax
rep movsb
pop eax
ret
mallocz:
call malloc
pushad
add ecx,3
xor eax,eax
shr ecx,2
rep stosd
popad
ret
mresize1: popad
xor edi,edi
stc
mresize2: ret
mresize: ; puntero en di ncr retorna nuevo puntero en di
test edi,edi
jz malloc
cmp ecx,[edi-4]
je mresize2
call free
malloc:
mov edi,ecx
jecxz mresize2
pushad
mov esi,iniciomemoria+4
lea ebx,[ecx+3]
and ebx,-4 ;redondeo a 4
.l1: mov edi,esi
add esi,[esi]
jc mresize1
lodsd
cmp eax,ebx
jc .l1
cmp esi,[iniciomemoria+8]
jc .l2
jne mresize1
lea edx,[ebx+esi+4]
cmp edx,[iniciomemoria+12]
jnc mresize1
mov [iniciomemoria+8],edx
.l2: pop dword [esi-4]
push esi
sub eax,ebx
je .l3
sub eax,4
mov [esi+ebx],eax
jz .l3
;fragmentar
add ebx,4
add [edi],ebx
mov eax,[esi]
sub eax,ebx
mov [esi+ebx],eax
popad
ret
.l3: lodsd
add eax,4
add [edi],eax
popad
ret
realloc: test edi,edi
jz malloc
jecxz free
pushad
pop esi
mov eax,[edi-4]
call malloc
push edi
cmp ecx,eax
jc .l1
mov ecx,eax
.l1: push esi
call movedata
pop edi
call free
popad
.l2: ret
free: ;puntero en di
;no se comprueban los punteros
;retorna di=0 , ncr
test edi,edi
jz realloc.l2
pushad
pop edi
mov ebp,[edi-4]
dec ebp
and ebp,-4 ;redondeo a 4,dx=dx-4
xor edx,edx
push edx
mov edx,iniciomemoria+4
mov esi,edx
;buscar puntero libre anterior
.l1: mov ebx,esi
lodsd
add esi,eax
cmp esi,edi
jc .l1
;enlazar
mov ecx,esi
sub ecx,edi
sub eax,ecx
sub ecx,4
mov [ebx],eax
;fusionar con el anterior
cmp eax,[ebx-4]
jne .l2
cmp ebx,edx
je .l2 ;no fusionar con el primero
mov edi,ebx
add eax,4
add ecx,eax
add ebp,eax
.l2: mov ebx,ebp ;fusionar con bloques de tama¤o 0
.l3: add ebx,4
test dword [edi+ebx],-1
jz .l3
cmp ebx,ecx
jne .l4
;fusionar con el siguiente
add ebx,[esi-4]
add ecx,[esi]
add ebx,4
add ecx,4
cmp esi,[edx+4]
jne .l4
mov [edx+4],edi
.l4: mov [edi-4],ebx
mov [edi],ecx
popad
ret
add_mem: ;edi,ecx ;el ultimo bloque libre debe ser >8 bytes para poder fragmentarlo
cmp ecx,64
jc .l1
add ecx,edi
add edi,3
and edi,-4
and ecx,-4
mov eax,ecx
sub ecx,edi ;redondeo
xchg eax,[iniciomemoria+12]
cmp edi,eax
jna .l1
lea esi,[edi+4]
mov edx,esi
xchg esi,[iniciomemoria+8]
neg edx
mov [edi],edx
mov [edi+4],edx
lea edx,[edi-4]
sub edi,esi
mov [esi],edi
sub eax,4
sub eax,esi
mov [esi-4],eax
add esi,eax
sub edx,esi
mov [esi],edx
.l1: ret
check_mem: ;busqueda de errores en la memoria
;retorna edx nbloques o 0 si error,ecx memoria libre
;ncr: ebp,ebx,eax
mov edi,iniciomemoria
mov esi,edi
xor edx,edx
mov ecx,[edi]
neg ecx ;el primer bloque no cuenta
.l1: add ecx,[edi]
add edi,4
add edi,[edi]
.l2: inc edx
add esi,[esi]
jc .l4
add esi,7
jc .l3
and esi,-4
cmp esi,edi
jc .l2
je .l1
jmp .l4
.l3: test edi,edi
jnz .l4
add ecx,[iniciomemoria+12]
ret
.l4: xor edx,edx
stc
ret

11
kernel/branches/hd_kolibri/apps/launcher/AUTORUN.DAT
View File

@ -1,11 +0,0 @@
7 # <- Number of programs in the list
# Program Parameters Delay
/HD0/1/KOLIBRI/BIN/SETUP BOOT 99 # System setup
/HD0/1/KOLIBRI/BIN/JPEGVIEW BOOT 99 # Background image
/HD0/1/KOLIBRI/BIN/@RB <NO> 30 # Desktop right-click menu
/HD0/1/KOLIBRI/BIN/@SS <NO> 30 # Screensaver
/HD0/1/KOLIBRI/BIN/@TRACKER <NO> 30 # tracker
/HD0/1/KOLIBRI/BIN/@TASKBAR <NO> 30 # taskbar
/HD0/1/KOLIBRI/BIN/@DOCK <NO> 30 # dock
### Total: 2.6 seconds ###

2
kernel/branches/hd_kolibri/apps/launcher/build.bat
View File

@ -1,2 +0,0 @@
echo lang fix en >lang.inc
fasm launcher.asm launcher

200
kernel/branches/hd_kolibri/apps/launcher/launcher.asm
View File

@ -1,200 +0,0 @@
;
; LAUNCHER - €Ž‡€<E280A1>Š <20><>Žƒ<C5BD>€ŒŒ
; Š®¤ ¯à®£à ¬¬ë ᮢᥬ ­¥ ®¯â¨¬¨§¨à®¢ ­, ­® ®ç¥­ì ¯à®áâ ¤«ï ¯®­¨¬ ­¨ï.
; <20>â®â « ã­ç¥à £à㧨⠨­ä®à¬ æ¨î ® ¯à®£à ¬¬ å ¤«ï § ¯ã᪠ ¨§ ä ©« 
; AUTORUN.DAT. ”®à¬ â ®ç¥­ì ¯à®áâ ¨ ¢ ª®¬¬¥­â à¨ïå ­¥ ­ã¦¤ ¥âáï.
;
; Š®¬¯¨«¨àã©â¥ á ¯®¬®éìî FASM 1.52 ¨ ¢ëè¥
;
include "MACROS.INC"
use32
org 0x0
db 'MENUET01' ; 8 byte id
dd 0x01 ; header version
dd START ; start of code
dd I_END ; size of image
dd 0x8000 ; memory for app
dd 0x8000 ; esp
dd 0x0 , 0x0 ; I_Param , I_Icon
;include "DEBUG.INC"
START: ; start of execution
; mov eax, 5
; mov ebx, 10
; int 0x40
mcall 18,15
mov eax, 70 ; load AUTORUN.DAT
mov ebx, autorun_dat_info
int 0x40
call get_number
mov [number_of_files], eax
;dps "NUMBER OF FILES: "
;dpd eax
;dps <13,10>
call next_line
start_program:
;dps <"STARTING A PROGRAM",13,10>
call clear_strings
mov edi, program
call get_string
mov edi, parameters
call get_string
call get_number
call run_program
call next_line
dec [number_of_files]
jnz start_program
exit:
or eax, -1
int 0x40
run_program: ; time to delay in eax
push eax
mcall 70, start_info
pop ebx
mov eax, 5
int 0x40
ret
clear_strings: ; clears buffers
pushad
mov ecx, 60
mov edi, program
xor al, al ;mov al, ' '
rep stosb
mov ecx, 60
mov edi, parameters
rep stosb
popad
ret
get_string: ; pointer to destination buffer in edi
pushad
call skip_spaces
mov esi, [position]
;dpd esi
;dps <13,10>
add esi, file_data
.start:
lodsb
cmp al, ' '
je .finish
stosb
inc [position]
jmp .start
.finish:
popad
ret
get_number:
push ebx esi
call skip_spaces
mov esi, [position]
add esi, file_data
xor eax, eax
xor ebx, ebx
.start:
lodsb
sub al, '0'
cmp al, 9
ja .finish
lea ebx,[ebx*4+ebx]
lea ebx,[ebx*2+eax]
inc [position]
jmp .start
.finish:
mov eax, ebx
pop esi ebx
ret
skip_spaces:
pushad
xor eax, eax
mov esi, [position]
add esi, file_data
.start:
lodsb
cmp al, ' '
jne .finish
inc [position]
jmp .start
.finish:
;dps "NOW AL = "
;mov [tmp],al
;mov edx, tmp
;call debug_outstr
;dps <13,10>
popad
ret
next_line:
pushad
mov esi, [position]
add esi, file_data
.start:
lodsb
cmp al, 13
je .finish
inc [position]
jmp .start
.finish:
add [position], 2
inc esi
lodsb
cmp al, '#'
je .skipline
cmp al, 13
jne .donotskip
.skipline:
call next_line
.donotskip:
popad
ret
; DATA:
position dd 0 ; position in file
autorun_dat_info: ; AUTORUN.DAT
.mode dd 0 ; read file
.start_block dd 0 ; block to read
dd 0
.blocks dd 16*512 ; 16*512 bytes max
.address dd file_data
db "/HD0/1/KOLIBRI/ETC/AUTORUN.DAT",0
start_info:
.mode dd 7
dd 0
.params dd parameters
dd 0
dd 0
.path: ;      
I_END:
program rb 61 ; 60 + [0] char
parameters rb 61
number_of_files dd ?
file_data rb 16*512

269
kernel/branches/hd_kolibri/apps/launcher/macros.inc
View File

@ -1,269 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & ((arg2 eqtype 0) | (arg2 eqtype '0'))
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
dw ? ; +52 - reserved
.client_left dd ? ; +54
.client_top dd ? ; +58
.client_width dd ? ; +62
.client_height dd ? ; +66
.wnd_state db ? ; +70
rb (1024-71)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

163
kernel/branches/hd_kolibri/apps/menu/MENU.DAT
View File

@ -1,163 +0,0 @@
#0 **** MAIN ****
GAMES > /@6
DEMOS > /@1
GRAPHICS > /@12
SOUND AND MUSIC > /@11
DEVELOPMENT > /@2
SYSTEM > /@4
NETWORK > /@3
OTHER > /@5
HELP /HD0/1/KOLIBRI/BIN/docpak
RUN APPLICATION /HD0/1/KOLIBRI/BIN/run
SHUTDOWN /HD0/1/KOLIBRI/BIN/end
#1 **** DEMOS ****
FIRE /HD0/1/KOLIBRI/BIN/fire
FIRE2 /HD0/1/KOLIBRI/BIN/fire2
CIRCLE /HD0/1/KOLIBRI/BIN/circle
TRANSPARENCY /HD0/1/KOLIBRI/BIN/transp
FRACTAL /HD0/1/KOLIBRI/BIN/tinyfrac
COLOR DEMO /HD0/1/KOLIBRI/BIN/colorref
EYES /HD0/1/KOLIBRI/BIN/eyes
TUBE /HD0/1/KOLIBRI/BIN/tube
PLASMA /HD0/1/KOLIBRI/BIN/plasma
MOVEBACK /HD0/1/KOLIBRI/BIN/movback
LIFE /HD0/1/KOLIBRI/BIN/life2
SDLFIRE /HD0/1/KOLIBRI/BIN/sdlfire
TRANTEST /HD0/1/KOLIBRI/BIN/trantest
3D > /@15
#2 **** PROGRAMMING ****
ARCHIVER MHC /HD0/1/KOLIBRI/BIN/mhc
PACKER MTAPPACK /HD0/1/KOLIBRI/BIN/mtappack
TINYPAD /HD0/1/KOLIBRI/BIN/tinypad
TINYPAD2 /HD0/1/KOLIBRI/BIN/tinypad2
FLAT ASSEMBLER /HD0/1/KOLIBRI/BIN/fasm
HEX-EDITOR /HD0/1/KOLIBRI/BIN/heed
ASCII-CODES /HD0/1/KOLIBRI/BIN/keyascii
SCAN-CODES /HD0/1/KOLIBRI/BIN/scancode
HEX2DEC2BIN /HD0/1/KOLIBRI/BIN/h2d2b
CALCULATOR /HD0/1/KOLIBRI/BIN/calc
DEBUG BOARD /HD0/1/KOLIBRI/BIN/board
DEBUGGER /HD0/1/KOLIBRI/BIN/mtdbg
EXAMPLES > /@7
#3 **** NET ****
CONFIGURATION /HD0/1/KOLIBRI/BIN/stackcfg
NET STATUS /HD0/1/KOLIBRI/BIN/ethstat
ARP STATUS /HD0/1/KOLIBRI/BIN/arpstat
DNS RESOLVER /HD0/1/KOLIBRI/BIN/dnsr
DHCP (ONLY TEST) /HD0/1/KOLIBRI/BIN/dhcp
AUTODHCP /HD0/1/KOLIBRI/BIN/autodhcp
TERMINAL /HD0/1/KOLIBRI/BIN/terminal
LOCAL CLUSTER /HD0/1/KOLIBRI/BIN/local
REMOTE CLUSTER /HD0/1/KOLIBRI/BIN/remote
SERVERS > /@9
CLIENTS > /@10
#4 **** SYSTEM ****
PROTECTION TEST /HD0/1/KOLIBRI/BIN/test
DEBUG BOARD /HD0/1/KOLIBRI/BIN/board
READ HDD /HD0/1/KOLIBRI/BIN/hdread
ADJUSTMENT > /@8
SYSTEM SENSORS > /@14
WORK WITH FILES > /@13
#5 **** MISC ****
SCREEN MAGNIFIER /HD0/1/KOLIBRI/BIN/magnify
ANALOGUE CLOCK /HD0/1/KOLIBRI/BIN/aclock
BINARY CLOCK /HD0/1/KOLIBRI/BIN/bcdclk
TIMER /HD0/1/KOLIBRI/BIN/timer
SCRSHOOT /HD0/1/KOLIBRI/BIN/scrshoot
CALENDAR /HD0/1/KOLIBRI/BIN/calendar
BGI FONT DEMO /HD0/1/KOLIBRI/BIN/bgitest
RTF READER /HD0/1/KOLIBRI/BIN/rtfread
@RCHER /HD0/1/KOLIBRI/BIN/@rcher
#6 **** GAMES ****
TETRIS /HD0/1/KOLIBRI/BIN/tetris
C4 /HD0/1/KOLIBRI/BIN/c4
15 /HD0/1/KOLIBRI/BIN/15
MINE /HD0/1/KOLIBRI/BIN/mine
PONG /HD0/1/KOLIBRI/BIN/pong
MEMORY BLOCKS /HD0/1/KOLIBRI/BIN/mblocks
NEW PONG /HD0/1/KOLIBRI/BIN/pong3
PHENIX /HD0/1/KOLIBRI/BIN/phenix
FREECELL /HD0/1/KOLIBRI/BIN/freecell
ARCANII /HD0/1/KOLIBRI/BIN/arcanii
CLICKOMANIA /HD0/1/KOLIBRI/BIN/click
RED SQUARE /HD0/1/KOLIBRI/BIN/rsquare
PIPES /HD0/1/KOLIBRI/BIN/pipes
XONIX /HD0/1/KOLIBRI/BIN/xonix
PHARAOH TOMB /HD0/1/KOLIBRI/BIN/fara
SQ_GAME /HD0/1/KOLIBRI/BIN/sq_game
CHECKERS /HD0/1/KOLIBRI/BIN/checkers
QUAKE HD0_1 /HD0/1/MENUETOS/sdlquake
DOOM HD0_1 /HD0/1/MENUETOS/doom/mdoom
SOKOBAN HD0_1 /HD0/1/KOLIBRI/BIN/soko
#7 **** EXAMPLES ****
THREADS /HD0/1/KOLIBRI/BIN/thread
IPC /HD0/1/KOLIBRI/BIN/ipc
COLOR SLIDER /HD0/1/KOLIBRI/BIN/cslide
CONSOLE EXAMPLE /HD0/1/KOLIBRI/BIN/testcon2
#8 **** SETUP ****
DEVICES SETUP /HD0/1/KOLIBRI/BIN/setup
BACKGROUND SETUP /HD0/1/KOLIBRI/BIN/pic4
MEVIEW /HD0/1/KOLIBRI/BIN/mv
JPEGVIEW /HD0/1/KOLIBRI/BIN/jpegview
COLORS & SKIN SETUP /HD0/1/KOLIBRI/BIN/desktop
PANEL SETUP /HD0/1/KOLIBRI/BIN/spanel
ICONS SETUP /HD0/1/KOLIBRI/BIN/icon
VRR /HD0/1/KOLIBRI/BIN/vrr
#9 **** SERVERS ****
SMTPS /HD0/1/KOLIBRI/BIN/smtps
HTTPS /HD0/1/KOLIBRI/BIN/https
MP3S /HD0/1/KOLIBRI/BIN/mp3s
FTPS /HD0/1/KOLIBRI/BIN/ftps
NETSENDS /HD0/1/KOLIBRI/BIN/netsends
RCC-SERVER /HD0/1/KOLIBRI/BIN/rccs
#10 **** CLIENTS ****
TFTP CLIENT /HD0/1/KOLIBRI/BIN/tftpc
INTERNET-CHESS /HD0/1/KOLIBRI/BIN/chess
SIMPLY BROWSER /HD0/1/KOLIBRI/BIN/httpc
NNTP-NEWSGROUPS /HD0/1/KOLIBRI/BIN/nntpc
TELNET /HD0/1/KOLIBRI/BIN/telnet
POP - MAIL /HD0/1/KOLIBRI/BIN/popc
TFTP AUDIO STREAM /HD0/1/KOLIBRI/BIN/tftpa
IRC CLIENT /HD0/1/KOLIBRI/BIN/airc
YAHOO MESSENG.(DEMO) /HD0/1/KOLIBRI/BIN/ym
NETSENDC /HD0/1/KOLIBRI/BIN/netsendc
TESTFTP1 /HD0/1/KOLIBRI/BIN/testftp1
RCC-CLIENT /HD0/1/KOLIBRI/BIN/rccc
JMAIL /rd/1/network/jmail
#11 **** AUDIO ****
SB AUDIO PLAYER /HD0/1/KOLIBRI/BIN/sb
MIDAMP /HD0/1/KOLIBRI/BIN/midamp
CD PLAYER /HD0/1/KOLIBRI/BIN/cdp
VOLUME /HD0/1/KOLIBRI/BIN/mixer
TEST MIDI /HD0/1/KOLIBRI/BIN/midiplay
#12 **** GRAPHICS ****
ICON EDITOR (BMP) /HD0/1/KOLIBRI/BIN/iconedit
JPEG VIEWER /HD0/1/KOLIBRI/BIN/jpegview
BMP VIEWER /HD0/1/KOLIBRI/BIN/mv
GIFVIEW /HD0/1/KOLIBRI/BIN/gifview
ANIMAGE /HD0/1/KOLIBRI/BIN/animage
#13 **** <20><EFBFBD><E282AC> ”€‰‹€Œˆ ****
CMD CONSOLE /HD0/1/KOLIBRI/BIN/cmd
SYSXTREE /HD0/1/KOLIBRI/BIN/sysxtree
KFAR /HD0/1/KOLIBRI/BIN/kfar
COPY FILE /HD0/1/KOLIBRI/BIN/copy2
SAVE RD IMAGE /HD0/1/KOLIBRI/BIN/rdsave
#14
PROCESSES (CPU) /HD0/1/KOLIBRI/BIN/cpu
PCI DEVICES /HD0/1/KOLIBRI/BIN/pcidev
TEST GRAPHICS SPEED /HD0/1/KOLIBRI/BIN/mgb
CPUID /HD0/1/KOLIBRI/BIN/cpuid
GHOST MONITOR /HD0/1/KOLIBRI/BIN/gmon
K. BUS DISCONNECTED /HD0/1/KOLIBRI/BIN/kbd
#15
SCREENSAVER /HD0/1/KOLIBRI/BIN/crownscr
3D-CUBE /HD0/1/KOLIBRI/BIN/3dcube2
3D-LABYRINTH /HD0/1/KOLIBRI/BIN/free3d04
3D-TEXTURED CUBE /HD0/1/KOLIBRI/BIN/3dtcub10
3DSHEART /HD0/1/KOLIBRI/BIN/3dsheart
VIEW3DS /HD0/1/KOLIBRI/BIN/view3ds
CUBELINE /HD0/1/KOLIBRI/BIN/cubeline
3D-TEXTURED CUBE 2 /HD0/1/KOLIBRI/BIN/cubetext
GEARS /HD0/1/KOLIBRI/BIN/gears
FLATWAV /HD0/1/KOLIBRI/BIN/flatwav
##

2
kernel/branches/hd_kolibri/apps/menu/build.bat
View File

@ -1,2 +0,0 @@
echo lang fix en >lang.inc
fasm menu.asm menu

269
kernel/branches/hd_kolibri/apps/menu/macros.inc
View File

@ -1,269 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & ((arg2 eqtype 0) | (arg2 eqtype '0'))
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
dw ? ; +52 - reserved
.client_left dd ? ; +54
.client_top dd ? ; +58
.client_width dd ? ; +62
.client_height dd ? ; +66
.wnd_state db ? ; +70
rb (1024-71)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

566
kernel/branches/hd_kolibri/apps/menu/menu.asm
View File

@ -1,566 +0,0 @@
;******************************************************************************
; MAIN MENU by lisovin@26.ru
; Some parts of code rewritten by Ivan Poddubny <ivan-yar@bk.ru>
;
; Compile with FASM for Menuet
;******************************************************************************
include "lang.inc"
include "macros.inc"
BTN_HEIGHT = 22
TXT_Y = (BTN_HEIGHT)/2-5
use32
org 0x0
db 'MENUET01' ; 8 byte id
dd 0x01 ; header version
dd START ; start of code
dd I_END ; size of image
dd 0x20000 ; memory for app
dd 0x20000-1 ; esp
dd 0x0 , 0x0 ; I_Param , I_Icon
;******************************************************************************
;include "DEBUG.INC" ; debug macros
START: ; start of execution
mov eax, 48 ; load system colors
mov ebx, 3
mov ecx, sc
mov edx, sizeof.system_colors
int 0x40
mov eax, 70 ; load MENU.DAT
mov ebx, fileinfo
int 0x40
test eax, eax ; error ?
jz @f
cmp eax,6
jnz close
@@:
test ebx, ebx ; length = 0 ?
jz close
mov ecx, ebx
mov edi, mem_end
newsearch:
mov al, '#'
cld
repne scasb
test ecx, ecx ; if not found
jz close
call get_number
test ebx, ebx
jnz .number
cmp al, '#'
je search_end
.number:
shl ebx, 4
add ebx, menu_data ; pointer to process table
mov [ebx], edi
inc [processes]
jmp newsearch
search_end:
mov [end_pointer], edi
mov ebx, [processes]
dec ebx
shl ebx, 4
add ebx, menu_data
newprocess:
xor edx, edx
mov ecx, edi
sub ecx, [ebx]
mov al, 10
newsearch1:
std
repne scasb
test ecx, ecx
je endprocess
cmp [edi], byte 13
jne newsearch1
inc edx
jmp newsearch1
endprocess:
mov esi, ebx
add esi, 4
dec edx
mov [esi], dl
cmp ebx, menu_data
jbe search_end1
sub ebx, 16
jmp newprocess
search_end1:
mov eax, 14
int 0x40
sub ax, 20
mov [menu_data + y_end], ax
mov [menu_data + x_start], 5
mov al, [menu_data + rows]
mov [menu_data + cur_sel], al ; clear selection
mov [menu_data + prev_sel], al
mov [buffer], 0
thread:
mov eax, [buffer] ; identifier
shl eax, 4
add eax, menu_data
mov edi, eax
mov eax, 40 ; set event mask
mov ebx, 100111b ; mouse + button + key + redraw
int 0x40
call draw_window
still:
mov eax, 23 ; wait here for event
mov ebx, 5
int 0x40
test [close_now], 1 ; is close flag set?
jnz close
cmp eax, 1 ; redraw request ?
je red
cmp eax, 2 ; key pressed ?
je key
cmp eax, 3 ; button in buffer ?
je button
cmp eax, 6 ; mouse event ?
je mouse
cmp edi, menu_data
je still ; if main process-ignored
movzx ebx, [edi + parent] ; parent id
shl ebx, 4
add ebx, menu_data ; ebx = base of parent info
call backconvert ; get my id in al
cmp al, [ebx + child] ; if I'm not child of my parent, I shall die :)
jne close
jmp still
red: ; redraw
call draw_window
jmp still
key:
; mov eax, 2
int 0x40
mov al, [edi + rows] ; number of buttons
cmp ah, 178 ; KEY_UP
jne .noup
mov ah, [edi+cur_sel]
mov [edi+prev_sel], ah
dec byte [edi+cur_sel]
jnz redrawbut
mov [edi+cur_sel], al
jmp redrawbut
.noup:
cmp ah, 177 ; KEY_DOWN
jne .nodn
mov ah, [edi + cur_sel]
mov [edi + prev_sel], ah
inc [edi + cur_sel]
cmp [edi + cur_sel], al
jna redrawbut
mov [edi + cur_sel], 1
jmp redrawbut
.nodn:
cmp ah, 13 ; ENTER
jne .noenter
mov ah, [edi + cur_sel]
jmp button1
.noenter:
cmp ah, 27 ; ESC
jne still
jmp close
; include "DEBUG.INC"
button: ; BUTTON HANDLER
mov eax, 17 ; get id
int 0x40
button1:
mov esi, edi
push edi
mov edi, [edi + pointer]
; print "hello"
mov al, [esi + cur_sel]
mov [esi + prev_sel], al
mov [esi + cur_sel], ah
pushad
mov edi, esi
; dph eax
call draw_only_needed_buttons
popad
; look for the next line <ah> times; <ah> = button_id
push eax
.next_string:
call searchstartstring
dec ah
jnz .next_string
pop eax
mov ecx, 40
mov al, '/'
cld
repne scasb
test ecx, ecx ; if '/' not found
je searchexit
cmp [edi], byte '@' ; check for submenu
je runthread
dec edi
push edi ; pointer to start of filename
call searchstartstring ; search for next string
sub edi, 2 ; to last byte of string
mov ecx, edi
pop esi
sub ecx, esi
inc ecx ; length of filename
mov edi, fileinfo_start.name
rep movsb ; copy string
mov byte [edi], 0 ; store terminator
mov eax, 70 ; start program
mov ebx, fileinfo_start
int 0x40
; mcall 5,100
or [close_now], 1 ; set close flag
pop edi
mov [mousemask], 0
jmp close
searchexit:
pop edi
jmp still
runthread:
inc edi
push eax
call get_number ; get number of this process
pop eax
test ebx, ebx ; returned zero - main menu or not number
jz searchexit
mov al, bl
mov ebx, [processes]
dec bl
cmp al, bl
ja searchexit ; such process doesnt exist
cmp al, [esi + child]
je searchexit ; such process already exists
mov [esi + child], al ; this is my child
mov cx, [esi + x_start]
add cx, 141 ; new x_start in cx
movzx edx, al
shl edx, 4
add edx, menu_data ; edx points to child's base address
mov [edx + x_start], cx ; xstart for new thread
mov cx, [esi + y_end] ; y_end in cx
mov bl, [esi + rows] ; number of buttons in bl
sub bl, ah ; number of btn from bottom
movzx eax, al
mov [buffer], eax ; thread id in buffer
movzx ebx, bl
push edx
mov eax, BTN_HEIGHT
mul ebx
sub cx, ax ; new y_end for new thread
pop edx
mov [edx + y_end], cx ; store y_end
mov edi, esi
call backconvert ; get number of this process (al)
mov [edx + parent], al ; store number of parent process
mov al, [edx + rows]
mov [edx + cur_sel], al ; clear current selected element
mov [edx + prev_sel], al ; clear previous selected element
mov [edx + child], 0
cmp [thread_stack], 0x1e000
jne thread_stack_not_full
mov [thread_stack], 0xE000
thread_stack_not_full:
add [thread_stack], 0x2000 ; start new thread
mov eax, 51
mov ebx, 1
mov ecx, thread
mov edx, [thread_stack]
int 0x40
jmp searchexit
mouse: ; MOUSE EVENT HANDLER
mov eax, 37
mov ebx, 2
int 0x40
test eax, eax ; check buttons state
jnz click
mov eax, 37
mov ebx, 1
int 0x40
ror eax, 16 ; eax = [ Y | X ] relative to window
cmp ax, 140 ; pointer in window?
ja noinwindow
;  in window 
shr eax, 16 ; eax = [ 0 | Y ]
xor edx, edx
mov ebx, BTN_HEIGHT
div ebx
inc eax ; number of "button" in eax
movzx ebx, [edi + rows] ; total strings in ebx
cmp eax, ebx
ja noinwindow
cmp [edi + cur_sel], al
je noredrawbut
mov bl, [edi + cur_sel]
;;;;;;
cmp [edi + child], 0
jne noredrawbut
;;;;;;
mov [edi + cur_sel], al
mov [edi + prev_sel], bl
redrawbut:
call draw_only_needed_buttons
noredrawbut:
call backconvert
bts [mousemask], eax
jmp still
noinwindow:
call backconvert
btr [mousemask], eax
jmp still
click:
cmp [mousemask], 0 ; not in a window (i.e. menu)
je close
jmp still
close:
or eax, -1 ; close this thread
mov [edi + child], al ; my child is not mine
int 0x40
backconvert: ; convert from pointer to process id
mov eax, edi
sub eax, menu_data
shr eax, 4
ret
;==================================
; get_number
; load number from [edi] to ebx
;==================================
get_number:
push edi
xor eax, eax
xor ebx, ebx
.get_next_char:
mov al, [edi]
inc edi
cmp al, '0'
jb .finish
cmp al, '9'
ja .finish
sub al, '0'
imul ebx, 10
add ebx, eax
jmp .get_next_char
.finish:
pop edi
ret
; *********************************************
; ******* WINDOW DEFINITIONS AND DRAW ********
; *********************************************
draw_window:
mov eax, 12 ; function 12:tell os about windowdraw
mov ebx, 1 ; 1, start of draw
int 0x40
movzx ebx, [edi + rows]
imul eax, ebx, BTN_HEIGHT ; eax = height of window
movzx ecx, [edi + y_end]
sub ecx, eax ; ecx = Y_START
shl ecx, 16
add ecx, eax ; ecx = [ Y_START | Y_SIZE ]
dec ecx
movzx ebx, [edi + x_start]
shl ebx, 16
mov bx, 140 ; ebx = [ X_START | X_SIZE ]
xor eax, eax ; function 0 : define and draw window
mov edx, 0x01000000 ; color of work area RRGGBB,8->color gl
mov esi, edx ; unmovable window
int 0x40
call draw_all_buttons
mov eax,12
mov ebx,2
int 0x40
ret
draw_all_buttons:
xor edx, edx
.new_button:
call draw_one_button
inc edx
cmp dl, [edi + rows]
jb .new_button
ret
draw_only_needed_buttons:
xor edx, edx
mov dl, [edi + cur_sel]
dec dl
call draw_one_button
mov dl, [edi + prev_sel]
dec dl
call draw_one_button
ret
draw_one_button:
; receives number of button in dl
push edx;ad
mov eax, 8
mov ebx, 140
movzx ecx, dl
imul ecx, BTN_HEIGHT
shl ecx, 16
add ecx, BTN_HEIGHT-1
; edx = button identifier
mov esi, [sc.work]
inc dl
cmp [edi + cur_sel], dl
jne .nohighlight
add esi, 0x101010
.nohighlight:
or edx, 0x20000000
int 0x40
movzx edx, dl
dec dl
imul ebx, edx, BTN_HEIGHT
add ebx, (4 shl 16) + TXT_Y
movzx ecx, dl
inc ecx
mov edx, [edi + pointer]
.findline:
cmp byte [edx], 13
je .linefound
inc edx
jmp .findline
.linefound:
inc edx
cmp byte [edx], 10
jne .findline
dec ecx
jnz .findline
mov ecx, [sc.work_text]
mov eax, 4
mov esi, 21
int 0x40
pop edx;ad
ret
searchstartstring:
mov ecx, 40
mov al, 13
cld
repne scasb
cmp byte [edi], 10
jne searchstartstring
ret
;*** DATA AREA ****************************************************************
thread_stack dd 0xE000
processes dd 0
fileinfo:
.subfunction dd 0 ; 0=READ
.start dd 0 ; start byte
.size_high dd 0 ; rezerved
.size dd 0x10000-mem_end ; blocks to read
.return dd mem_end ; return data pointer
.name:
db '/HD0/1/KOLIBRI/ETC/MENU.DAT',0 ; ASCIIZ dir & filename
fileinfo_start:
.subfunction dd 7 ; 7=START APPLICATION
.flags dd 0 ; flags
.params dd 0x0 ; nop
.rezerved dd 0x0 ; nop
.rezerved_1 dd 0x0 ; nop
.name:
times 50 db ' '
I_END:
close_now dd ? ; close all processes immediately
end_pointer dd ?
buffer dd ?
mousemask dd ? ; mask for mouse pointer location
sc system_colors
menu_data:
rb 0x4000 ;x10000
virtual at 0 ; PROCESSES TABLE (located at menu_data)
pointer dd ? ; +0 pointer in file
rows db ? ; +4 numer of strings
x_start dw ? ; +5 x start
y_end dw ? ; +7 y end
child db ? ; +9 id of child menu
parent db ? ; +10 id of parent menu
cur_sel db ? ; +11 current selection
prev_sel db ? ; +12 previous selection
rb 16-$+1 ; [16 bytes per element]
end virtual
mem_end:

73
kernel/branches/hd_kolibri/apps/menu/readme.txt
View File

@ -1,73 +0,0 @@
English text is below
НОВОЕ ГЛАВНОЕ МЕНЮ.
Внимание: для корректной работы рекомендуется MENUET не ниже 0.76
и цветной монитор (на монохромном подсветка не видна)
Отличия от Виллиного меню:
1.Конфигурируемость. Пункты как основного, так и дополнительных
менюшек задаются файлом MENU.DAT.
Это позволяет:
-добавлять/убирать любые пункты в меню. Программа сама анализирует
изменения и рисует окно с кнопками по количеству пунктов.В дальнейшем
имхо это позволит конфигурировать меню не только вручную, но и прог-
раммно. Никакого вмешательства в код, что позволяет конфигурить меню
и простым пользователям.
-переводить меню на любые языки, не лазя в код.
-поскольку запуск приложений через 58-ю функцию, приложения могут находить-
ся не только на рамдиске.
2.Вещица, совсем не интересная для пользователей, но возможно
представляющая интерес для программистов. Приложение многопоточное, но все
потоки запускаются на одном и том же коде. Это позволило заменить испол-
няемые файлы MENU, SELECT1, SELECT2 и т.д. одним-единственным MENU
и сильно сэкономить место на диске.
3.Самоуничтожаемость меню при клике за его пределами и при запуске приложения
4.Кнопки, подсвечиваемые при наведении на них мышью (на монохромном мониторе
подсветка не видна).
5.Поддержка клавиатуры. Кнопки Вверх, Вниз, Enter и Esc.
В общем, постарался приблизиться к виндовской менюшке.
Замечания по синтаксису файла MENU.DAT:
Размер файла MENU.DAT-не более 2К
Меню #0-всегда главное.
Количество меню-не более 10 - от #0 до #9
В каждой строке либо путь на исполняемый файл, либо ссылка на дочернее
меню, например /@5
Маркер конца ## обязателен (внимание! TINYPAD бывает его обрезает)
Под текст на менюшных кнопках отводятся первые 20 позиций каждой строки
Каждая строка отделяется ENTERом, т.е. должны присутствовать знаки пере-
вода строки 0x0d,0x0a
Прога ОЧЕНЬ сырая, поэтому просьба не удивляться, если что-нить не будет
работать. С файлом MENU.DAT просьба обращаться очень осторожно. TINYPAD
иногда его калечит. Особенно маркер конца файла!
Исполняемый файл очень рекомендуется назвать MENU. (при компиляции)
Тогда он будет вызываться из панели как и положено.
Все замечания и предложения с удовольствием принимаются на lisovin@26.ru
Приаттаченные файлы следует высылать на mutny@rambler.ru
С уважением,
Михаил Лисовин
NEW MAIN MENU
Requirements: MENUET 0.76, color monitor
WHAT'S NEW?
1.Self-configuring menu. All the configurational data is in MENU.DAT
You may add/remove menu positions, translate menu to any language,
run menu applications from HDD without source code change.
2.Multi-thread application. There're two files only: MENU and MENU.DAT
instead of MENU, SELECT1, SELECT2, SELECT3 etc.
3.Self-closing when running application or clicking out of menu.
4.Button highlight
5.Keyboard support (keys Up, Dn, Enter, Esc.)
So, it's just like Windows menu ;)
NOTES ON MENU.DAT:
Size of MENU.DAT should be not more than 2K
Number of menus-not more than 10 (from #0 to #9). #0 is always main menu
## is an end file marker - always required.
First 20 positions of any string reserved for button text
Any string contains file path or link to submenu, for example /@4.
You may edit MENU.DAT by any text editor, but be careful when using
TINYPAD (sometimes it cuts end marker).
It is recommended to compile MMENU.ASM as MENU. So, you can run it from
standard panel.
All the comments and bugreports send to lisovin@26.ru
Michail Lisovin.

6
kernel/branches/hd_kolibri/apps/menu/readme2.txt
View File

@ -1,6 +0,0 @@
Changes:
11.07.06 - Mario79, application used function 70.
Earlier changes were made:
Ivan Poddubny, Mario79 and Halyavin

2089
kernel/branches/hd_kolibri/apps/panel/@PANEL.ASM
View File

File diff suppressed because it is too large Load Diff

1
kernel/branches/hd_kolibri/apps/panel/PANEL.DAT
View File

@ -1 +0,0 @@
0000;0000;0001;0001;0001;0001;0100;0001;0001;0001;0001;0001;x

4
kernel/branches/hd_kolibri/apps/panel/build_en.bat
View File

@ -1,4 +0,0 @@
@erase lang.inc
@echo lang fix en >lang.inc
@fasm @panel.asm @panel
@pause

5
kernel/branches/hd_kolibri/apps/panel/build_et.bat
View File

@ -1,5 +0,0 @@
@erase lang.inc
@echo lang fix et >lang.inc
@fasm @panel.asm @panel
@erase lang.inc
@pause

4
kernel/branches/hd_kolibri/apps/panel/build_ru.bat
View File

@ -1,4 +0,0 @@
@erase lang.inc
@echo lang fix ru >lang.inc
@fasm @panel.asm @panel
@pause

266
kernel/branches/hd_kolibri/apps/panel/macros.inc
View File

@ -1,266 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & (arg2 eqtype 0)
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
rb (1024-52)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

405
kernel/branches/hd_kolibri/apps/rb/@RB.ASM
View File

@ -1,405 +0,0 @@
;
; DESKTOP CONTEXT MENU
; written by Ivan Poddubny
;
; €¢â®à - ˆ¢ ­ <20>®¤¤ã¡­ë©
; e-mail: ivan-yar@bk.ru
;
; Compile with flat assembler
;
include 'lang.inc'
include 'macros.inc'
meos_app_start
code
mov eax,40 ; ãáâ ­®¢¨¬ ¬ áªã ᮡë⨩
mov ebx,100000b ; ­ á ¨­â¥à¥áã¥â ⮫쪮 ¬ëèì
int 0x40
still: ; £« ¢­ë© 横« ®á­®¢­®£® ¯à®æ¥áá 
mov eax,10 ; ¦¤ñ¬ ᮡëâ¨ï
int 0x40
mov eax,37 ; ª ª¨¥ ­ ¦ âë ª¯®¯ª¨?
mov ebx,2
int 0x40
cmp eax,2 ; ¥á«¨ ­¥ ¯à ¢ ï, ¢®§¢à â
jne still
;---¯®¥å «¨!---
; mov eax,37 ; íâ® ¤«ï ®â« ¤ª¨ - ¥á«¨ ¬ëèì ¢ â®çª¥ (0;0), § ªà®¥¬áï
; xor ebx,ebx
; int 0x40
; test eax,eax ; ªãàá®à ¢ â®çª¥ (0;0), â.¥. eax = 0
; je exit
mov eax,9 ; ¯®«ã稬 ç¨á«® ¯à®æ¥áᮢ ¢ á¨á⥬¥
mov ebx,procinfo
xor ecx,ecx
int 0x40
inc eax ; ⥯¥àì ¢ eax ᮤ¥à¦¨âáï ç¨á«® ¯à®æ¥áᮢ + 1
mov [processes],eax
mov ecx,1
new_process:
pushad
mov eax,9 ; ¯®«ã稬 ¨­ä®à¬ æ¨î ® ¯à®æ¥áá¥; ­®¬¥à - ¢ ecx
mov ebx,procinfo
int 0x40
mov eax,37 ; ª®®à¤¨­ âë ªãàá®à 
xor ebx,ebx
int 0x40
mov ebx,eax ; eax = cursor_x
shr eax,16 ; ebx = cursor_y
and ebx,0xffff
mov [curx1],eax ; curx1 = cursor_x
mov [cury1],ebx ; cury1 = cursor_y
; \begin{diamond}[18.09.2006]
; ignore minimized windows
test [procinfo.wnd_state], 2
jnz ne_goden
; \end{diamond}[18.09.2006]
mov eax,[procinfo.x_start] ; eax = wnd_x_start
mov ebx,[procinfo.y_start] ; ebx = wnd_y_start
mov ecx,[procinfo.x_size]
add ecx,eax ; ecx = wnd_x_end
mov edx,[procinfo.y_size]
add edx,ebx ; ecx = wnd_y_end
cmp eax,[curx1] ; wnd_x_start > cursor_x => ªãàá®à «¥¢¥¥ ®ª­ 
jg ne_goden
cmp ecx,[curx1] ; wnd_x_end < cursor_x => ªãàá®à ¯à ¢¥¥ ®ª­ 
jl ne_goden
cmp ebx,[cury1] ; wnd_y_start > cursor_y => ªãàá®à ¢ëè¥ ®ª­ 
jg ne_goden
cmp edx,[cury1] ; wnd_y_end < cursor_y => ªãàá®à ­¨¦¥ ®ª­ 
jl ne_goden
goden: ; ª«¨ª ¡ë« ¢­ãâਠª ª®£®-â® ®ª­ , ¯®í⮬㠭¨ç¥£® ­¥ ¤¥« ¥¬
popad
jmp still
ne_goden: ; ª«¨ª ¡ë« á­ à㦨 à áᬠâਢ ¥¬®£® ®ª­ , ¯®í⮬ã
popad
inc ecx
cmp ecx,[processes]
jl new_process ; «¨¡® ᬮਬ á«¥¤ãî饥 ®ª­®, «¨¡® § ¯ã᪠¥¬ ¬¥­î
@@: ; ¯®¤®¦¤ñ¬, ¯®ª  ¯®«ì§®¢ â¥«ì ­¥ ®â¯ãá⨫ ¯à ¢ãî ª­®¯ªã ¬ëè¨
mov eax,37
mov ebx,2 ; äã­ªæ¨ï 37-2:
int 0x40 ; ­ ¦ âë «¨ ª­®¯ª¨ ¬ëè¨?
cmp eax,ebx ; ¥á«¨ ®â¯ãá⨫, (eax != 2)
jnz @f ; ¨¤ñ¬ ¢ ­ ç «® £« ¢­®£® 横« 
mov eax,5 ; ¨­ ç¥
mov ebx,2 ; ¯®¤®¦¤ñ¬ 2 ¬á
int 0x40
jmp @b ; ¨ ¯à®¢¥à¨¬ ¬ëèì ®¯ïâì
@@:
; ¥á«¨ 㦥 ¡ë«® ®âªàëâ® ¬¥­î, ­ã¦­® ¯®¤®¦¤ âì, ¯®ª  ®­® § ªà®¥âáï:
@@:
cmp [menu_opened],0
je @f
mov eax,5
mov ebx,3 ; ¦¤ñ¬ 3 ¬á
int 0x40
jmp @b
@@:
mov eax,51 ;   ⥯¥àì ¬®¦­® ᬥ«® § ¯ã᪠âì ¯à®æ¥áá (¯®â®ª) ¬¥­î
mov ebx,1 ; ᮧ¤ ñ¬ ¯®â®ª (thread)
mov ecx,start_wnd ; â®çª  ¢å®¤  ¯®â®ª 
mov edx,stack_wnd ; ¢¥à設  áâíª  ¤«ï ¯®â®ª 
int 0x40
jmp still
exit_menu: ; ¥á«¨ ¢ë室¨¬ ¨§ ¬¥­î, ­ ¤® § ¯¨á âì ¢ [menu_opened] 0
mov [menu_opened],0
exit: ; á ¬ë ¨¤ñ¬, ª®£¤  ¢ë室¨¬ ¨§ ®á­®¢­®£® ¯à®æ¥áá 
or eax,-1 ; eax = -1
int 0x40
; §¤¥áì áâ àâã¥â ¯à®æ¥áá ¬¥­î
start_wnd:
mov [menu_opened],1
mov eax,40 ; ãáâ ­®¢¨¬ ¬ áªã ¦¥« ¥¬ëå ᮡë⨩ ¤«ï í⮣® ¯à®æ¥áá 
mov ebx,100101b ; ¬¥­î + ª­®¯ª¨ + ¯¥à¥à¨á®¢ª 
int 0x40
red:
call draw_window
still2: ; £« ¢­ë© 横« ¯à®æ¥áá  ¬¥­î
mov eax,10 ; ¦¤ñ¬ ᮡëâ¨ï
int 0x40
cmp eax,1 ; ¯¥à¥à¨á®¢ª ?
je red
cmp eax,3 ; ª­®¯ª ?
je button
cmp eax,6 ; ¬ëèì?
je mouse
jmp still2 ; ¢¥à­ñ¬áï ¢ ­ ç «® £« ¢­®£® 横« 
; Ž<><C5BD><EFBFBD>ŽˆŠ Œ›˜ˆ
mouse: ; ª®£¤  ¯®«ì§®¢ â¥«ì ­ ¦¬ñâ ª­®¯ªã ¬ëè¨, § ªà®¥¬áï
mov eax,37
mov ebx,2 ; ª ª¨¥ ª­®¯ª¨ ­ ¦ âë?
int 0x40
test eax,eax ; ­¨ª ª¨¥? - ⮣¤  ¯à¥ªà á­®! ¢¥à­ñ¬áï ¢ £« ­ë© 横«
jz still2
jmp exit_menu ;   ¥á«¨ ¢áñ-â ª¨ ­ ¦ âë - § ªà®¥¬ ®ª­®
; <20>€†€€ Š<>Ž<EFBFBD>Š€
button:
mov eax,17 ; ¯®«ãç¨âì ¨¤¥­â¨ä¨ª â®à ­ ¦ â®© ª­®¯ª¨
int 0x40
sub ah,10 ; áà ¢­¨¢ ¥¬ á 10
jl nofuncbtns ; ¥á«¨ ¬¥­ìè¥ - § ªà뢠¥¬ ¬¥­î
movzx ebx,ah ; ¯®«ã稫¨ ­®¬¥à ¯à®£à ¬¬ë ¢ ᯨ᪥ ¢ ebx
mov esi, [startapps + ebx*4]
mov edi, start_info.path
cld
@@:
lodsb
stosb
test al, al
jnz @b
mcall 70, start_info
; mov eax,5 ; ¯®¤®¦¤ñ¬, ¯®ª  ¯à®£à ¬¬  § ¯ãáâ¨âìáï
; mov ebx,1 ;   â® ¥ñ ®ª­® ­¥ ¡ã¤¥â ®âà¨á®¢ ­® (¡ £ ¢ ï¤à¥???)
; int 0x40 ; à áª®¬¬¥­â¨àã©â¥ í⨠áâப¨, ¥á«¨ ã ¢ á ¯à®¡«¥¬ë
; á ®âà¨á®¢ª®©
nofuncbtns: ; § ªà뢠¥¬ ¬¥­î
jmp exit_menu
_BTNS_ = 7 ; ª®«¨ç¥á⢮ ª­®¯®ª ("¯ã­ªâ®¢ ¬¥­î")
if lang eq ru
font = 0x00000000
string_length = 20 ; ¤«¨­  áâப¨
wnd_x_size = 133 ; è¨à¨­  ®ª­ 
header_pos = 36 shl 16 + 7
else
font = 0x10000000
string_length = 12 ; ¤«¨­  áâப¨
wnd_x_size = 105 ; è¨à¨­  ®ª­ 
header_pos = 23 shl 16 + 7
end if
;*******************************
;******** <20>ˆ“…Œ ŽŠ<C5BD>Ž ********
;*******************************
draw_window:
mov eax,12 ; ­ ç¨­ ¥¬ "à¨á®¢ âì"
mov ebx,1
int 0x40
mov eax,[curx1] ; ⥪ã騥 ª®®à¤¨­ âë ªãàá®à 
mov [curx],eax ; § ¯¨è¥¬ ¢ ª®®à¤¨­ âë ®ª­ 
mov eax,[cury1]
mov [cury],eax
; ⥯¥àì ¡ã¤¥¬ áç¨â âì ª®®à¤¨­ âë ®ª­ , çâ®¡ë ®­® §  ªà © íªà ­  ­¥ ¢ë«¥§«®
mov eax,14 ; ¯®«ã稬 à §¬¥à íªà ­ 
int 0x40
mov ebx,eax
shr eax,16 ; ¢ eax - x_screen
and ebx,0xffff ; ¢ ebx - y_screen
add eax,-wnd_x_size ; eax = [x_screen - è¨à¨­  ®ª­ ]
add ebx,-_BTNS_*15-21 ; ebx = [y_screen - ¢ëá®â  ®ª­ ]
cmp eax,[curx]
jg .okx ; ¥á«¨ ®ª­® ᫨誮¬ ¡«¨§ª® ª ¯à ¢®¬ã ªà î,
add [curx],-wnd_x_size ; ᤢ¨­¥¬ ¥£® ¢«¥¢® ­  100
.okx:
cmp ebx, [cury]
jg .oky ; ¯® ¢¥à⨪ «¨ â®ç­® â ª¦¥
add [cury], -_BTNS_*15-21
.oky:
mov eax, 48 ; ¯®«ãç¨âì á¨á⥬­ë¥ 梥â 
mov ebx, 3
mov ecx, sc ;  ¤à¥á áâàãªâãàë
mov edx, sizeof.system_colors ; ¨ ¥¥ à §¬¥à
int 0x40
xor eax, eax ; äã­ªæ¨ï 0 - ᮧ¤ âì ®ª­®
mov ebx, [curx] ; ebx = [ª®®à¤¨­ â  ¯® x] shl 16 + [è¨à¨­ ]
shl ebx, 16
add ebx, wnd_x_size
mov ecx, [cury] ; ecx = [ª®®à¤¨­ â  ¯® y] shl 16 + [¢ëá®â ]
shl ecx, 16
add ecx, _BTNS_*15+21
mov edx, [sc.work] ; 梥â à ¡®ç¥© ®¡« áâ¨
mov esi, [sc.grab] ; 梥⠧ £®«®¢ª 
or esi, 0x81000000
mov edi, [sc.frame] ; 梥â à ¬ª¨
int 0x40
mov eax, 4 ; § £®«®¢®ª
mov ebx, header_pos ; [x] shl 16 + [y]
mov ecx, [sc.grab_text]; èà¨äâ ¨ 梥â (á¥àë©)
or ecx, 0x10000000
; add ecx, -0x333333
push ecx
push ecx
xor edx,edx
.dec_color:
sub byte [esp+edx], 0x33
jae @f
mov byte [esp+edx], 0
@@:
inc edx
jnp .dec_color
pop ecx
mov edx, header ;  ¤à¥á § £®«®¢ª 
mov esi, header.size ; ¤«¨­  § £®«®¢ª  ("M E N U")
int 0x40
pop ecx
add ebx, 1 shl 16 ; ᤢ¨­¥¬ ¢¯à ¢® ­  1
int 0x40
mov ebx, 1*65536+wnd_x_size-2 ; ­ ç¨­ ¥¬ ¤¥« âì ª­®¯ª¨
mov ecx, 20*65536+15
mov edx, 10 or 0x40000000 ; ¡¨â 30 ãáâ ­®¢«¥­ => ª­®¯ª  ­¥ à¨áã¥âáï
mov edi,_BTNS_ ; ª®«¨ç¥á⢮ ª­®¯®ª (áçñâ稪)
newbtn: ; ­ ç «® 横« 
mov eax,8 ; ᮧ¤ ñ¬ ª­®¯ªã
int 0x40
; ¯¨è¥¬ ⥪áâ ­  ª­®¯ª¥
pushad ; ᯠᠥ¬ ॣ¨áâàë
shr ecx, 16
and ebx, 0xffff0000
add ebx, ecx ; ebx = [x] shl 16 + [y];
add ebx, 10*65536+4 ; ebx += ᬥ饭¨¥ ®â­®á¨â¥«ì­® ªà ï ª­®¯ª¨;
mov ecx, [sc.work_text] ; èà¨äâ ¨ 梥â
or ecx, font
add edx, -10 ; edx = ­®¬¥à ª­®¯ª¨;
imul edx, string_length ; edx *= ¤«¨­  áâப¨;
add edx, text ; edx += text; ⥯¥àì ¢ edx  ¤à¥á áâப¨
mov esi, string_length ; ¢ esi - ¤«¨­  áâப¨
mov eax, 4 ; äã­ªæ¨ï 4 - ¢ë¢®¤ ⥪áâ 
int 0x40
popad
inc edx ; ­®¬¥à ª­®¯ª¨++;
add ecx,15*65536 ; 㢥«¨ç¨¬ ᬥ饭¨¥ ¯® y
dec edi ; 㬥­ì訬 áçñâ稪
jnz newbtn ; ¥á«¨ ­¥ ­®«ì, ¯®¢â®à¨¬ ¢áñ ¥éñ à §
mov eax,12 ; § ª®­ç¨«¨ "à¨á®¢ âì"
mov ebx,2
int 0x40
ret ; ¢®§¢à â
; „€<E2809E><E282AC><20><>Žƒ<C5BD>€ŒŒ
DATA
macro strtbl name, [string]
{
common
label name dword
forward
local str
dd str
forward
str db string
}
strtbl startapps ,\
<"/HD0/1/KOLIBRI/BIN/PIC4",0> ,\
<"/HD0/1/KOLIBRI/BIN/SKINSEL",0> ,\
<"/HD0/1/KOLIBRI/BIN/DESKTOP",0> ,\
<"/HD0/1/KOLIBRI/BIN/ICON",0> ,\
<"/HD0/1/KOLIBRI/BIN/SETUP",0> ,\
<"/HD0/1/KOLIBRI/BIN/VRR",0> ,\
<"/HD0/1/KOLIBRI/BIN/CPU",0>
sz header, "KolibriOS"
lsz text,\
en, 'Background ',\
en, 'Change skin ',\
en, 'Desktop ',\
en, 'Icon manager',\
en, 'Device setup',\
en, 'VRR ',\
en, 'Processes ',\
\
ru, 'ƒ¥­¥à â®à ®¡®¥¢ ',\
ru, '‘¬¥­  ᪨­  ',\
ru, '<27> áâனª  ®ª®­ ',\
ru, '“¯à ¢«¥­¨¥ ¨ª®­ª ¬¨ ',\
ru, '<27> áâனª  ãáâனá⢠',\
ru, '<27> áâனª  ¬®­¨â®à  ',\
ru, '<27>à®æ¥ááë '
start_info:
.mode dd 7
dd 0
.params dd 0
dd 0
dd 0
db 0
dd start_info.path
; <20>ˆ<E280A6>ˆˆˆˆ<E280A1>Ž<E2809A><E282AC>… „€<E2809E><E282AC>
UDATA
processes dd ? ; ª®«¨ç¥á⢮ ¯à®æ¥áᮢ ¢ á¨á⥬¥
curx1 dd ? ; ª®®à¤¨­ âë ªãàá®à 
cury1 dd ?
curx dd ? ; ª®®à¤¨­ âë ®ª­  ¬¥­î
cury dd ?
menu_opened db ? ; ®âªàëâ® ¬¥­î ¨«¨ ­¥â? (1-¤ , 0-­¥â)
align 4
start_info.path rb 256
sc system_colors ; á¨á⥬­ë¥ 梥â 
procinfo process_information ; ¨­ä®à¬ æ¨ï ® ¯à®æ¥áá¥
rb 1024 ; áâíª ¤«ï ®ª­  ¬¥­î - 墠â¨â ¨ 1 Š¡
align 32
stack_wnd:
MEOS_APP_END
; ŠŽ<C5A0> <20><>Žƒ<C5BD>€ŒŒ

5
kernel/branches/hd_kolibri/apps/rb/build_en.bat
View File

@ -1,5 +0,0 @@
@erase lang.inc
@echo lang fix en >lang.inc
@fasm @rb.asm @rb
@erase lang.inc
@pause

5
kernel/branches/hd_kolibri/apps/rb/build_ru.bat
View File

@ -1,5 +0,0 @@
@erase lang.inc
@echo lang fix ru >lang.inc
@fasm @rb.asm @rb
@erase lang.inc
@pause

269
kernel/branches/hd_kolibri/apps/rb/macros.inc
View File

@ -1,269 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & ((arg2 eqtype 0) | (arg2 eqtype '0'))
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
dw ? ; +52 - reserved
.client_left dd ? ; +54
.client_top dd ? ; +58
.client_width dd ? ; +62
.client_height dd ? ; +66
.wnd_state db ? ; +70
rb (1024-71)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

BIN
kernel/branches/hd_kolibri/apps/setup/SETUP.DAT
View File

Binary file not shown.

3
kernel/branches/hd_kolibri/apps/setup/build.bat
View File

@ -1,3 +0,0 @@
echo lang fix en > lang.inc
fasm setup.asm setup
pause

269
kernel/branches/hd_kolibri/apps/setup/macros.inc
View File

@ -1,269 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & ((arg2 eqtype 0) | (arg2 eqtype '0'))
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
dw ? ; +52 - reserved
.client_left dd ? ; +54
.client_top dd ? ; +58
.client_width dd ? ; +62
.client_height dd ? ; +66
.wnd_state db ? ; +70
rb (1024-71)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

1804
kernel/branches/hd_kolibri/apps/setup/setup.asm
View File

File diff suppressed because it is too large Load Diff

2
kernel/branches/hd_kolibri/apps/vrr_m/build.bat
View File

@ -1,2 +0,0 @@
fasm vrr_m.asm vrr_m
pause

269
kernel/branches/hd_kolibri/apps/vrr_m/macros.inc
View File

@ -1,269 +0,0 @@
; new application structure
macro meos_app_start
{
use32
org 0x0
db 'MENUET01'
dd 0x01
dd __start
dd __end
dd __memory
dd __stack
if used __params & ~defined __params
dd __params
else
dd 0x0
end if
dd 0x0
}
MEOS_APP_START fix meos_app_start
macro code
{
__start:
}
CODE fix code
macro data
{
__data:
}
DATA fix data
macro udata
{
if used __params & ~defined __params
__params:
db 0
__end:
rb 255
else
__end:
end if
__udata:
}
UDATA fix udata
macro meos_app_end
{
align 32
rb 2048
__stack:
__memory:
}
MEOS_APP_END fix meos_app_end
; macro for defining multiline text data
struc mstr [sstring]
{
forward
local ssize
virtual at 0
db sstring
ssize = $
end virtual
dd ssize
db sstring
common
dd -1
}
; strings
macro sz name,[data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if used name
db data
end if
common
if used name
.size = $-name
end if
}
macro lsz name,[lng,data] { ; from MFAR [mike.dld]
common
if used name
label name
end if
forward
if (used name)&(lang eq lng)
db data
end if
common
if used name
.size = $-name
end if
}
; easy system call macro
macro mpack dest, hsrc, lsrc
{
if (hsrc eqtype 0) & (lsrc eqtype 0)
mov dest, (hsrc) shl 16 + lsrc
else
if (hsrc eqtype 0) & (~lsrc eqtype 0)
mov dest, (hsrc) shl 16
add dest, lsrc
else
mov dest, hsrc
shl dest, 16
add dest, lsrc
end if
end if
}
macro __mov reg,a,b { ; mike.dld
if (~a eq)&(~b eq)
mpack reg,a,b
else if (~a eq)&(b eq)
mov reg,a
end if
}
macro mcall a,b,c,d,e,f { ; mike.dld
__mov eax,a
__mov ebx,b
__mov ecx,c
__mov edx,d
__mov esi,e
__mov edi,f
int 0x40
}
; optimize the code for size
__regs fix <eax,ebx,ecx,edx,esi,edi,ebp,esp>
macro add arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
inc arg1
else
add arg1,arg2
end if
else
add arg1,arg2
end if
}
macro sub arg1,arg2
{
if (arg2 eqtype 0)
if (arg2) = 1
dec arg1
else
sub arg1,arg2
end if
else
sub arg1,arg2
end if
}
macro mov arg1,arg2
{
if (arg1 in __regs) & ((arg2 eqtype 0) | (arg2 eqtype '0'))
if (arg2) = 0
xor arg1,arg1
else if (arg2) = 1
xor arg1,arg1
inc arg1
else if (arg2) = -1
or arg1,-1
else if (arg2) > -128 & (arg2) < 128
push arg2
pop arg1
else
mov arg1,arg2
end if
else
mov arg1,arg2
end if
}
macro struct name
{
virtual at 0
name name
sizeof.#name = $ - name
end virtual
}
; structures used in MeOS
struc process_information
{
.cpu_usage dd ? ; +0
.window_stack_position dw ? ; +4
.window_stack_value dw ? ; +6
.not_used1 dw ? ; +8
.process_name rb 12 ; +10
.memory_start dd ? ; +22
.used_memory dd ? ; +26
.PID dd ? ; +30
.x_start dd ? ; +34
.y_start dd ? ; +38
.x_size dd ? ; +42
.y_size dd ? ; +46
.slot_state dw ? ; +50
dw ? ; +52 - reserved
.client_left dd ? ; +54
.client_top dd ? ; +58
.client_width dd ? ; +62
.client_height dd ? ; +66
.wnd_state db ? ; +70
rb (1024-71)
}
struct process_information
struc system_colors
{
.frame dd ?
.grab dd ?
.grab_button dd ?
.grab_button_text dd ?
.grab_text dd ?
.work dd ?
.work_button dd ?
.work_button_text dd ?
.work_text dd ?
.work_graph dd ?
}
struct system_colors
; constants
; events
EV_IDLE = 0
EV_TIMER = 0
EV_REDRAW = 1
EV_KEY = 2
EV_BUTTON = 3
EV_EXIT = 4
EV_BACKGROUND = 5
EV_MOUSE = 6
EV_IPC = 7
EV_STACK = 8
; event mask bits for function 40
EVM_REDRAW = 1b
EVM_KEY = 10b
EVM_BUTTON = 100b
EVM_EXIT = 1000b
EVM_BACKGROUND = 10000b
EVM_MOUSE = 100000b
EVM_IPC = 1000000b
EVM_STACK = 10000000b

123
kernel/branches/hd_kolibri/apps/vrr_m/vrr_m.asm
View File

@ -1,123 +0,0 @@
;
; <20>ਬ¥à ¯à®£à ¬¬ë ¤«ï MenuetOS
; ®§¢ã稢 ¥â ª®¤ ­ ¦ â®© ª« ¢¨è¨ ;)
;
; Š®¬¯¨«¨à®¢ âì FASM'®¬
;
; ‘¬. â ª¦¥:
; template.asm - ¯à¨¬¥à ¯à®á⥩襩 ¯à®£à ¬¬ë (­®¢ë©!)
; rb.asm - ª®­â¥ªáâ­®¥ ¬¥­î à ¡®ç¥£® á⮫ 
; example2.asm - ¯à¨¬¥à ¬¥­î ¨ ¤®¯®«­¨â¥«ì­ëå ®ª®­
; example3.asm - ¯à¨¬¥à ¬¥­î, ॠ«¨§®¢ ­­®£® ¯®-¤à㣮¬ã
;---------------------------------------------------------------------
use32 ; ¢ª«îç¨âì 32-¡¨â­ë© ०¨¬  áᥬ¡«¥à 
org 0x0 ;  ¤à¥á æ¨ï á ­ã«ï
db 'MENUET01' ; 8-¡ ©â­ë© ¨¤¥­â¨ä¨ª â®à MenuetOS
dd 0x01 ; ¢¥àá¨ï § £®«®¢ª  (¢á¥£¤  1)
dd START ;  ¤à¥á ¯¥à¢®© ª®¬ ­¤ë
dd I_END ; à §¬¥à ¯à®£à ¬¬ë
dd 0x1000 ; ª®«¨ç¥á⢮ ¯ ¬ïâ¨
dd 0x1000 ;  ¤à¥á ¢¥à設ë áâíª 
dd 0x0 ;  ¤à¥á ¡ãä¥à  ¤«ï ¯ à ¬¥â஢ (­¥ ¨á¯®«ì§ã¥âáï)
dd 0x0 ; § à¥§¥à¢¨à®¢ ­®
include 'MACROS.INC' ; ¬ ªà®áë ®¡«¥£ç îâ ¦¨§­ì  áᥬ¡«¥à騪®¢!
;---------------------------------------------------------------------
;--- <20>€—€Ž <20><>Žƒ<C5BD>€ŒŒ ----------------------------------------------
;---------------------------------------------------------------------
START:
; mcall 5,10
mov ecx, 1
mov edx, drvinfo
push @f
jmp call_driver
@@:
; jmp run_launcher
mov ecx, 2
push @f
call_driver:
mcall 21,13
ret
@@:
; cmp eax,-1
inc eax
je run_launcher
; cmp ecx,280
; je change_vrr
; cmp ecx,277
; je change_vrr
; cmp ecx,6
; je change_vrr
; cmp ecx,7
; je change_vrr
; jmp run_launcher
change_vrr:
; mov ax,cx
; dec cx
; shl cx,1
; xor edx,edx
; mov dx,[vidmode+ecx]
; mov ebx,ecx
; shl ebx,2
; add ebx,ecx ; ebx=ebx*5
; shr ax,8
; dec ax
; shl ax,1
; add ebx,eax
; ror edx,16
; mov dx,[_m1+ebx]
; rol edx,16
;mov eax,ecx
mov eax, 10
cmp cx,277+3
je yes_277
cmp cx,274+3
jne yes_280
yes_274:
add al,10
yes_277:
add al,10
yes_280:
mov edx, [_m1+eax-2]
lea dx, [ecx-3]
push run_launcher
mov ecx, 3
jmp call_driver
run_launcher:
mcall 70,launcher
mcall -1
launcher:
dd 7
dd 0
dd 0
dd 0
dd 0
db 0
prog: dd autorun_prog
autorun_prog db '/hd0/1/kolibri/bin/launcher',0
I_END: ; ¬¥âª  ª®­æ  ¯à®£à ¬¬ë
db ? ; system loader will zero all memory after program end
; this byte will be terminating zero for launcher string
; \begin{Serge}
; A you really believe it?
; Áëàæåí, êòî âåðóåò, òåïëî åìó íà ñâåòå!
; \end{Serge}
drvinfo: ; 512 bytes driver info area
; +0 - Full driver name
; +32 - Driver version
; +64 - Word List of support video modes (max 32 positions)
; +128 - 5 words list of support vertical rate to each present mode
org $+32
drvver:
org $+32
vidmode:
org $+64
_m1:
org drvinfo+200h

554
kernel/branches/hd_kolibri/kernel/blkdev/cd_drv.inc
View File

@ -1,554 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;**********************************************************
; Непосредственная работа с устройством СD (ATAPI)
;**********************************************************
; Автор исходного текста Кулаков Владимир Геннадьевич.
; Адаптация и доработка Mario79
; Процедура для полного считывания всех
; данных из сектора компакт-диска
; Автор текста программы Кулаков Владимир Геннадьевич.
; Максимальное количество повторений операции чтения
MaxRetr equ 3
; Предельное время ожидания готовности к приему команды
; (в тиках)
BSYWaitTime equ 1000 ;2
;*************************************************
;* ПОЛНОЕ ЧТЕНИЕ СЕКТОРА КОМПАКТ-ДИСКА *
;* Считываются данные пользователя, информация *
;* субканала и контрольная информация *
;* Входные параметры передаются через глобальные *
;* перменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале; *
;* CDSectorAddress - адрес считываемого сектора. *
;* Данные считывается в массив CDDataBuf. *
;*************************************************
ReadCD:
pusha
; Задать размер сектора
mov [CDBlockSize],2048 ;2352
; Очистить буфер пакетной команды
call clear_packet_buffer
; Сформировать пакетную команду для считывания
; сектора данных
; Задать код команды Read CD
mov [PacketCommand],byte 0x28 ;0xBE
; Задать адрес сектора
mov AX,word [CDSectorAddress+2]
xchg AL,AH
mov word [PacketCommand+2],AX
mov AX,word [CDSectorAddress]
xchg AL,AH
mov word [PacketCommand+4],AX
; mov eax,[CDSectorAddress]
; mov [PacketCommand+2],eax
; Задать количество считываемых секторов
mov [PacketCommand+8],byte 1
; Задать считывание данных в полном объеме
; mov [PacketCommand+9],byte 0xF8
; Подать команду
call SendPacketDatCommand
; call test_mario79
popa
ret
;********************************************
;* ЧТЕНИЕ СЕКТОРА С ПОВТОРАМИ *
;* Многократное повторение чтения при сбоях *
;********************************************
ReadCDWRetr:
pusha
; Цикл, пока команда не выполнена успешно или не
; исчерпано количество попыток
mov ECX,MaxRetr
@@NextRetr:
; Подать команду
call ReadCD
cmp [DevErrorCode],0
je @@End_4
; Задержка на 2,5 секунды
mov EAX,[timer_ticks]
add EAX,250 ;50
@@Wait:
call change_task
cmp EAX,[timer_ticks]
ja @@Wait
loop @@NextRetr
; call test_mario79
; Сообщение об ошибке
; mov SI,offset ErrS
; call FatalError
@@End_4:
popa
ret
; Универсальные процедуры, обеспечивающие выполнение
; пакетных команд в режиме PIO
;
; Автор текста программы Кулаков Владимир Геннадьевич.
; Максимально допустимое время ожидания реакции
; устройства на пакетную команду (в тиках)
MaxCDWaitTime equ 1000 ;200 ;10 секунд
; Область памяти для формирования пакетной команды
PacketCommand: rb 12 ;DB 12 DUP (?)
; Область памяти для приема данных от дисковода
;CDDataBuf DB 4096 DUP (0)
; Размер принимаемого блока данных в байтах
CDBlockSize DW ?
; Адрес считываемого сектора данных
CDSectorAddress: DD ?
; Время начала очередной операции с диском
TickCounter_1 DD 0
; Время начала ожидания готовности устройства
WURStartTime DD 0
; указатель буфера для считывания
CDDataBuf_pointer dd 0
;****************************************************
;* ПОСЛАТЬ УСТРОЙСТВУ ATAPI ПАКЕТНУЮ КОМАНДУ, *
;* ПРЕДУСМАТРИВАЮЩУЮ ПЕРЕДАЧУ ОДНОГО СЕКТОРА ДАННЫХ *
;* РАЗМЕРОМ 2048 БАЙТ ОТ УСТРОЙСТВА К ХОСТУ *
;* Входные параметры передаются через глобальные *
;* перменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале; *
;* PacketCommand - 12-байтный командный пакет; *
;* CDBlockSize - размер принимаемого блока данных. *
;****************************************************
SendPacketDatCommand:
pushad
; Задать режим CHS
mov [ATAAddressMode],0
; Послать ATA-команду передачи пакетной команды
mov [ATAFeatures],0
mov [ATASectorCount],0
mov [ATASectorNumber],0
; Загрузить размер передаваемого блока
mov AX,[CDBlockSize]
mov [ATACylinder],AX
mov [ATAHead],0
mov [ATACommand],0A0h
call SendCommandToHDD_1
; call test_mario79
cmp [DevErrorCode],0 ;проверить код ошибки
jne @@End_8 ;закончить, сохранив код ошибки
; Ожидание готовности дисковода к приему
; пакетной команды
mov DX,[ATABasePortAddr]
add DX,7 ;порт 1х7h
@@WaitDevice0:
call change_task
; Проверить время выполнения команды
mov EAX,[timer_ticks]
sub EAX,[TickCounter_1]
cmp EAX,BSYWaitTime
ja @@Err1_1 ;ошибка тайм-аута
; Проверить готовность
in AL,DX
test AL,80h ;состояние сигнала BSY
jnz @@WaitDevice0
test AL,1 ;состояние сигнала ERR
jnz @@Err6
test AL,08h ;состояние сигнала DRQ
jz @@WaitDevice0
; Послать пакетную команду
cli
mov DX,[ATABasePortAddr]
mov AX,[PacketCommand]
out DX,AX
mov AX,[PacketCommand+2]
out DX,AX
mov AX,[PacketCommand+4]
out DX,AX
mov AX,[PacketCommand+6]
out DX,AX
mov AX,[PacketCommand+8]
out DX,AX
mov AX,[PacketCommand+10]
out DX,AX
sti
; Ожидание готовности данных
mov DX,[ATABasePortAddr]
add DX,7 ;порт 1х7h
@@WaitDevice1:
call change_task
; Проверить время выполнения команды
mov EAX,[timer_ticks]
sub EAX,[TickCounter_1]
cmp EAX,MaxCDWaitTime
ja @@Err1_1 ;ошибка тайм-аута
; Проверить готовность
in AL,DX
test AL,80h ;состояние сигнала BSY
jnz @@WaitDevice1
test AL,1 ;состояние сигнала ERR
jnz @@Err6_temp
test AL,08h ;состояние сигнала DRQ
jz @@WaitDevice1
cli
; Принять блок данных от контроллера
mov EDI,[CDDataBuf_pointer] ;0x7000 ;CDDataBuf
; Загрузить адрес регистра данных контроллера
mov DX,[ATABasePortAddr] ;порт 1x0h
; Загрузить в счетчик размер блока в байтах
mov CX,[CDBlockSize]
; Вычислить размер блока в 16-разрядных словах
shr CX,1 ;разделить размер блока на 2
; Принять блок данных
cld
rep insw
sti
; Успешное завершение приема данных
jmp @@End_8
; Записать код ошибки
@@Err1_1:
mov [DevErrorCode],1
jmp @@End_8
@@Err6_temp:
mov [DevErrorCode],7
jmp @@End_8
@@Err6:
mov [DevErrorCode],6
@@End_8:
popad
ret
;***********************************************
;* ПОСЛАТЬ УСТРОЙСТВУ ATAPI ПАКЕТНУЮ КОМАНДУ, *
;* НЕ ПРЕДУСМАТРИВАЮЩУЮ ПЕРЕДАЧИ ДАННЫХ *
;* Входные параметры передаются через *
;* глобальные перменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале; *
;* PacketCommand - 12-байтный командный пакет. *
;***********************************************
SendPacketNoDatCommand:
pushad
; Задать режим CHS
mov [ATAAddressMode],0
; Послать ATA-команду передачи пакетной команды
mov [ATAFeatures],0
mov [ATASectorCount],0
mov [ATASectorNumber],0
mov [ATACylinder],0
mov [ATAHead],0
mov [ATACommand],0A0h
call SendCommandToHDD_1
cmp [DevErrorCode],0 ;проверить код ошибки
jne @@End_9 ;закончить, сохранив код ошибки
; Ожидание готовности дисковода к приему
; пакетной команды
mov DX,[ATABasePortAddr]
add DX,7 ;порт 1х7h
@@WaitDevice0_1:
call change_task
; Проверить время ожидания
mov EAX,[timer_ticks]
sub EAX,[TickCounter_1]
cmp EAX,BSYWaitTime
ja @@Err1_3 ;ошибка тайм-аута
; Проверить готовность
in AL,DX
test AL,80h ;состояние сигнала BSY
jnz @@WaitDevice0_1
test AL,1 ;состояние сигнала ERR
jnz @@Err6_1
test AL,08h ;состояние сигнала DRQ
jz @@WaitDevice0_1
; Послать пакетную команду
; cli
mov DX,[ATABasePortAddr]
mov AX,word [PacketCommand]
out DX,AX
mov AX,word [PacketCommand+2]
out DX,AX
mov AX,word [PacketCommand+4]
out DX,AX
mov AX,word [PacketCommand+6]
out DX,AX
mov AX,word [PacketCommand+8]
out DX,AX
mov AX,word [PacketCommand+10]
out DX,AX
; sti
; Ожидание подтверждения приема команды
mov DX,[ATABasePortAddr]
add DX,7 ;порт 1х7h
@@WaitDevice1_1:
call change_task
; Проверить время выполнения команды
mov EAX,[timer_ticks]
sub EAX,[TickCounter_1]
cmp EAX,MaxCDWaitTime
ja @@Err1_3 ;ошибка тайм-аута
; Ожидать освобождения устройства
in AL,DX
test AL,80h ;состояние сигнала BSY
jnz @@WaitDevice1_1
test AL,1 ;состояние сигнала ERR
jnz @@Err6_1
test AL,40h ;состояние сигнала DRDY
jz @@WaitDevice1_1
jmp @@End_9
; Записать код ошибки
@@Err1_3:
mov [DevErrorCode],1
jmp @@End_9
@@Err6_1:
mov [DevErrorCode],6
@@End_9:
popad
ret
;****************************************************
;* ПОСЛАТЬ КОМАНДУ ЗАДАННОМУ ДИСКУ *
;* Входные параметры передаются через глобальные *
;* переменные: *
;* ChannelNumber - номер канала (1 или 2); *
;* DiskNumber - номер диска (0 или 1); *
;* ATAFeatures - "особенности"; *
;* ATASectorCount - количество секторов; *
;* ATASectorNumber - номер начального сектора; *
;* ATACylinder - номер начального цилиндра; *
;* ATAHead - номер начальной головки; *
;* ATAAddressMode - режим адресации (0-CHS, 1-LBA); *
;* ATACommand - код команды. *
;* После успешного выполнения функции: *
;* в ATABasePortAddr - базовый адрес HDD; *
;* в DevErrorCode - ноль. *
;* При возникновении ошибки в DevErrorCode будет *
;* возвращен код ошибки. *
;****************************************************
SendCommandToHDD_1:
pushad
; Проверить значение кода режима
cmp [ATAAddressMode],1
ja @@Err2_4
; Проверить корректность номера канала
mov BX,[ChannelNumber]
cmp BX,1
jb @@Err3_4
cmp BX,2
ja @@Err3_4
; Установить базовый адрес
dec BX
shl BX,1
movzx ebx,bx
mov AX,[ebx+StandardATABases]
mov [ATABasePortAddr],AX
; Ожидание готовности HDD к приему команды
; Выбрать нужный диск
mov DX,[ATABasePortAddr]
add DX,6 ;адрес регистра головок
mov AL,[DiskNumber]
cmp AL,1 ;проверить номера диска
ja @@Err4_4
shl AL,4
or AL,10100000b
out DX,AL
; Ожидать, пока диск не будет готов
inc DX
; mov ecx,0xfff
mov eax,[timer_ticks]
mov [TickCounter_1],eax
@@WaitHDReady_2:
call change_task
; Проверить время ожидания
; dec ecx
; cmp ecx,0
; je @@Err1
mov eax,[timer_ticks]
sub eax,[TickCounter_1]
cmp eax,BSYWaitTime ;300 ;ожидать 3 сек.
ja @@Err1_4 ;ошибка тайм-аута
; Прочитать регистр состояния
in AL,DX
; Проверить состояние сигнала BSY
test AL,80h
jnz @@WaitHDReady_2
; Проверить состояние сигнала DRQ
test AL,08h
jnz @@WaitHDReady_2
; Загрузить команду в регистры контроллера
cli
mov DX,[ATABasePortAddr]
inc DX ;регистр "особенностей"
mov AL,[ATAFeatures]
out DX,AL
inc DX ;счетчик секторов
mov AL,[ATASectorCount]
out DX,AL
inc DX ;регистр номера сектора
mov AL,[ATASectorNumber]
out DX,AL
inc DX ;номер цилиндра (младший байт)
mov AX,[ATACylinder]
out DX,AL
inc DX ;номер цилиндра (старший байт)
mov AL,AH
out DX,AL
inc DX ;номер головки/номер диска
mov AL,[DiskNumber]
shl AL,4
cmp [ATAHead],0Fh ;проверить номер головки
ja @@Err5_4
or AL,[ATAHead]
or AL,10100000b
mov AH,[ATAAddressMode]
shl AH,6
or AL,AH
out DX,AL
; Послать команду
mov AL,[ATACommand]
inc DX ;регистр команд
out DX,AL
sti
; Сбросить признак ошибки
mov [DevErrorCode],0
jmp @@End_10
; Записать код ошибки
@@Err1_4:
mov [DevErrorCode],1
jmp @@End_10
@@Err2_4:
mov [DevErrorCode],2
jmp @@End_10
@@Err3_4:
mov [DevErrorCode],3
jmp @@End_10
@@Err4_4:
mov [DevErrorCode],4
jmp @@End_10
@@Err5_4:
mov [DevErrorCode],5
; Завершение работы программы
@@End_10:
sti
popad
ret
;*************************************************
;* ОЖИДАНИЕ ГОТОВНОСТИ УСТРОЙСТВА К РАБОТЕ *
;* Входные параметры передаются через глобальные *
;* перменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале. *
;*************************************************
WaitUnitReady:
pusha
; Запомнить время начала операции
mov EAX,[timer_ticks]
mov [WURStartTime],EAX
; Очистить буфер пакетной команды
call clear_packet_buffer
; Сформировать команду TEST UNIT READY
mov [PacketCommand],word 00h
; ЦИКЛ ОЖИДАНИЯ ГОТОВНОСТИ УСТРОЙСТВА
@@SendCommand:
; Подать команду проверки готовности
call SendPacketNoDatCommand
call change_task
; Проверить код ошибки
cmp [DevErrorCode],0
je @@End_11
; Проверить время ожидания готовности
mov EAX,[timer_ticks]
sub EAX,[WURStartTime]
cmp EAX,MaxCDWaitTime
jb @@SendCommand
; Ошибка тайм-аута
mov [DevErrorCode],1
@@End_11:
popa
ret
;*************************************************
;* ЗАГРУЗИТЬ НОСИТЕЛЬ В ДИСКОВОД *
;* Входные параметры передаются через глобальные *
;* перменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале. *
;*************************************************
LoadMedium:
pusha
; Очистить буфер пакетной команды
call clear_packet_buffer
; Сформировать команду START/STOP UNIT
; Задать код команды
mov [PacketCommand],word 1Bh
; Задать операцию загрузки носителя
mov [PacketCommand+4],word 00000011b
; Подать команду
call SendPacketNoDatCommand
popa
ret
;*************************************************
;* ИЗВЛЕЧЬ НОСИТЕЛЬ ИЗ ДИСКОВОДА *
;* Входные параметры передаются через глобальные *
;* перменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале. *
;*************************************************
UnloadMedium:
pusha
; Очистить буфер пакетной команды
call clear_packet_buffer
; Сформировать команду START/STOP UNIT
; Задать код команды
mov [PacketCommand],word 1Bh
; Задать операцию извлечения носителя
mov [PacketCommand+4],word 00000010b
; Подать команду
call SendPacketNoDatCommand
popa
ret
;*************************************************
;* ОПРЕДЕЛИТЬ ОБЩЕЕ КОЛИЧЕСТВО СЕКТОРОВ НА ДИСКЕ *
;* Входные параметры передаются через глобальные *
;* переменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале. *
;*************************************************
ReadCapacity:
pusha
; Очистить буфер пакетной команды
call clear_packet_buffer
; Задать размер буфера в байтах
mov [CDBlockSize],8
; Сформировать команду READ CAPACITY
mov [PacketCommand],word 25h
; Подать команду
call SendPacketDatCommand
popa
ret
clear_packet_buffer:
; Очистить буфер пакетной команды
mov [PacketCommand],dword 0
mov [PacketCommand+4],dword 0
mov [PacketCommand+8],dword 0
ret

269
kernel/branches/hd_kolibri/kernel/blkdev/cdrom.inc
View File

@ -1,269 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Copyright (C) MenuetOS 2000-2004 Ville Mikael Turjanmaa ;;
;; Distributed under terms of the GNU General Public License ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
sys_cd_audio:
cmp word [cdbase],word 0
jnz @f
mov eax,1
ret
@@:
; eax=1 cdplay at ebx 0x00FFSSMM
; eax=2 get tracklist size of ecx to [ebx]
; eax=3 stop/pause playing
cmp eax,1
jnz nocdp
call sys_cdplay
ret
nocdp:
cmp eax,2
jnz nocdtl
mov edi,[TASK_BASE]
add edi,TASKDATA.mem_start
add ebx,[edi]
call sys_cdtracklist
ret
nocdtl:
cmp eax,3
jnz nocdpause
call sys_cdpause
ret
nocdpause:
mov eax,0xffffff01
ret
sys_cd_atapi_command:
pushad
mov dx,word [cdbase]
add dx,6
mov ax,word [cdid]
out dx,al
mov esi,10
call delay_ms
mov dx,word [cdbase]
add dx,7
in al,dx
and al,0x80
cmp al,0
jnz res
jmp cdl6
res:
mov dx,word [cdbase]
add dx,7
mov al,0x8
out dx,al
mov dx,word [cdbase]
add dx,0x206
mov al,0xe
out dx,al
mov esi,1
call delay_ms
mov dx,word [cdbase]
add dx,0x206
mov al,0x8
out dx,al
mov esi,30
call delay_ms
xor cx,cx
cdl5:
inc cx
cmp cx,10
jz cdl6
mov dx,word [cdbase]
add dx,7
in al,dx
and al,0x88
cmp al,0x00
jz cdl5
mov esi,100
call delay_ms
jmp cdl5
cdl6:
mov dx,word [cdbase]
add dx,4
mov al,0
out dx,al
mov dx,word [cdbase]
add dx,5
mov al,0
out dx,al
mov dx,word [cdbase]
add dx,7
mov al,0xec
out dx,al
mov esi,5
call delay_ms
mov dx,word [cdbase]
add dx,1
mov al,0
out dx,al
add dx,1
mov al,0
out dx,al
add dx,1
mov al,0
out dx,al
add dx,1
mov al,0
out dx,al
add dx,1
mov al,128
out dx,al
add dx,2
mov al,0xa0
out dx,al
xor cx,cx
mov dx,word [cdbase]
add dx,7
cdl1:
inc cx
cmp cx,100
jz cdl2
in al,dx
and ax,0x88
cmp al,0x8
jz cdl2
mov esi,2
call delay_ms
jmp cdl1
cdl2:
popad
ret
sys_cdplay:
mov ax,5
push ax
push ebx
cdplay:
call sys_cd_atapi_command
cli
mov dx,word [cdbase]
mov ax,0x0047
out dx,ax
mov al,1
mov ah,[esp+0] ; min xx
out dx,ax
mov ax,[esp+1] ; fr sec
out dx,ax
mov ax,256+99
out dx,ax
mov ax,0x0001
out dx,ax
mov ax,0x0000
out dx,ax
mov esi,10
call delay_ms
sti
add dx,7
in al,dx
test al,1
jz cdplayok
mov ax,[esp+4]
dec ax
mov [esp+4],ax
cmp ax,0
jz cdplayfail
jmp cdplay
cdplayfail:
cdplayok:
pop ebx
pop ax
xor eax, eax
ret
sys_cdtracklist:
push ebx
tcdplay:
call sys_cd_atapi_command
mov dx,word [cdbase]
mov ax,0x43+2*256
out dx,ax
mov ax,0x0
out dx,ax
mov ax,0x0
out dx,ax
mov ax,0x0
out dx,ax
mov ax,200
out dx,ax
mov ax,0x0
out dx,ax
in al,dx
mov cx,1000
mov dx,word [cdbase]
add dx,7
cld
cdtrnwewait:
mov esi,10
call delay_ms
in al,dx
and al,128
cmp al,0
jz cdtrl1
loop cdtrnwewait
cdtrl1:
; read the result
mov ecx,[esp+0]
mov dx,word [cdbase]
cdtrread:
add dx,7
in al,dx
and al,8
cmp al,8
jnz cdtrdone
sub dx,7
in ax,dx
mov [ecx],ax
add ecx,2
jmp cdtrread
cdtrdone:
pop ecx
xor eax, eax
ret
sys_cdpause:
call sys_cd_atapi_command
mov dx,word [cdbase]
mov ax,0x004B
out dx,ax
mov ax,0
out dx,ax
mov ax,0
out dx,ax
mov ax,0
out dx,ax
mov ax,0
out dx,ax
mov ax,0
out dx,ax
mov esi,10
call delay_ms
add dx,7
in al,dx
xor eax, eax
ret

82
kernel/branches/hd_kolibri/kernel/blkdev/fdc.inc
View File

@ -1,82 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Copyright (C) MenuetOS 2000-2004 Ville Mikael Turjanmaa ;;
;; Distributed under terms of the GNU General Public License ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
iglobal
;function pointers.
fdc_irq_func dd fdc_null
endg
uglobal
dmasize db 0x0
dmamode db 0x0
endg
fdc_init: ;start with clean tracks.
mov edi,OS_BASE+0xD201
mov al,0
mov ecx,160
rep stosb
ret
fdc_filesave: ;ebx: cluster to be saved.
pusha ;returns immediately. does not trigger a write.
mov eax,ebx
add eax,31
mov bl,18
div bl
mov ah,0
add eax,OS_BASE+0xD201
mov [eax],byte 1 ;This track is now dirty.
popa
ret
fdc_irq:
call [fdc_irq_func]
fdc_null:
ret
save_image:
call reserve_flp
call restorefatchain
pusha
call check_label
cmp [FDC_Status],0
jne unnecessary_save_image
mov [FDD_Track],0 ; Öèëèíäð
mov [FDD_Head],0 ; Ñòîðîíà
mov [FDD_Sector],1 ; Ñåêòîð
mov esi,RAMDISK
call SeekTrack
save_image_1:
push esi
call take_data_from_application_1
pop esi
add esi,512
call WriteSectWithRetr
; call WriteSector
cmp [FDC_Status],0
jne unnecessary_save_image
inc [FDD_Sector]
cmp [FDD_Sector],19
jne save_image_1
mov [FDD_Sector],1
inc [FDD_Head]
cmp [FDD_Head],2
jne save_image_1
mov [FDD_Head],0
inc [FDD_Track]
call SeekTrack
cmp [FDD_Track],80
jne save_image_1
unnecessary_save_image:
mov [fdc_irq_func],fdc_null
popa
mov [flp_status],0
ret

623
kernel/branches/hd_kolibri/kernel/blkdev/flp_drv.inc
View File

@ -1,623 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;**********************************************************
; Непосредственная работа с контроллером гибкого диска
;**********************************************************
; Автор исходного текста Кулаков Владимир Геннадьевич.
; Адаптация и доработка Mario79
give_back_application_data: ; переслать приложению
mov edi,[TASK_BASE]
mov edi,[edi+TASKDATA.mem_start]
add edi,ecx
give_back_application_data_1:
mov esi,FDD_BUFF ;FDD_DataBuffer ;0x40000
xor ecx,ecx
mov cx,128
cld
rep movsd
ret
take_data_from_application: ; взять из приложени
mov esi,[TASK_BASE]
mov esi,[esi+TASKDATA.mem_start]
add esi,ecx
take_data_from_application_1:
mov edi,FDD_BUFF ;FDD_DataBuffer ;0x40000
xor ecx,ecx
mov cx,128
cld
rep movsd
ret
; Коды завершения операции с контроллером (FDC_Status)
FDC_Normal equ 0 ;нормальное завершение
FDC_TimeOut equ 1 ;ошибка тайм-аута
FDC_DiskNotFound equ 2 ;в дисководе нет диска
FDC_TrackNotFound equ 3 ;дорожка не найдена
FDC_SectorNotFound equ 4 ;сектор не найден
; Максимальные значения координат сектора (заданные
; значения соответствуют параметрам стандартного
; трехдюймового гибкого диска объемом 1,44 Мб)
MAX_Track equ 79
MAX_Head equ 1
MAX_Sector equ 18
uglobal
; Счетчик тиков таймера
TickCounter dd ?
; Код завершения операции с контроллером НГМД
FDC_Status DB ?
; Флаг прерывания от НГМД
FDD_IntFlag DB ?
; Момент начала последней операции с НГМД
FDD_Time DD ?
; Номер дисковода
FDD_Type db 0
; Координаты сектора
FDD_Track DB ?
FDD_Head DB ?
FDD_Sector DB ?
; Блок результата операции
FDC_ST0 DB ?
FDC_ST1 DB ?
FDC_ST2 DB ?
FDC_C DB ?
FDC_H DB ?
FDC_R DB ?
FDC_N DB ?
; Счетчик повторения операции чтени
ReadRepCounter DB ?
; Счетчик повторения операции рекалибровки
RecalRepCounter DB ?
endg
; Область памяти для хранения прочитанного сектора
;FDD_DataBuffer: times 512 db 0 ;DB 512 DUP (?)
fdd_motor_status db 0
timer_fdd_motor dd 0
;*************************************
;* ИНИЦИАЛИЗАЦИЯ РЕЖИМА ПДП ДЛЯ НГМД *
;*************************************
Init_FDC_DMA:
pushad
mov al,0
out 0x0c,al ; reset the flip-flop to a known state.
mov al,6 ; mask channel 2 so we can reprogram it.
out 0x0a,al
mov al,[dmamode] ; 0x46 -> Read from floppy - 0x4A Write to floppy
out 0x0b,al
mov al,0
out 0x0c,al ; reset the flip-flop to a known state.
mov eax,0xD000
out 0x04,al ; set the channel 2 starting address to 0
shr eax,8
out 0x04,al
shr eax,8
out 0x81,al
mov al,0
out 0x0c, al ; reset flip-flop
mov al, 0xff ;set count (actual size -1)
out 0x5, al
mov al,0x1 ;[dmasize] ;(0x1ff = 511 / 0x23ff =9215)
out 0x5,al
mov al,2
out 0xa,al
popad
ret
;***********************************
;* ЗАПИСАТЬ БАЙТ В ПОРТ ДАННЫХ FDC *
;* Параметры: *
;* AL - выводимый байт. *
;***********************************
FDCDataOutput:
; pusha
push eax ecx edx
mov AH,AL ;запомнить байт в AH
; Сбросить переменную состояния контроллера
mov [FDC_Status],FDC_Normal
; Проверить готовность контроллера к приему данных
mov DX,3F4h ;(порт состояния FDC)
mov ecx, 0x10000 ;установить счетчик тайм-аута
@@TestRS:
in AL,DX ;прочитать регистр RS
and AL,0C0h ;выделить разряды 6 и 7
cmp AL,80h ;проверить разряды 6 и 7
je @@OutByteToFDC
loop @@TestRS
; Ошибка тайм-аута
mov [FDC_Status],FDC_TimeOut
jmp @@End_5
; Вывести байт в порт данных
@@OutByteToFDC:
inc DX
mov AL,AH
out DX,AL
@@End_5:
; popa
pop edx ecx eax
ret
;******************************************
;* ПРОЧИТАТЬ БАЙТ ИЗ ПОРТА ДАННЫХ FDC *
;* Процедура не имеет входных параметров. *
;* Выходные данные: *
;* AL - считанный байт. *
;******************************************
FDCDataInput:
push ECX
push DX
; Сбросить переменную состояния контроллера
mov [FDC_Status],FDC_Normal
; Проверить готовность контроллера к передаче данных
mov DX,3F4h ;(порт состояния FDC)
xor CX,CX ;установить счетчик тайм-аута
@@TestRS_1:
in AL,DX ;прочитать регистр RS
and AL,0C0h ;выдлить разряды 6 и 7
cmp AL,0C0h ;проверить разряды 6 и 7
je @@GetByteFromFDC
loop @@TestRS_1
; Ошибка тайм-аута
mov [FDC_Status],FDC_TimeOut
jmp @@End_6
; Ввести байт из порта данных
@@GetByteFromFDC:
inc DX
in AL,DX
@@End_6: pop DX
pop ECX
ret
;*********************************************
;* ОБРАБОТЧИК ПРЕРЫВАНИЯ ОТ КОНТРОЛЛЕРА НГМД *
;*********************************************
FDCInterrupt:
; Установить флаг прерывани
mov [FDD_IntFlag],1
ret
;******************************************
;* УСТАНОВИТЬ НОВЫЙ ОБРАБОТЧИК ПРЕРЫВАНИЙ *
;* НГМД *
;******************************************
SetUserInterrupts:
mov [fdc_irq_func],FDCInterrupt
ret
;*******************************************
;* ОЖИДАНИЕ ПРЕРЫВАНИЯ ОТ КОНТРОЛЛЕРА НГМД *
;*******************************************
WaitFDCInterrupt:
pusha
; Сбросить байт состояния операции
mov [FDC_Status],FDC_Normal
; Сбросить флаг прерывани
mov [FDD_IntFlag],0
; Обнулить счетчик тиков
mov eax,[timer_ticks]
mov [TickCounter],eax
; Ожидать установки флага прерывания НГМД
@@TestRS_2:
cmp [FDD_IntFlag],0
jnz @@End_7 ;прерывание произошло
call change_task
mov eax,[timer_ticks]
sub eax,[TickCounter]
cmp eax,50 ;25 ;5 ;ожидать 5 тиков
jb @@TestRS_2
; jl @@TestRS_2
; Ошибка тайм-аута
mov [FDC_Status],FDC_TimeOut
; mov [flp_status],0
@@End_7: popa
ret
;*********************************
;* ВКЛЮЧИТЬ МОТОР ДИСКОВОДА "A:" *
;*********************************
FDDMotorON:
pusha
; cmp [fdd_motor_status],1
; je fdd_motor_on
mov al,[flp_number]
cmp [fdd_motor_status],al
je fdd_motor_on
; Произвести сброс контроллера НГМД
mov DX,3F2h ;порт управления двигателями
mov AL,0
out DX,AL
; Выбрать и включить мотор дисковода
cmp [flp_number],1
jne FDDMotorON_B
; call FDDMotorOFF_B
mov AL,1Ch ; Floppy A
jmp FDDMotorON_1
FDDMotorON_B:
; call FDDMotorOFF_A
mov AL,2Dh ; Floppy B
FDDMotorON_1:
out DX,AL
; Обнулить счетчик тиков
mov eax,[timer_ticks]
mov [TickCounter],eax
; Ожидать 0,5 с
@@dT:
call change_task
mov eax,[timer_ticks]
sub eax,[TickCounter]
cmp eax,50 ;10
jb @@dT
cmp [flp_number],1
jne fdd_motor_on_B
mov [fdd_motor_status],1
jmp fdd_motor_on
fdd_motor_on_B:
mov [fdd_motor_status],2
fdd_motor_on:
call save_timer_fdd_motor
popa
ret
;*****************************************
;* СОХРАНЕНИЕ УКАЗАТЕЛЯ ВРЕМЕНИ *
;*****************************************
save_timer_fdd_motor:
mov eax,[timer_ticks]
mov [timer_fdd_motor],eax
ret
;*****************************************
;* ПРОВЕРКА ЗАДЕРЖКИ ВЫКЛЮЧЕНИЯ МОТОРА *
;*****************************************
check_fdd_motor_status:
cmp [fdd_motor_status],0
je end_check_fdd_motor_status_1
mov eax,[timer_ticks]
sub eax,[timer_fdd_motor]
cmp eax,500
jb end_check_fdd_motor_status
call FDDMotorOFF
mov [fdd_motor_status],0
end_check_fdd_motor_status_1:
mov [flp_status],0
end_check_fdd_motor_status:
ret
;**********************************
;* ВЫКЛЮЧИТЬ МОТОР ДИСКОВОДА *
;**********************************
FDDMotorOFF:
push AX
push DX
cmp [flp_number],1
jne FDDMotorOFF_1
call FDDMotorOFF_A
jmp FDDMotorOFF_2
FDDMotorOFF_1:
call FDDMotorOFF_B
FDDMotorOFF_2:
pop DX
pop AX
; сброс флагов кеширования в связи с устареванием информации
mov [root_read],0
mov [flp_fat],0
ret
FDDMotorOFF_A:
mov DX,3F2h ;порт управления двигателями
mov AL,0Ch ; Floppy A
out DX,AL
ret
FDDMotorOFF_B:
mov DX,3F2h ;порт управления двигателями
mov AL,5h ; Floppy B
out DX,AL
ret
;*******************************
;* РЕКАЛИБРОВКА ДИСКОВОДА "A:" *
;*******************************
RecalibrateFDD:
pusha
call save_timer_fdd_motor
; Подать команду "Рекалибровка"
mov AL,07h
call FDCDataOutput
mov AL,00h
call FDCDataOutput
; Ожидать завершения операции
call WaitFDCInterrupt
; cmp [FDC_Status],0
; je no_fdc_status_error
; mov [flp_status],0
;no_fdc_status_error:
call save_timer_fdd_motor
popa
ret
;*****************************************************
;* ПОИСК ДОРОЖКИ *
;* Параметры передаются через глобальные переменные: *
;* FDD_Track - номер дорожки (0-79); *
;* FDD_Head - номер головки (0-1). *
;* Результат операции заносится в FDC_Status. *
;*****************************************************
SeekTrack:
pusha
call save_timer_fdd_motor
; Подать команду "Поиск"
mov AL,0Fh
call FDCDataOutput
; Передать байт номера головки/накопител
mov AL,[FDD_Head]
shl AL,2
call FDCDataOutput
; Передать байт номера дорожки
mov AL,[FDD_Track]
call FDCDataOutput
; Ожидать завершения операции
call WaitFDCInterrupt
cmp [FDC_Status],FDC_Normal
jne @@Exit
; Сохранить результат поиска
mov AL,08h
call FDCDataOutput
call FDCDataInput
mov [FDC_ST0],AL
call FDCDataInput
mov [FDC_C],AL
; Проверить результат поиска
; Поиск завершен?
test [FDC_ST0],100000b
je @@Err
; Заданный трек найден?
mov AL,[FDC_C]
cmp AL,[FDD_Track]
jne @@Err
; Номер головки совпадает с заданным?
mov AL,[FDC_ST0]
and AL,100b
shr AL,2
cmp AL,[FDD_Head]
jne @@Err
; Операция завершена успешно
mov [FDC_Status],FDC_Normal
jmp @@Exit
@@Err: ; Трек не найден
mov [FDC_Status],FDC_TrackNotFound
; mov [flp_status],0
@@Exit:
call save_timer_fdd_motor
popa
ret
;*******************************************************
;* ЧТЕНИЕ СЕКТОРА ДАННЫХ *
;* Параметры передаются через глобальные переменные: *
;* FDD_Track - номер дорожки (0-79); *
;* FDD_Head - номер головки (0-1); *
;* FDD_Sector - номер сектора (1-18). *
;* Результат операции заносится в FDC_Status. *
;* В случае успешного выполнения операции чтения *
;* содержимое сектора будет занесено в FDD_DataBuffer. *
;*******************************************************
ReadSector:
pushad
call save_timer_fdd_motor
; Установить скорость передачи 500 Кбайт/с
mov AX,0
mov DX,03F7h
out DX,AL
; Инициализировать канал прямого доступа к памяти
mov [dmamode],0x46
call Init_FDC_DMA
; Подать команду "Чтение данных"
mov AL,0E6h ;чтение в мультитрековом режиме
call FDCDataOutput
mov AL,[FDD_Head]
shl AL,2
call FDCDataOutput
mov AL,[FDD_Track]
call FDCDataOutput
mov AL,[FDD_Head]
call FDCDataOutput
mov AL,[FDD_Sector]
call FDCDataOutput
mov AL,2 ;код размера сектора (512 байт)
call FDCDataOutput
mov AL,18 ;+1; 3Fh ;число секторов на дорожке
call FDCDataOutput
mov AL,1Bh ;значение GPL
call FDCDataOutput
mov AL,0FFh ;значение DTL
call FDCDataOutput
; Ожидаем прерывание по завершении операции
call WaitFDCInterrupt
cmp [FDC_Status],FDC_Normal
jne @@Exit_1
; Считываем статус завершения операции
call GetStatusInfo
test [FDC_ST0],11011000b
jnz @@Err_1
mov [FDC_Status],FDC_Normal
jmp @@Exit_1
@@Err_1: mov [FDC_Status],FDC_SectorNotFound
; mov [flp_status],0
@@Exit_1:
call save_timer_fdd_motor
popad
ret
;*******************************************************
;* ЧТЕНИЕ СЕКТОРА (С ПОВТОРЕНИЕМ ОПЕРАЦИИ ПРИ СБОЕ) *
;* Параметры передаются через глобальные переменные: *
;* FDD_Track - номер дорожки (0-79); *
;* FDD_Head - номер головки (0-1); *
;* FDD_Sector - номер сектора (1-18). *
;* Результат операции заносится в FDC_Status. *
;* В случае успешного выполнения операции чтения *
;* содержимое сектора будет занесено в FDD_DataBuffer. *
;*******************************************************
ReadSectWithRetr:
pusha
; Обнулить счетчик повторения операции рекалибровки
mov [RecalRepCounter],0
@@TryAgain:
; Обнулить счетчик повторения операции чтени
mov [ReadRepCounter],0
@@ReadSector_1:
call ReadSector
cmp [FDC_Status],0
je @@Exit_2
cmp [FDC_Status],1
je @@Err_3
; Троекратное повторение чтени
inc [ReadRepCounter]
cmp [ReadRepCounter],3
jb @@ReadSector_1
; Троекратное повторение рекалибровки
call RecalibrateFDD
call SeekTrack
inc [RecalRepCounter]
cmp [RecalRepCounter],3
jb @@TryAgain
; mov [flp_status],0
@@Exit_2:
popa
ret
@@Err_3:
mov [flp_status],0
popa
ret
;*******************************************************
;* ЗАПИСЬ СЕКТОРА ДАННЫХ *
;* Параметры передаются через глобальные переменные: *
;* FDD_Track - номер дорожки (0-79); *
;* FDD_Head - номер головки (0-1); *
;* FDD_Sector - номер сектора (1-18). *
;* Результат операции заносится в FDC_Status. *
;* В случае успешного выполнения операции записи *
;* содержимое FDD_DataBuffer будет занесено в сектор. *
;*******************************************************
WriteSector:
pushad
call save_timer_fdd_motor
; Установить скорость передачи 500 Кбайт/с
mov AX,0
mov DX,03F7h
out DX,AL
; Инициализировать канал прямого доступа к памяти
mov [dmamode],0x4A
call Init_FDC_DMA
; Подать команду "Запись данных"
mov AL,0xC5 ;0x45 ;запись в мультитрековом режиме
call FDCDataOutput
mov AL,[FDD_Head]
shl AL,2
call FDCDataOutput
mov AL,[FDD_Track]
call FDCDataOutput
mov AL,[FDD_Head]
call FDCDataOutput
mov AL,[FDD_Sector]
call FDCDataOutput
mov AL,2 ;код размера сектора (512 байт)
call FDCDataOutput
mov AL,18; 3Fh ;число секторов на дорожке
call FDCDataOutput
mov AL,1Bh ;значение GPL
call FDCDataOutput
mov AL,0FFh ;значение DTL
call FDCDataOutput
; Ожидаем прерывание по завершении операции
call WaitFDCInterrupt
cmp [FDC_Status],FDC_Normal
jne @@Exit_3
; Считываем статус завершения операции
call GetStatusInfo
test [FDC_ST0],11000000b ;11011000b
jnz @@Err_2
mov [FDC_Status],FDC_Normal
jmp @@Exit_3
@@Err_2: mov [FDC_Status],FDC_SectorNotFound
@@Exit_3:
call save_timer_fdd_motor
popad
ret
;*******************************************************
;* ЗАПИСЬ СЕКТОРА (С ПОВТОРЕНИЕМ ОПЕРАЦИИ ПРИ СБОЕ) *
;* Параметры передаются через глобальные переменные: *
;* FDD_Track - номер дорожки (0-79); *
;* FDD_Head - номер головки (0-1); *
;* FDD_Sector - номер сектора (1-18). *
;* Результат операции заносится в FDC_Status. *
;* В случае успешного выполнения операции записи *
;* содержимое FDD_DataBuffer будет занесено в сектор. *
;*******************************************************
WriteSectWithRetr:
pusha
; Обнулить счетчик повторения операции рекалибровки
mov [RecalRepCounter],0
@@TryAgain_1:
; Обнулить счетчик повторения операции чтени
mov [ReadRepCounter],0
@@WriteSector_1:
call WriteSector
cmp [FDC_Status],0
je @@Exit_4
cmp [FDC_Status],1
je @@Err_4
; Троекратное повторение чтени
inc [ReadRepCounter]
cmp [ReadRepCounter],3
jb @@WriteSector_1
; Троекратное повторение рекалибровки
call RecalibrateFDD
call SeekTrack
inc [RecalRepCounter]
cmp [RecalRepCounter],3
jb @@TryAgain_1
@@Exit_4:
popa
ret
@@Err_4:
mov [flp_status],0
popa
ret
;*********************************************
;* ПОЛУЧИТЬ ИНФОРМАЦИЮ О РЕЗУЛЬТАТЕ ОПЕРАЦИИ *
;*********************************************
GetStatusInfo:
push AX
call FDCDataInput
mov [FDC_ST0],AL
call FDCDataInput
mov [FDC_ST1],AL
call FDCDataInput
mov [FDC_ST2],AL
call FDCDataInput
mov [FDC_C],AL
call FDCDataInput
mov [FDC_H],AL
call FDCDataInput
mov [FDC_R],AL
call FDCDataInput
mov [FDC_N],AL
pop AX
ret

871
kernel/branches/hd_kolibri/kernel/blkdev/hd_drv.inc
View File

@ -1,871 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Low-level driver for HDD access
; DMA support by Mario79
;**************************************************************************
;
; 0x600008 - first entry in cache list
;
; +0 - lba sector
; +4 - state of cache sector
; 0 = empty
; 1 = used for read ( same as in hd )
; 2 = used for write ( differs from hd )
;
; +65536 - cache entries
;
;**************************************************************************
align 4
hd_read:
;-----------------------------------------------------------
; input : eax = block to read
; ebx = destination
;-----------------------------------------------------------
and [hd_error], 0
push ecx esi edi ; scan cache
mov ecx,cache_max ; entries in cache
mov esi,OS_BASE+0x600000+8
mov edi,1
hdreadcache:
cmp dword [esi+4],0 ; empty
je nohdcache
cmp [esi],eax ; correct sector
je yeshdcache
nohdcache:
add esi,8
inc edi
dec ecx
jnz hdreadcache
call find_empty_slot ; ret in edi
cmp [hd_error],0
jne return_01
cmp [dma_hdd], 1
jnz .nodma
call hd_read_dma
jmp @f
.nodma:
call hd_read_pio
@@:
lea esi,[edi*8+OS_BASE+0x600000]
mov [esi],eax ; sector number
mov dword [esi+4],1 ; hd read - mark as same as in hd
yeshdcache:
mov esi,edi
shl esi,9
add esi,OS_BASE+0x600000+65536
mov edi,ebx
mov ecx,512/4
cld
rep movsd ; move data
return_01:
pop edi esi ecx
ret
align 4
hd_read_pio:
push eax edx
call wait_for_hd_idle
cmp [hd_error],0
jne hd_read_error
cli
xor eax,eax
mov edx,[hdbase]
inc edx
out dx,al ; ATAFeatures ॣ¨áâà "®á®¡¥­­®á⥩"
inc edx
inc eax
out dx,al ; ATASectorCount áçñâ稪 ᥪâ®à®¢
inc edx
mov eax,[esp+4]
out dx,al ; ATASectorNumber ॣ¨áâà ­®¬¥à  ᥪâ®à 
shr eax,8
inc edx
out dx,al ; ATACylinder ­®¬¥à 樫¨­¤à  (¬« ¤è¨© ¡ ©â)
shr eax,8
inc edx
out dx,al ; ­®¬¥à 樫¨­¤à  (áâ à訩 ¡ ©â)
shr eax,8
inc edx
and al,1+2+4+8
add al,byte [hdid]
add al,128+64+32
out dx,al ; ­®¬¥à £®«®¢ª¨/­®¬¥à ¤¨áª 
inc edx
mov al,20h
out dx,al ; ATACommand ॣ¨áâà ª®¬ ­¤
sti
call wait_for_sector_buffer
cmp [hd_error],0
jne hd_read_error
cli
push edi
shl edi,9
add edi,OS_BASE+0x600000+65536
mov ecx,256
mov edx,[hdbase]
cld
rep insw
pop edi
sti
pop edx eax
ret
disable_ide_int:
; mov edx,[hdbase]
; add edx,0x206
; mov al,2
; out dx,al
cli
ret
enable_ide_int:
; mov edx,[hdbase]
; add edx,0x206
; mov al,0
; out dx,al
sti
ret
align 4
hd_write:
;-----------------------------------------------------------
; input : eax = block
; ebx = pointer to memory
;-----------------------------------------------------------
push ecx esi edi
; check if the cache already has the sector and overwrite it
mov ecx,cache_max
mov esi,OS_BASE+0x600000+8
mov edi,1
hdwritecache:
cmp dword [esi+4],0 ; if cache slot is empty
je not_in_cache_write
cmp [esi],eax ; if the slot has the sector
je yes_in_cache_write
not_in_cache_write:
add esi,8
inc edi
dec ecx
jnz hdwritecache
; sector not found in cache
; write the block to a new location
call find_empty_slot ; ret in edi
cmp [hd_error],0
jne hd_write_access_denied
lea esi,[edi*8+OS_BASE+0x600000]
mov [esi],eax ; sector number
yes_in_cache_write:
mov dword [esi+4],2 ; write - differs from hd
shl edi,9
add edi,OS_BASE+0x600000+65536
mov esi,ebx
mov ecx,512/4
cld
rep movsd ; move data
hd_write_access_denied:
pop edi esi ecx
ret
write_cache:
;-----------------------------------------------------------
; write all changed sectors to disk
;-----------------------------------------------------------
push eax ecx edx esi edi
; write difference ( 2 ) from cache to hd
mov ecx,cache_max
mov esi,OS_BASE+0x600000+8
mov edi,1
write_cache_more:
cmp dword [esi+4],2 ; if cache slot is not different
jne .write_chain
mov dword [esi+4],1 ; same as in hd
mov eax,[esi] ; eax = sector to write
cmp eax,[PARTITION_START]
jb danger
cmp eax,[PARTITION_END]
ja danger
cmp [allow_dma_write], 1
jnz .nodma
cmp [dma_hdd], 1
jnz .nodma
; Ž¡ê¥¤¨­ï¥¬ § ¯¨áì 楯®çª¨ ¯®á«¥¤®¢ â¥«ì­ëå ᥪâ®à®¢ ¢ ®¤­® ®¡à é¥­¨¥ ª ¤¨áªã
cmp ecx, 1
jz .nonext
cmp dword [esi+8+4], 2
jnz .nonext
push eax
inc eax
cmp eax, [esi+8]
pop eax
jnz .nonext
cmp [cache_chain_started], 1
jz @f
mov [cache_chain_started], 1
mov [cache_chain_size], 0
mov [cache_chain_pos], edi
mov [cache_chain_ptr], esi
@@:
inc [cache_chain_size]
cmp [cache_chain_size], 64
jnz .continue
jmp .write_chain
.nonext:
call flush_cache_chain
mov [cache_chain_size], 1
mov [cache_chain_ptr], esi
call write_cache_sector
jmp .continue
.nodma:
call cache_write_pio
.write_chain:
call flush_cache_chain
.continue:
danger:
add esi,8
inc edi
dec ecx
jnz write_cache_more
call flush_cache_chain
return_02:
pop edi esi edx ecx eax
ret
flush_cache_chain:
cmp [cache_chain_started], 0
jz @f
call write_cache_chain
mov [cache_chain_started], 0
@@:
ret
align 4
cache_write_pio:
call disable_ide_int
call wait_for_hd_idle
cmp [hd_error],0
jne hd_write_error
; cli
xor eax,eax
mov edx,[hdbase]
inc edx
out dx,al
inc edx
inc eax
out dx,al
inc edx
mov eax,[esi] ; eax = sector to write
out dx,al
shr eax,8
inc edx
out dx,al
shr eax,8
inc edx
out dx,al
shr eax,8
inc edx
and al,1+2+4+8
add al,byte [hdid]
add al,128+64+32
out dx,al
inc edx
mov al,30h
out dx,al
; sti
call wait_for_sector_buffer
cmp [hd_error],0
jne hd_write_error
push ecx esi
; cli
mov esi,edi
shl esi,9
add esi,OS_BASE+0x600000+65536 ; esi = from memory position
mov ecx,256
mov edx,[hdbase]
cld
rep outsw
; sti
call enable_ide_int
pop esi ecx
ret
align 4
find_empty_slot:
;-----------------------------------------------------------
; find empty or read slot, flush cache if next 10% is used by write
; output : edi = cache slot
;-----------------------------------------------------------
; push ecx esi
search_again:
mov ecx,cache_max*10/100
mov edi,[cache_search_start]
search_for_empty:
inc edi
cmp edi,cache_max
jbe inside_cache
mov edi,1
inside_cache:
cmp dword [edi*8+OS_BASE+0x600000+4],2 ; get cache slot info
jb found_slot ; it's empty or read
dec ecx
jnz search_for_empty
call write_cache ; no empty slots found, write all
cmp [hd_error],0
jne found_slot_access_denied
jmp search_again ; and start again
found_slot:
mov [cache_search_start],edi
found_slot_access_denied:
ret
align 4
clear_hd_cache:
push eax ecx edi
mov edi,OS_BASE+0x600000
mov ecx,16384
xor eax,eax
cld
rep stosd ; clear hd cache with 0
mov [cache_search_start],eax
mov [fat_in_cache],-1
mov [fat_change],0
pop edi ecx eax
ret
save_hd_wait_timeout:
push eax
mov eax,[timer_ticks];[0xfdf0]
add eax,300 ; 3 sec timeout
mov [hd_wait_timeout],eax
pop eax
ret
align 4
check_hd_wait_timeout:
push eax
mov eax,[hd_wait_timeout]
cmp [timer_ticks], eax ;[0xfdf0],eax
jg hd_timeout_error
pop eax
mov [hd_error],0
ret
;iglobal
; hd_timeout_str db 'K : FS - HD timeout',0
; hd_read_str db 'K : FS - HD read error',0
; hd_write_str db 'K : FS - HD write error',0
; hd_lba_str db 'K : FS - HD LBA error',0
;endg
hd_timeout_error:
; call clear_hd_cache
; call clear_application_table_status
; mov esi,hd_timeout_str
; call sys_msg_board_str
DEBUGF 1,"K : FS - HD timeout\n"
; jmp $
mov [hd_error],1
pop eax
ret
hd_read_error:
; call clear_hd_cache
; call clear_application_table_status
; mov esi,hd_read_str
; call sys_msg_board_str
DEBUGF 1,"K : FS - HD read error\n"
pop edx eax
ret
hd_write_error:
; call clear_hd_cache
; call clear_application_table_status
; mov esi,hd_write_str
; call sys_msg_board_str
DEBUGF 1,"K : FS - HD write error\n"
ret
hd_write_error_dma:
; call clear_hd_cache
; call clear_application_table_status
; mov esi, hd_write_str
; call sys_msg_board_str
DEBUGF 1,"K : FS - HD read error\n"
pop esi
ret
hd_lba_error:
; call clear_hd_cache
; call clear_application_table_status
; mov esi,hd_lba_str
; call sys_msg_board_str
DEBUGF 1,"K : FS - HD LBA error\n"
jmp LBA_read_ret
align 4
wait_for_hd_idle:
push eax edx
call save_hd_wait_timeout
mov edx,[hdbase]
add edx,0x7
wfhil1:
call check_hd_wait_timeout
cmp [hd_error],0
jne @f
in al,dx
test al,128
jnz wfhil1
@@:
pop edx eax
ret
align 4
wait_for_sector_buffer:
push eax edx
mov edx,[hdbase]
add edx,0x7
call save_hd_wait_timeout
hdwait_sbuf: ; wait for sector buffer to be ready
call check_hd_wait_timeout
cmp [hd_error],0
jne @f
in al,dx
test al,8
jz hdwait_sbuf
mov [hd_error],0
cmp [hd_setup],1 ; do not mark error for setup request
je buf_wait_ok
test al,1 ; previous command ended up with an error
jz buf_wait_ok
@@:
mov [hd_error],1
buf_wait_ok:
pop edx eax
ret
; \begin{Mario79}
align 4
wait_for_sector_dma_ide0:
push eax
push edx
call save_hd_wait_timeout
.wait:
call change_task
cmp [irq14_func], hdd_irq14
jnz .done
call check_hd_wait_timeout
cmp [hd_error], 0
jz .wait
mov [irq14_func], hdd_irq_null
mov dx, [IDEContrRegsBaseAddr]
mov al, 0
out dx, al
.done:
pop edx
pop eax
ret
align 4
wait_for_sector_dma_ide1:
push eax
push edx
call save_hd_wait_timeout
.wait:
call change_task
cmp [irq15_func], hdd_irq15
jnz .done
call check_hd_wait_timeout
cmp [hd_error], 0
jz .wait
mov [irq15_func], hdd_irq_null
mov dx, [IDEContrRegsBaseAddr]
add dx, 8
mov al, 0
out dx, al
.done:
pop edx
pop eax
ret
iglobal
align 4
; note that IDE descriptor table must be 4-byte aligned and do not cross 4K boundary
IDE_descriptor_table:
dd OS_BASE+284000h
dw 2000h
dw 8000h
dma_cur_sector dd not 40h
irq14_func dd hdd_irq_null
irq15_func dd hdd_irq_null
endg
uglobal
; all uglobals are zeroed at boot
dma_process dd 0
dma_slot_ptr dd 0
cache_chain_pos dd 0
cache_chain_ptr dd 0
cache_chain_size db 0
cache_chain_started db 0
dma_task_switched db 0
dma_hdd db 0
allow_dma_write db 0
endg
align 4
hdd_irq14:
pushfd
cli
pushad
mov [irq14_func], hdd_irq_null
mov dx, [IDEContrRegsBaseAddr]
mov al, 0
out dx, al
call update_counters
mov ebx, [dma_process]
cmp [CURRENT_TASK], ebx
jz .noswitch
mov [dma_task_switched], 1
mov edi, [dma_slot_ptr]
mov eax, [CURRENT_TASK]
mov [dma_process], eax
mov eax, [TASK_BASE]
mov [dma_slot_ptr], eax
mov [CURRENT_TASK], ebx
mov [TASK_BASE], edi
mov byte [0xFFFF], 1
call do_change_task
.noswitch:
popad
popfd
align 4
hdd_irq_null:
ret
align 4
hdd_irq15:
pushfd
cli
pushad
mov [irq15_func], hdd_irq_null
mov dx, [IDEContrRegsBaseAddr]
add dx, 8
mov al, 0
out dx, al
call update_counters
mov ebx, [dma_process]
cmp [CURRENT_TASK], ebx
jz .noswitch
mov [dma_task_switched], 1
mov edi, [dma_slot_ptr]
mov eax, [CURRENT_TASK]
mov [dma_process], eax
mov eax, [TASK_BASE]
mov [dma_slot_ptr], eax
mov [CURRENT_TASK], ebx
mov [TASK_BASE], edi
mov byte [0xFFFF], 1
call do_change_task
.noswitch:
popad
popfd
ret
align 4
hd_read_dma:
push eax
push edx
mov edx, [dma_cur_sector]
cmp eax, edx
jb .notread
add edx, 15
cmp [esp+4], edx
ja .notread
mov eax, [esp+4]
sub eax, [dma_cur_sector]
shl eax, 9
add eax, OS_BASE+0x284000
push ecx esi edi
mov esi, eax
shl edi, 9
add edi, OS_BASE+0x610000
mov ecx, 512/4
cld
rep movsd
pop edi esi ecx
pop edx
pop eax
ret
.notread:
mov eax, IDE_descriptor_table-OS_BASE
mov dword [eax+OS_BASE], 0x284000
mov word [eax+4+OS_BASE], 0x2000
mov dx, [IDEContrRegsBaseAddr]
cmp [hdbase], 0x1F0
jz @f
add edx, 8
@@:
push edx
add edx, 4
out dx, eax
pop edx
mov al, 0
out dx, al
add edx, 2
mov al, 6
out dx, al
call wait_for_hd_idle
cmp [hd_error], 0
jnz hd_read_error
call disable_ide_int
xor eax, eax
mov edx, [hdbase]
inc edx
out dx, al
inc edx
mov eax, 10h
out dx, al
inc edx
mov eax, [esp+4]
out dx, al
shr eax, 8
inc edx
out dx, al
shr eax, 8
inc edx
out dx, al
shr eax, 8
inc edx
and al, 0xF
add al, byte [hdid]
add al, 11100000b
out dx, al
inc edx
mov al, 0xC8
out dx, al
mov dx, [IDEContrRegsBaseAddr]
cmp [hdbase], 0x1F0
jz @f
add dx, 8
@@:
mov al, 9
out dx, al
mov eax, [CURRENT_TASK]
mov [dma_process], eax
mov eax, [TASK_BASE]
mov [dma_slot_ptr], eax
cmp [hdbase], 0x1F0
jnz .ide1
mov [irq14_func], hdd_irq14
jmp @f
.ide1:
mov [irq15_func], hdd_irq15
@@:
call enable_ide_int
cmp [hdbase], 0x1F0
jnz .wait_ide1
call wait_for_sector_dma_ide0
jmp @f
.wait_ide1:
call wait_for_sector_dma_ide1
@@:
cmp [hd_error], 0
jnz hd_read_error
pop edx
pop eax
mov [dma_cur_sector], eax
jmp hd_read_dma
align 4
write_cache_chain:
push esi
mov eax, IDE_descriptor_table
mov edx, [cache_chain_pos]
shl edx, 9
add edx, OS_BASE+0x610000
mov [eax], edx
movzx edx, [cache_chain_size]
shl edx, 9
mov [eax+4], dx
jmp do_write_dma
write_cache_sector:
push esi
mov eax, IDE_descriptor_table
mov edx, edi
shl edx, 9
add edx, OS_BASE+0x610000
mov [eax], edx
mov word [eax+4], 0x200
do_write_dma:
mov dx, [IDEContrRegsBaseAddr]
cmp [hdbase], 0x1F0
jz @f
add edx, 8
@@:
push edx
add edx, 4
out dx, eax
pop edx
mov al, 0
out dx, al
add edx, 2
mov al, 6
out dx, al
call wait_for_hd_idle
cmp [hd_error], 0
jnz hd_write_error_dma
call disable_ide_int
xor eax, eax
mov edx, [hdbase]
inc edx
out dx, al
inc edx
mov al, [cache_chain_size]
out dx, al
inc edx
mov esi, [cache_chain_ptr]
mov eax, [esi]
out dx, al
shr eax, 8
inc edx
out dx, al
shr eax, 8
inc edx
out dx, al
shr eax, 8
inc edx
and al, 0xF
add al, byte [hdid]
add al, 11100000b
out dx, al
inc edx
mov al, 0xCA
out dx, al
mov dx, [IDEContrRegsBaseAddr]
cmp [hdbase], 0x1F0
jz @f
add dx, 8
@@:
mov al, 1
out dx, al
mov eax, [CURRENT_TASK]
mov [dma_process], eax
mov eax, [TASK_BASE]
mov [dma_slot_ptr], eax
cmp [hdbase], 0x1F0
jnz .ide1
mov [irq14_func], hdd_irq14
jmp @f
.ide1:
mov [irq15_func], hdd_irq15
@@:
call enable_ide_int
mov [dma_cur_sector], not 0x40
cmp [hdbase], 0x1F0
jnz .wait_ide1
call wait_for_sector_dma_ide0
jmp @f
.wait_ide1:
call wait_for_sector_dma_ide1
@@:
cmp [hd_error], 0
jnz hd_write_error_dma
pop esi
ret
uglobal
IDEContrRegsBaseAddr dw ?
endg
; \end{Mario79}

2473
kernel/branches/hd_kolibri/kernel/blkdev/rd.inc
View File

File diff suppressed because it is too large Load Diff

30
kernel/branches/hd_kolibri/kernel/blkdev/rdsave.inc
View File

@ -1,30 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
iglobal
saverd_fileinfo:
dd 2 ; subfunction: write
dd 0 ; (reserved)
dd 0 ; (reserved)
dd 1440*1024 ; size 1440 Kb
dd 0x100000 - std_application_base_address ; base address
db 0
.name:
dd ?
endg
sysfn_saveramdisk: ; 18.6 = SAVE FLOPPY IMAGE (HD version only)
call restorefatchain
mov eax, saverd_fileinfo - std_application_base_address
mov [saverd_fileinfo.name], ebx
pushad
push eax
call file_system_lfn
pop eax
popad
mov [esp+36], eax
ret

BIN
kernel/branches/hd_kolibri/kernel/boot/ETFONT.FNT
View File

Binary file not shown.

1305
kernel/branches/hd_kolibri/kernel/boot/bootcode.inc
View File

File diff suppressed because it is too large Load Diff

94
kernel/branches/hd_kolibri/kernel/boot/booteng.inc
View File

@ -1,94 +0,0 @@
$Revision: 437 $
;======================================================================
;
; BOOT DATA
;
;======================================================================
d80x25_bottom:
db 186,' KolibriOS based on MenuetOS and comes with ABSOLUTELY '
db 'NO WARRANTY ',186
db 186,' See file COPYING for details '
db ' ',186
line_full_bottom
d80x25_bottom_num = 3
novesa db "Display: EGA/CGA",13,10,0
vervesa db "Version of Vesa: Vesa x.x",13,10,0
vervesa_off=22
msg_apm db " APM x.x ", 0
gr_mode db 186," Vesa 2.0+ 16 M LFB: [1] 640x480, [2] 800x600, "
db "[3] 1024x768, [4] 1280x1024",13,10
db 186," Vesa 1.2 16 M Bnk: [5] 640x480, [6] 800x600, "
db "[7] 1024x768, [8] 1280x1024",13,10
db 186," EGA/CGA 256 Colors: [9] 320x200, "
db "VGA 16 Colors: [0] 640x480",13,10
db 186," Select mode: ",0
bt24 db "Bits Per Pixel: 24",13,10,0
bt32 db "Bits Per Pixel: 32",13,10,0
vrrmprint db "Apply VRR? (picture frequency greater than 60Hz"
db " only for transfers:",13,10
db 186," 1024*768->800*600 and 800*600->640*480) [1-yes,2-no]:",0
;askmouse db " Mouse at:"
; db " [1] PS/2 (USB), [2] Com1, [3] Com2."
; db " Select port [1-3]: ",0
;no_com1 db 13,10,186, " No COM1 mouse",0
;no_com2 db 13,10,186, " No COM2 mouse",0
ask_dma db "Use DMA for HDD writing? [1-yes/2-no]: ",0
;gr_direct db 186," Use direct LFB writing? "
; db "[1-yes/2-no] ? ",0
;mem_model db 13,10,186," Motherboard memory [1-16 Mb / 2-32 Mb / "
; db "3-64Mb / 4-128 Mb / 5-256 Mb] ? ",0
;bootlog db 13,10,186," After bootlog display [1-continue/2-pause] ? ",0
bdev db "Load ramdisk from [1-floppy; 2-C:\kolibri.img (FAT32);"
db 13,10,186," "
db "3-use preloaded ram-image from kernel restart]: ",0
probetext db 13,10,13,10,186," Use standart graphics mode? [1-yes, "
db "2-probe bios (Vesa 3.0)]: ",0
;memokz256 db 13,10,186," RAM 256 Mb",0
;memokz128 db 13,10,186," RAM 128 Mb",0
;memokz64 db 13,10,186," RAM 64 Mb",0
;memokz32 db 13,10,186," RAM 32 Mb",0
;memokz16 db 13,10,186," RAM 16 Mb",0
prnotfnd db "Fatal - Videomode not found.",0
;modena db "Fatal - VBE 0x112+ required.",0
not386 db "Fatal - CPU 386+ required.",0
btns db "Fatal - Can't determine color depth.",0
fatalsel db "Fatal - Graphics mode not supported by hardware.",0
badsect db 13,10,186," Fatal - Bad sector. Replace floppy.",0
memmovefailed db 13,10,186," Fatal - Int 0x15 move failed.",0
okt db " ... OK"
linef db 13,10,0
diskload db "Loading diskette: 00 %",8,8,8,8,0
pros db "00"
backspace2 db 8,8,0
boot_dev db 0 ; 0=floppy, 1=hd
start_msg db "Press [abcd] to change settings, press [Enter] to continue booting",13,10,0
time_msg db " or wait "
time_str db " 5 seconds"
db " before automatical continuation",13,10,0
current_cfg_msg db "Current settings:",13,10,0
curvideo_msg db " [a] Videomode: ",0
mode1 db "640x480",0
mode2 db "800x600",0
mode3 db "1024x768",0
mode4 db "1280x1024",0
modes_msg dw mode4-0x10000,mode1-0x10000,mode2-0x10000,mode3-0x10000
modevesa20 db " with LFB",0
modevesa12 db ", VESA 1.2 Bnk",0
mode9 db "320x200, EGA/CGA 256 colors",0
mode10 db "640x480, VGA 16 colors",0
probeno_msg db " (standard mode)",0
probeok_msg db " (check nonstandard modes)",0
dma_msg db " [b] Use DMA for HDD writing:",0
on_msg db " on",13,10,0
off_msg db " off",13,10,0
vrrm_msg db " [c] Use VRR:",0
preboot_device_msg db " [d] Floppy image: ",0
preboot_device_msgs dw 0,pdm1-0x10000,pdm2-0x10000,pdm3-0x10000
pdm1 db "real floppy",13,10,0
pdm2 db "C:\kolibri.img (FAT32)",13,10,0
pdm3 db "use already loaded image",13,10,0
loading_msg db "Loading KolibriOS...",0
save_quest db "Remember current settings? [y/n]: ",0
loader_block_error db "Bootloader data invalid, I cannot continue. Stopped.",0

94
kernel/branches/hd_kolibri/kernel/boot/bootet.inc
View File

@ -1,94 +0,0 @@
$Revision: 437 $
;======================================================================
;
; BOOT DATA
;
;======================================================================
d80x25_bottom:
db 186,' KolibriOS based on MenuetOS and comes with ABSOLUTELY '
db 'NO WARRANTY ',186
db 186,' See file COPYING for details '
db ' ',186
line_full_bottom
d80x25_bottom_num = 3
novesa db "Ekraan: EGA/CGA",13,10,0
vervesa db "Vesa versioon: Vesa x.x",13,10,0
vervesa_off=20
msg_apm db " APM x.x ", 0
gr_mode db 186," Vesa 2.0+ 16 M LFB: [1] 640x480, [2] 800x600, "
db "[3] 1024x768, [4] 1280x1024",13,10
db 186," Vesa 1.2 16 M Bnk: [5] 640x480, [6] 800x600, "
db "[7] 1024x768, [8] 1280x1024",13,10
db 186," EGA/CGA 256 värvi: [9] 320x200, "
db "VGA 16 värvi: [0] 640x480",13,10
db 186," Vali reziim: ",0
bt24 db "Bitti pikseli kohta: 24",13,10,0
bt32 db "Bitti pikseli kohta: 32",13,10,0
vrrmprint db "Kinnita VRR? (ekraani sagedus suurem kui 60Hz"
db " ainult:",13,10
db 186," 1024*768->800*600 ja 800*600->640*480) [1-jah,2-ei]:",0
;askmouse db " Hiir:"
; db " [1] PS/2 (USB), [2] Com1, [3] Com2."
; db " Vali port [1-3]: ",0
;no_com1 db 13,10,186, " No COM1 mouse",0
;no_com2 db 13,10,186, " No COM2 mouse",0
ask_dma db "Use DMA for HDD writing? [1-jah/2-ei]: ",0
;gr_direct db 186," Use direct LFB writing? "
; db "[1-yes/2-no] ? ",0
;mem_model db 13,10,186," Motherboard memory [1-16 Mb / 2-32 Mb / "
; db "3-64Mb / 4-128 Mb / 5-256 Mb] ? ",0
;bootlog db 13,10,186," After bootlog display [1-continue/2-pause] ? ",0
bdev db "Paigalda mäluketas [1-diskett; 2-C:\kolibri.img (FAT32);"
db 13,10,186," "
db "3-kasuta eellaaditud mäluketast kerneli restardist]: ",0
probetext db 13,10,13,10,186," Kasuta standartset graafika reziimi? [1-jah, "
db "2-leia biosist (Vesa 3.0)]: ",0
;memokz256 db 13,10,186," RAM 256 Mb",0
;memokz128 db 13,10,186," RAM 128 Mb",0
;memokz64 db 13,10,186," RAM 64 Mb",0
;memokz32 db 13,10,186," RAM 32 Mb",0
;memokz16 db 13,10,186," RAM 16 Mb",0
prnotfnd db "Fataalne - Videoreziimi ei leitud.",0
;modena db "Fataalne - VBE 0x112+ on vajalik.",0
not386 db "Fataalne - CPU 386+ on vajalik.",0
btns db "Fataalne - Ei suuda värvisügavust määratleda.",0
fatalsel db "Fataalne - Graafilist reziimi riistvara ei toeta.",0
badsect db 13,10,186," Fataalne - Vigane sektor. Asenda diskett.",0
memmovefailed db 13,10,186," Fataalne - Int 0x15 liigutamine ebaõnnestus.",0
okt db " ... OK"
linef db 13,10,0
diskload db "Loen disketti: 00 %",8,8,8,8,0
pros db "00"
backspace2 db 8,8,0
boot_dev db 0 ; 0=floppy, 1=hd
start_msg db "Vajuta [abcd] seadete muutmiseks, vajuta [Enter] laadimise jätkamiseks",13,10,0
time_msg db " või oota "
time_str db " 5 sekundit"
db " automaatseks jätkamiseks",13,10,0
current_cfg_msg db "Praegused seaded:",13,10,0
curvideo_msg db " [a] Videoreziim: ",0
mode1 db "640x480",0
mode2 db "800x600",0
mode3 db "1024x768",0
mode4 db "1280x1024",0
modes_msg dw mode4-0x10000,mode1-0x10000,mode2-0x10000,mode3-0x10000
modevesa20 db " koos LFB",0
modevesa12 db ", VESA 1.2 Bnk",0
mode9 db "320x200, EGA/CGA 256 värvi",0
mode10 db "640x480, VGA 16 värvi",0
probeno_msg db " (standard reziim)",0
probeok_msg db " (kontrolli ebastandardseid reziime)",0
dma_msg db " [b] Use DMA for HDD writing:",0
on_msg db " sees",13,10,0
off_msg db " väljas",13,10,0
vrrm_msg db " [c] Kasuta VRR:",0
preboot_device_msg db " [d] Disketi kujutis: ",0
preboot_device_msgs dw 0,pdm1-0x10000,pdm2-0x10000,pdm3-0x10000
pdm1 db "reaalne diskett",13,10,0
pdm2 db "C:\kolibri.img (FAT32)",13,10,0
pdm3 db "kasuta juba laaditud kujutist",13,10,0
loading_msg db "Laadin KolibriOS...",0
save_quest db "Jäta meelde praegused seaded? [y/n]: ",0
loader_block_error db "Alglaaduri andmed vigased, ei saa jätkata. Peatatud.",0

99
kernel/branches/hd_kolibri/kernel/boot/bootge.inc
View File

@ -1,99 +0,0 @@
$Revision: 437 $
;======================================================================
;
; BOOT DATA
;
;======================================================================
d80x25_bottom:
; db 186,' KolibriOS based on MenuetOS and comes with ABSOLUTELY '
; db 'NO WARRANTY ',186
; db 186,' See file COPYING for details '
; db ' ',186
db 186,' KolibriOS basiert auf MenuetOS und wird ohne jegliche '
db ' Garantie vertrieben ',186
db 186,' Details stehen in der Datei COPYING '
db ' ',186
line_full_bottom
d80x25_bottom_num = 3
novesa db "Anzeige: EGA/CGA ",13,10,0
vervesa db "Vesa-Version: Vesa ",13,10,0
vervesa_off=22
msg_apm db " APM x.x ", 0
gr_mode db 186," Vesa 2.0+ 16 M LFB: [1] 640x480, [2] 800x600, "
db "[3] 1024x768, [4] 1280x1024",13,10
db 186," Vesa 1.2 16 M Bnk: [5] 640x480, [6] 800x600, "
db "[7] 1024x768, [8] 1280x1024",13,10
db 186," EGA/CGA 256 Farben: [9] 320x200, "
db "VGA 16 Farben: [0] 640x480",13,10
db 186," Waehle Modus: ",0
bt24 db "Bits Per Pixel: 24",13,10,0
bt32 db "Bits Per Pixel: 32",13,10,0
vrrmprint db "VRR verwenden? (Monitorfrequenz groesser als 60Hz"
db " only for transfers:",13,10
db 186," 1024*768->800*600 und 800*600->640*480) [1-ja,2-nein]:",0
;askmouse db " Maus angeschlossen an:"
; db " [1] PS/2 (USB), [2] Com1, [3] Com2."
; db " Waehle Port [1-3]: ",0
;no_com1 db 13,10,186, " Keine COM1 Maus",0
;no_com2 db 13,10,186, " Keine COM2 Maus",0
ask_dma db "Nutze DMA zum HDD Aufschreiben? [1-ja/2-nein]: ",0
;gr_direct db 186," Benutze direct LFB? "
; db "[1-ja/2-nein] ? ",0
;mem_model db 13,10,186," Hauptspeicher [1-16 Mb / 2-32 Mb / "
; db "3-64Mb / 4-128 Mb / 5-256 Mb] ? ",0
;bootlog db 13,10,186," After bootlog display [1-continue/2-pause] ? ",0
bdev db "Lade die Ramdisk von [1-Diskette; 2-C:\kolibri.img (FAT32);"
db 13,10,186," "
db "3-benutze ein bereits geladenes Kernel image]: ",0
probetext db 13,10,13,10,186," Nutze Standardgrafikmodi? [1-ja, "
db "2-BIOS Test (Vesa 3.0)]: ",0
;memokz256 db 13,10,186," RAM 256 Mb",0
;memokz128 db 13,10,186," RAM 128 Mb",0
;memokz64 db 13,10,186," RAM 64 Mb",0
;memokz32 db 13,10,186," RAM 32 Mb",0
;memokz16 db 13,10,186," RAM 16 Mb",0
prnotfnd db "Fatal - Videomodus nicht gefunden.",0
;modena db "Fatal - VBE 0x112+ required.",0
not386 db "Fatal - CPU 386+ benoetigt.",0
btns db "Fatal - konnte Farbtiefe nicht erkennen.",0
fatalsel db "Fatal - Grafikmodus nicht unterstuetzt.",0
badsect db 13,10,186," Fatal - Sektorfehler, Andere Diskette neutzen.",0
memmovefailed db 13,10,186," Fatal - Int 0x15 Fehler.",0
okt db " ... OK"
linef db 13,10,0
diskload db "Lade Diskette: 00 %",8,8,8,8,0
pros db "00"
backspace2 db 8,8,0
boot_dev db 0 ; 0=floppy, 1=hd
start_msg db "Druecke [abcd], um die Einstellungen zu aendern , druecke [Enter] zum starten",13,10,0
time_msg db " oder warte "
time_str db " 5 Sekunden"
db " bis zum automatischen Start",13,10,0
current_cfg_msg db "Aktuelle Einstellungen:",13,10,0
curvideo_msg db " [a] Videomodus: ",0
mode1 db "640x480",0
mode2 db "800x600",0
mode3 db "1024x768",0
mode4 db "1280x1024",0
modes_msg dw mode4-0x10000,mode1-0x10000,mode2-0x10000,mode3-0x10000
modevesa20 db " mit LFB",0
modevesa12 db ", VESA 1.2 Bnk",0
mode9 db "320x200, EGA/CGA 256 colors",0
mode10 db "640x480, VGA 16 colors",0
probeno_msg db " (Standard Modus)",0
probeok_msg db " (teste nicht-standard Modi)",0
dma_msg db " [b] Nutze DMA zum HDD Aufschreiben:",0
on_msg db " an",13,10,0
off_msg db " aus",13,10,0
vrrm_msg db " [c] Nutze VRR:",0
preboot_device_msg db " [d] Diskettenimage: ",0
preboot_device_msgs dw 0,pdm1-0x10000,pdm2-0x10000,pdm3-0x10000
pdm1 db "Echte Diskette",13,10,0
pdm2 db "C:\kolibri.img (FAT32)",13,10,0
pdm3 db "Nutze bereits geladenes Image",13,10,0
loading_msg db "Lade KolibriOS...",0
save_quest db "Aktuelle Einstellungen speichern? [y/n]: ",0
loader_block_error db "Bootloader Daten ungueltig, Kann nicht fortfahren. Angehalten.",0

95
kernel/branches/hd_kolibri/kernel/boot/bootru.inc
View File

@ -1,95 +0,0 @@
$Revision: 437 $
;======================================================================
;
; BOOT DATA
;
;======================================================================
d80x25_bottom:
db 186,' Kolibri OS ®á­®¢ ­  ­  Menuet OS ¨ ­¥ ¯à¥¤®áâ ¢«ï¥â '
db '­¨ª ª¨å £ àa­â¨©. ',186
db 186,' <20>®¤à®¡­¥¥ ᬮâà¨â¥ ä ©« GNU.TXT '
db ' ',186
line_full_bottom
d80x25_bottom_num = 3
novesa db "‚¨¤¥®ª àâ : EGA/CGA",13,10,0
vervesa db "‚¥àá¨ï VESA: Vesa x.x",13,10,0
vervesa_off=19
msg_apm db " APM x.x ", 0
gr_mode db 186," Vesa 2.0+ 16 M LFB: [1] 640x480, [2] 800x600, "
db "[3] 1024x768, [4] 1280x1024",13,10
db 186," Vesa 1.2 16 M Bnk: [5] 640x480, [6] 800x600, "
db "[7] 1024x768, [8] 1280x1024",13,10
db 186," EGA/CGA 256 –¢¥â®¢: [9] 320x200, "
db "VGA 16 –¢¥â®¢: [0] 640x480",13,10
db 186," ‚ë¡¥à¨â¥ ¢¨¤¥®à¥¦¨¬: ",0
bt24 db "ƒ«ã¡¨­  梥â : 24",13,10,0
bt32 db "ƒ«ã¡¨­  梥â : 32",13,10,0
vrrmprint db "ˆá¯®«ì§®¢ âì VRR? (ç áâ®â  ª ¤à®¢ ¢ëè¥ 60 ƒæ"
db " ⮫쪮 ¤«ï ¯¥à¥å®¤®¢:",13,10
db 186," 1024*768>800*600 ¨ 800*600>640*480) [1-¤ , 2-­¥â]: ",0
;askmouse db "Œëèì:" ; 186, " "
; db " [1] PS/2 (USB), [2] Com1, [3] Com2."
; db " ‚ë¡¥à¨â¥ ¯®àâ [1-3]: ",0
;no_com1 db 13,10,186," No COM1 mouse",0
;no_com2 db 13,10,186," No COM2 mouse",0
ask_dma db "ˆá¯®«ì§®¢ âì DMA ¤«ï § ¯¨á¨ ­  HDD? [1-¤ /2-­¥â]: ",0
;gr_direct db 186," ˆá¯®«ì§®¢ âì «¨­¥©­ë© ¢¨¤¥®¡ãä¥à? "
; db "[1-¤ /2-­¥â]: ",0
;mem_model db 13,10,186," Ž¡ê+¬ ¯ ¬ï⨠[1-16 Mb / 2-32 Mb / "
; db "3-64Mb / 4-128 Mb / 5-256 Mb]: ",0
;bootlog db 13,10,186," <20>à®á¬®âà¥âì ¦ãà­ « § £à㧪¨? [1-­¥â/2-¤ ]: ",0
bdev db "‡ £à㧨âì ®¡à § ¨§ [1-¤¨áª¥â ; 2-C:\kolibri.img (FAT32);"
db 13,10,186," "
db "3-¨á¯®«ì§®¢ âì 㦥 § £à㦥­­ë© ®¡à §]: ",0
probetext db 13,10,13,10,186," ‘â ­¤ àâ­ë© ¢¨¤¥®à¥¦¨¬? [1-¤ , "
db "2-¯à®¢¥à¨âì ¤à㣨¥ (Vesa 3.0)]: ",0
;memokz256 db 13,10,186," RAM 256 Mb",0
;memokz128 db 13,10,186," RAM 128 Mb",0
;memokz64 db 13,10,186," RAM 64 Mb",0
;memokz32 db 13,10,186," RAM 32 Mb",0
;memokz16 db 13,10,186," RAM 16 Mb",0
prnotfnd db "Žè¨¡ª  - ‚¨¤¥®à¥¦¨¬ ­¥ ­ ©¤¥­.",0
;modena db "Žè¨¡ª  - ’ॡã¥âáï ¯®¤¤¥à¦ª  VBE 0x112+.",0
not386 db "Žè¨¡ª  - ’ॡã¥âáï ¯à®æ¥áá®à 386+.",0
btns db "Žè¨¡ª  - <20>¥ ¬®£ã ®¯à¥¤¥«¨âì £«ã¡¨­ã 梥â .",0
fatalsel db "Žè¨¡ª  - ‚ë¡à ­­ë© ¢¨¤¥®à¥¦¨¬ ­¥ ¯®¤¤¥à¦¨¢ ¥âáï.",0
badsect db 13,10,186," Žè¨¡ª  - „¨áª¥â  ¯®¢à¥¦¤¥­ . <20>®¯à®¡ã©â¥ ¤àã£ãî.",0
memmovefailed db 13,10,186," Žè¨¡ª  - Int 0x15 move failed.",0
okt db " ... OK"
linef db 13,10,0
diskload db "‡ £à㧪  ¤¨áª¥âë: 00 %",8,8,8,8,0
pros db "00"
backspace2 db 8,8,0
boot_dev db 0
start_msg db "<EFBFBD> ¦¬¨â¥ [abcd] ¤«ï ¨§¬¥­¥­¨ï ­ áâ஥ª, [Enter] ¤«ï ¯à®¤®«¦¥­¨ï § £à㧪¨",13,10,0
time_msg db " ¨«¨ ¯®¤®¦¤¨â¥ "
time_str db " 5 ᥪ㭤 "
db " ¤®  ¢â®¬ â¨ç¥áª®£® ¯à®¤®«¦¥­¨ï",13,10,0
current_cfg_msg db "’¥ªã騥 ­ áâனª¨:",13,10,0
curvideo_msg db " [a] ‚¨¤¥®à¥¦¨¬: ",0
mode1 db "640x480",0
mode2 db "800x600",0
mode3 db "1024x768",0
mode4 db "1280x1024",0
modes_msg dw mode4-0x10000,mode1-0x10000,mode2-0x10000,mode3-0x10000
modevesa20 db " á LFB",0
modevesa12 db ", VESA 1.2 Bnk",0
mode9 db "320x200, EGA/CGA 256 梥⮢",0
mode10 db "640x480, VGA 16 梥⮢",0
probeno_msg db " (áâ ­¤ àâ­ë© ¢¨¤¥®à¥¦¨¬)",0
probeok_msg db " (¯à®¢¥à¨âì ­¥áâ ­¤ àâ­ë¥ ०¨¬ë)",0
dma_msg db " [b] ˆá¯®«ì§®¢ ­¨¥ DMA ¤«ï § ¯¨á¨ ­  HDD:",0
on_msg db " ¢ª«",13,10,0
off_msg db " ¢ëª«",13,10,0
vrrm_msg db " [c] ˆá¯®«ì§®¢ ­¨¥ VRR:",0
preboot_device_msg db " [d] Ž¡à § ¤¨áª¥âë: ",0
preboot_device_msgs dw 0,pdm1-0x10000,pdm2-0x10000,pdm3-0x10000
pdm1 db "­ áâ®ïé ï ¤¨áª¥â ",13,10,0
pdm2 db "C:\kolibri.img (FAT32)",13,10,0
pdm3 db "¨á¯®«ì§®¢ âì 㦥 § £à㦥­­ë© ®¡à §",13,10,0
loading_msg db "ˆ¤ñâ § £à㧪  KolibriOS...",0
save_quest db "‡ ¯®¬­¨âì ⥪ã騥 ­ áâனª¨? [y/n]: ",0
loader_block_error db "Žè¨¡ª  ¢ ¤ ­­ëå ­ ç «ì­®£® § £àã§ç¨ª , ¯à®¤®«¦¥­¨¥ ­¥¢®§¬®¦­®.",0

52
kernel/branches/hd_kolibri/kernel/boot/bootstr.inc
View File

@ -1,52 +0,0 @@
; boot data: common strings (for all languages)
macro line_full_top {
db 201
times 78 db 205
db 187
}
macro line_full_bottom {
db 200
times 78 db 205
db 188
}
macro line_half {
db 186,' '
times 76 db 0xc4
db ' ',186
}
macro line_space {
db 186
times 78 db 32
db 186
}
d80x25_top:
line_full_top
cur_line_pos = 75
store byte ' ' at d80x25_top+cur_line_pos+1
rev_var = __REV__
while rev_var > 0
store byte rev_var mod 10 + '0' at d80x25_top+cur_line_pos
cur_line_pos = cur_line_pos - 1
rev_var = rev_var / 10
end while
store byte ' ' at d80x25_top+cur_line_pos
store dword ' SVN' at d80x25_top+cur_line_pos-4
space_msg: line_space
verstr:
; line_space
; version string
db 186,32
repeat 78
load a byte from version+%-1
if a = 13
break
end if
db a
end repeat
repeat 78 - ($-verstr)
db ' '
end repeat
db 32,186
line_half
d80x25_top_num = 4

7
kernel/branches/hd_kolibri/kernel/boot/et.inc
View File

@ -1,7 +0,0 @@
$Revision: 425 $
; Full ASCII code font
; only õ and ä added
; Kaitz
ET_FNT:
fontfile file "ETFONT.FNT"

34
kernel/branches/hd_kolibri/kernel/boot/preboot.inc
View File

@ -1,34 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
display_modechg db 0 ; display mode change for text, yes/no (0 or 2)
;
; !! Important note !!
;
; Must be set to 2, to avoid two screenmode
; changes within a very short period of time.
display_atboot db 0 ; show boot screen messages ( 2-no )
preboot_graph db 3 ; graph mode
preboot_gprobe db 1 ; probe vesa3 videomodes (1-no, 2-yes)
preboot_vrrm db 1 ; use VRR_M (1-yes, 2- no)
preboot_dma_write db 2 ; use DMA for writing to HDD (1-yes, 2-no)
preboot_device db 2 ; boot device
; (1-floppy 2-harddisk 3-kernel restart)
;!!!! 0 - autodetect !!!!
preboot_blogesc db 1 ; start immediately after bootlog
if $>10200h
ERROR: prebooting parameters must fit in first sector!!!
end if
hdsysimage db 'KOLIBRI IMG' ; load from
image_save db 'KOLIBRI IMG' ; save to
preboot_lfb db 0
preboot_bootlog db 0

93
kernel/branches/hd_kolibri/kernel/boot/ru.inc
View File

@ -1,93 +0,0 @@
$Revision: 425 $
; Generated by RUFNT.EXE
; By BadBugsKiller (C)
; Modifyed by BadBugsKiller 12.01.2004 17:45
; Øðèôò óìåíüøåí â ðàçìåðå è òåïåðü ñîñòîèò èç 2-óõ ÷àñòåé,
; ñîäåðæàùèõ òîëüêî ñèìâîëû ðóññêîãî àëôàâèòà.
; ñèìâîëû â êîäèðîâêå ASCII (ÄÎÑ'îâñêàÿ), êîäîâàÿ ñòàíèöà 866.
RU_FNT1:
db 0x00, 0x00, 0x1E, 0x36, 0x66, 0xC6, 0xC6, 0xFE, 0xC6, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xFE, 0x62, 0x60, 0x60, 0x7C, 0x66, 0x66, 0x66, 0x66, 0xFC, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xFC, 0x66, 0x66, 0x66, 0x7C, 0x66, 0x66, 0x66, 0x66, 0xFC, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xFE, 0x66, 0x62, 0x60, 0x60, 0x60, 0x60, 0x60, 0x60, 0xF0, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x1E, 0x36, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0xFF, 0xC3, 0x81, 0x00, 0x00
db 0x00, 0x00, 0xFE, 0x66, 0x62, 0x68, 0x78, 0x68, 0x60, 0x62, 0x66, 0xFE, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xDB, 0xDB, 0x5A, 0x5A, 0x7E, 0x7E, 0x5A, 0xDB, 0xDB, 0xDB, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x7C, 0xC6, 0x06, 0x06, 0x3C, 0x06, 0x06, 0x06, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xCE, 0xDE, 0xF6, 0xE6, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x6C, 0x38, 0xC6, 0xC6, 0xC6, 0xCE, 0xDE, 0xF6, 0xE6, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xE6, 0x66, 0x6C, 0x6C, 0x78, 0x78, 0x6C, 0x6C, 0x66, 0xE6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x1F, 0x36, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0x66, 0xCF, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xC6, 0xEE, 0xFE, 0xFE, 0xD6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xC6, 0xFE, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x7C, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xFE, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xFC, 0x66, 0x66, 0x66, 0x66, 0x7C, 0x60, 0x60, 0x60, 0xF0, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x7C, 0xC6, 0xC6, 0xC0, 0xC0, 0xC0, 0xC0, 0xC2, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xFF, 0xDB, 0x99, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7E, 0x06, 0x06, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x7E, 0xDB, 0xDB, 0xDB, 0xDB, 0xDB, 0xDB, 0x7E, 0x18, 0x3C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xC6, 0xC6, 0x6C, 0x7C, 0x38, 0x38, 0x7C, 0x6C, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xFF, 0x03, 0x03, 0x00, 0x00
db 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7E, 0x06, 0x06, 0x06, 0x06, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xFE, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xFF, 0x03, 0x03, 0x00, 0x00
db 0x00, 0x00, 0xF8, 0xF0, 0xB0, 0x30, 0x3E, 0x33, 0x33, 0x33, 0x33, 0x7E, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xC3, 0xC3, 0xC3, 0xC3, 0xF3, 0xDB, 0xDB, 0xDB, 0xDB, 0xF3, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xF0, 0x60, 0x60, 0x60, 0x7C, 0x66, 0x66, 0x66, 0x66, 0xFC, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x7C, 0xC6, 0x06, 0x26, 0x3E, 0x26, 0x06, 0x06, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xCE, 0xDB, 0xDB, 0xDB, 0xFB, 0xDB, 0xDB, 0xDB, 0xDB, 0xCE, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x3F, 0x66, 0x66, 0x66, 0x3E, 0x3E, 0x66, 0x66, 0x66, 0xE7, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x78, 0x0C, 0x7C, 0xCC, 0xCC, 0xCC, 0x76, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x02, 0x06, 0x7C, 0xC0, 0xC0, 0xFC, 0xC6, 0xC6, 0xC6, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xFC, 0x66, 0x66, 0x7C, 0x66, 0x66, 0xFC, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xFE, 0x62, 0x62, 0x60, 0x60, 0x60, 0xF0, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x1E, 0x36, 0x66, 0x66, 0x66, 0x66, 0xFF, 0xC3, 0xC3, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7C, 0xC6, 0xC6, 0xFE, 0xC0, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xD6, 0xD6, 0x54, 0x7C, 0x54, 0xD6, 0xD6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7C, 0xC6, 0x06, 0x3C, 0x06, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0xC6, 0xCE, 0xD6, 0xE6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x6C, 0x38, 0xC6, 0xC6, 0xCE, 0xD6, 0xE6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xE6, 0x6C, 0x78, 0x78, 0x6C, 0x66, 0xE6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x1E, 0x36, 0x66, 0x66, 0x66, 0x66, 0xE6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0xEE, 0xFE, 0xFE, 0xD6, 0xD6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xFE, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7C, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xFE, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x00, 0x00, 0x00, 0x00
RU_FNT2:
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xDC, 0x66, 0x66, 0x66, 0x66, 0x66, 0x7C, 0x60, 0x60, 0xF0, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7C, 0xC6, 0xC0, 0xC0, 0xC0, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7E, 0x5A, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7E, 0x06, 0x06, 0xC6, 0x7C, 0x00
db 0x00, 0x00, 0x00, 0x3C, 0x18, 0x7E, 0xDB, 0xDB, 0xDB, 0xDB, 0xDB, 0x7E, 0x18, 0x18, 0x3C, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0x6C, 0x38, 0x38, 0x38, 0x6C, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0xFF, 0x03, 0x03, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xC6, 0x7E, 0x06, 0x06, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xFE, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xD6, 0xFE, 0x03, 0x03, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xF8, 0xB0, 0xB0, 0x3E, 0x33, 0x33, 0x7E, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xC6, 0xC6, 0xC6, 0xF6, 0xDE, 0xDE, 0xF6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xF0, 0x60, 0x60, 0x7C, 0x66, 0x66, 0xFC, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7C, 0xC6, 0x06, 0x3E, 0x06, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0xCE, 0xDB, 0xDB, 0xFB, 0xDB, 0xDB, 0xCE, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7F, 0xC6, 0xC6, 0x7E, 0x36, 0x66, 0xE7, 0x00, 0x00, 0x00, 0x00
db 0x6C, 0x00, 0xFE, 0x66, 0x62, 0x68, 0x78, 0x68, 0x60, 0x62, 0x66, 0xFE, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x6C, 0x00, 0x7C, 0xC6, 0xC6, 0xFC, 0xC0, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x7C, 0xC6, 0xC0, 0xC8, 0xF8, 0xC8, 0xC0, 0xC0, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x7C, 0xC6, 0xC0, 0xF8, 0xC0, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x66, 0x00, 0x3C, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x6C, 0x00, 0x38, 0x18, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, 0x00, 0x00, 0x00
db 0x6C, 0x38, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7E, 0x06, 0x06, 0xC6, 0x7C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x6C, 0x38, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7E, 0x06, 0x06, 0xC6, 0x7C, 0x00
db 0x00, 0x38, 0x6C, 0x6C, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x18, 0x18, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x0E, 0x0C, 0x0C, 0x0C, 0x0C, 0x0C, 0x0C, 0xEC, 0x6C, 0x3C, 0x1C, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0xCF, 0xCD, 0xEF, 0xEC, 0xFF, 0xDC, 0xDC, 0xCC, 0xCC, 0xCC, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0xC6, 0x7C, 0xC6, 0xC6, 0xC6, 0xC6, 0xC6, 0x7C, 0xC6, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x7E, 0x7E, 0x7E, 0x7E, 0x7E, 0x7E, 0x7E, 0x00, 0x00, 0x00, 0x00, 0x00
db 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00

545
kernel/branches/hd_kolibri/kernel/boot/shutdown.inc
View File

@ -1,545 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; Shutdown for Menuet ;;
;; ;;
;; Distributed under General Public License ;;
;; See file COPYING for details. ;;
;; Copyright 2003 Ville Turjanmaa ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
system_shutdown: ; shut down the system
call stop_all_services
push 3 ; stop playing cd
pop eax
call sys_cd_audio
cld
mov al,[0x2f0000+0x9030]
cmp al,1
jl no_shutdown_parameter
cmp al,4
jle yes_shutdown_param
no_shutdown_parameter:
; movzx ecx,word [0x2f0000+0x900A]
; movzx esi,word [0x2f0000+0x900C]
; imul ecx,esi ;[0xfe04]
;; mov ecx,0x500000/4 ;3fff00/4 ; darken screen
; push ecx
; mov esi,[0xfe80]
; cmp esi,32*0x100000
; jbe no_darken_screen
; mov edi,16*0x100000
; push esi edi
; sdnewpix:
; lodsd
; shr eax,1
; and eax,0x7f7f7f7f
; stosd
; loop sdnewpix
; pop ecx
; pop esi edi
; rep movsd
; no_darken_screen:
; read shutdown code:
; 1) display shutdown "window"
mov eax,[0xfe00]
shr eax,1
lea esi,[eax+220] ; x end
sub eax,220 ; x start
mov ebx,[ScreenHeight]
shr ebx,1
mov [shutdownpos],ebx
lea ebp,[ebx+105] ; y end
sub ebx,120 ; y start
xor edi,edi
inc edi ; force putpixel & dtext
mov ecx,0x0000ff
; vertical loop begin
sdnewpix1:
push eax ; save x start
; horizontal loop begin
sdnewpix2:
call [putpixel]
inc eax
cmp eax,esi
jnz sdnewpix2
; horizontal loop end
dec ecx ; color
pop eax ; restore x start
inc ebx ; advance y pos
cmp ebx,ebp
jnz sdnewpix1
; vertical loop end
; 2) display text strings
; a) version
mov eax,[0xfe00]
shr eax,1
shl eax,16
mov ax,word [shutdownpos]
push eax
sub eax,(220-27)*10000h + 105
mov ebx,0xffff00
mov ecx,version
push 34
pop edx
call dtext
; b) variants
add eax,105+33
push 6
pop esi
; mov ebx,0xffffff
mov bl,0xFF
mov ecx,shutdowntext
mov dl,40
newsdt:
call dtext
add eax,10
add ecx,edx
dec esi
jnz newsdt
; 3) load & display rose.txt
mov eax,rosef-std_application_base_address ; load rose.txt
xor ebx,ebx
push 2
pop ecx
mov edx,0x90000
push edx
push 12
pop esi
push edi ; may be destroyed
pushad
push eax
call file_system_lfn ; by SPraid fileread
pop eax
popad
pop edi
pop ecx
inc ecx ; do not display stars from rose.txt
pop eax
add eax,20*10000h - 110
mov ebx,0x00ff00
push 27
pop edx
nrl:
call dtext
; sub ebx,0x050000
ror ebx, 16
sub bl, 0x05
ror ebx, 16
add eax,8
add ecx,31
cmp cx,word 0x0001+25*31
jnz nrl
call checkVga_N13
yes_shutdown_param:
cli
mov eax,kernel ; load kernel.mnt to 0x8000:0
push 12
pop esi
xor ebx,ebx
or ecx,-1
mov edx,0x80000
call fileread
mov esi,restart_kernel_4000+0x10000 ; move kernel re-starter to 0x4000:0
mov edi,0x40000
mov ecx,1000
rep movsb
mov eax,0x2F0000 ; restore 0x0 - 0xffff
xor ebx,ebx
mov ecx,0x10000
call memmove
call restorefatchain
mov al, 0xFF
out 0x21, al
out 0xA1, al
mov word [0x467+0],pr_mode_exit-0x10000
mov word [0x467+2],0x1000
mov al,0x0F
out 0x70,al
mov al,0x05
out 0x71,al
mov al,0xFE
out 0x64,al
hlt
use16
pr_mode_exit:
org $-0x10000
; setup stack
mov ax, 3000h
mov ss, ax
mov esp, 0EC00h
; setup ds
push cs
pop ds
lidt [old_ints_h-0x10000]
;remap IRQs
mov al,0x11
out 0x20,al
call rdelay
out 0xA0,al
call rdelay
mov al,0x08
out 0x21,al
call rdelay
mov al,0x70
out 0xA1,al
call rdelay
mov al,0x04
out 0x21,al
call rdelay
mov al,0x02
out 0xA1,al
call rdelay
mov al,0x01
out 0x21,al
call rdelay
out 0xA1,al
call rdelay
mov al,0xB8
out 0x21,al
call rdelay
mov al,0xBD
out 0xA1,al
sti
temp_3456:
xor ax,ax
mov es,ax
mov al,byte [es:0x9030]
cmp al,1
jl nbw
cmp al,4
jle nbw32
nbw:
in al,0x60
call pause_key
cmp al,6
jae nbw
mov bl,al
nbw2:
in al,0x60
call pause_key
cmp al,bl
je nbw2
cmp al,240 ;ax,240
jne nbw31
mov al,bl
dec ax
jmp nbw32
nbw31:
add bl,128
cmp al,bl
jne nbw
sub al,129
nbw32:
dec ax ; 1 = write floppy
js nbw
jnz no_floppy_write
call floppy_write
jmp temp_3456 ;nbw
no_floppy_write:
dec ax ; 2 = power off
jnz no_apm_off
call APM_PowerOff
jmp $
no_apm_off:
dec ax ; 3 = reboot
jnz restart_kernel ; 4 = restart kernel
push 0x40
pop ds
mov word[0x0072],0x1234
jmp 0xF000:0xFFF0
pause_key:
mov cx,100
pause_key_1:
loop pause_key_1
ret
rdelay:
ret
iglobal
kernel db 'KERNEL MNT'
; shutdown_parameter db 0
endg
restart_kernel:
mov ax,0x0003 ; set text mode for screen
int 0x10
jmp 0x4000:0000
restart_kernel_4000:
cli
; mov di,0x1000 ; load kernel image from 0x8000:0 -> 0x1000:0
;
; new_kernel_block_move:
;
; mov ebx,0
;
; new_kernel_byte_move:
;
; mov ax,di
; add ax,0x7000
; mov es,ax
; mov dl,[es:bx]
; mov es,di
; mov [es:bx],dl
;
; inc ebx
; cmp ebx,65536
; jbe new_kernel_byte_move
;
; add di,0x1000
; cmp di,0x2000
; jbe new_kernel_block_move
push ds
pop es
mov cx, 0x8000
push cx
mov ds, cx
xor si, si
xor di, di
rep movsw
push 0x9000
pop ds
push 0x2000
pop es
pop cx
rep movsw
wbinvd ; write and invalidate cache
; mov ax,0x1000
; mov es,ax
; mov ax,0x3000
; mov ss,ax
; mov sp,0xec00
; restore timer
mov al, 00110100b
out 43h, al
jcxz $+2
mov al, 0xFF
out 40h, al
jcxz $+2
out 40h, al
jcxz $+2
sti
; (hint by Black_mirror)
; We must read data from keyboard port,
; because there may be situation when previous keyboard interrupt is lost
; (due to return to real mode and IRQ reprogramming)
; and next interrupt will not be generated (as keyboard waits for handling)
in al, 0x60
; bootloader interface
push 0x1000
pop ds
mov si, kernel_restart_bootblock-0x10000
mov ax, 'KL'
jmp 0x1000:0000
APM_PowerOff:
mov ax, 5304h
xor bx, bx
int 15h
;!!!!!!!!!!!!!!!!!!!!!!!!
mov ax,0x5300
xor bx,bx
int 0x15
push ax
mov ax,0x5301
xor bx,bx
int 0x15
mov ax,0x5308
mov bx,1
mov cx,bx
int 0x15
mov ax,0x530E
xor bx,bx
pop cx
int 0x15
mov ax,0x530D
mov bx,1
mov cx,bx
int 0x15
mov ax,0x530F
mov bx,1
mov cx,bx
int 0x15
mov ax,0x5307
mov bx,1
mov cx,3
int 0x15
;!!!!!!!!!!!!!!!!!!!!!!!!
fwwritedone:
ret
org $+0x10000
flm db 0
org $-0x10000
floppy_write: ; write diskette image to physical floppy
cmp [flm-0x10000],byte 1
je fwwritedone
mov [flm-0x10000],byte 1
xor ax, ax ; reset drive
xor dx, dx
int 0x13
mov cx,0x0001 ; startcyl,startsector
; mov dx,0x0000 ; starthead,drive
xor dx, dx
mov ax, 80*2 ; read no of sect
fwwrites:
push ax
; move 1mb+ -> 0:a000
pusha
mov si,fwmovedesc -0x10000
mov cx,256*18
mov ah,0x87
push ds
pop es
int 0x15
add dword [fwmovedesc-0x10000+0x12], 512*18
popa
xor si,si
mov es,si
fwnewwrite:
mov bx,0xa000 ; es:bx -> data area
mov ax,0x0300+18 ; read, no of sectors to read
int 0x13
test ah, ah
jz fwgoodwrite
inc si
cmp si,10
jnz fwnewwrite
; can't access diskette - return
pop ax
ret
fwgoodwrite:
inc dh
cmp dh,2
jnz fwbb2
mov dh,0
inc ch
fwbb2:
pop ax
dec ax
jnz fwwrites
ret
org $+0x10000
fwmovedesc:
db 0x00,0x00,0x0,0x00,0x00,0x00,0x0,0x0
db 0x00,0x00,0x0,0x00,0x00,0x00,0x0,0x0
db 0xff,0xff,0x0,0x00,0x10,0x93,0x0,0x0
db 0xff,0xff,0x0,0xa0,0x00,0x93,0x0,0x0
db 0x00,0x00,0x0,0x00,0x00,0x00,0x0,0x0
db 0x00,0x00,0x0,0x00,0x00,0x00,0x0,0x0
db 0x00,0x00,0x0,0x00,0x00,0x00,0x0,0x0
db 0x00,0x00,0x0,0x00,0x00,0x00,0x0,0x0
org $-0x10000
use32
org $+0x10000
uglobal
shutdownpos dd 0x0
endg
iglobal
if lang eq en
shutdowntext:
db "IT'S SAFE TO POWER OFF COMPUTER OR "
db ' '
db '1) SAVE RAMDISK TO FLOPPY '
db '2) APM - POWEROFF '
db '3) REBOOT '
db '4) RESTART KERNEL '
else if lang eq ru
shutdowntext:
db "<EFBFBD>¥§®¯ á­®¥ ¢ëª«î祭¨¥ ª®¬¯ìîâ¥à  ¨«¨ "
db ' '
db '1) ‘®åà ­¨âì à ¬¤¨áª ­  ¤¨áª¥âã '
db '2) APM - ¢ëª«î祭¨¥ ¯¨â ­¨ï '
db '3) <20>¥à¥§ £à㧪  á¨á⥬ë '
db '4) <20>¥áâ àâ ï¤à  ¨§ Ž‡“ '
else
shutdowntext:
db "SIE KOENNEN DEN COMPUTER NUN AUSSCHALTEN"
db ' '
db '1) RAMDISK AUF DISK SPEICHERN '
db '2) APM - AUSSCHALTEN '
db '3) NEUSTARTEN '
db '4) KERNEL NEU STARTEN '
end if
rosef:
dd 0,0,0,1024,0x90000-std_application_base_address
db '/rd/1/ROSE.TXT',0
endg

31
kernel/branches/hd_kolibri/kernel/bootstrap/bootlog.inc
View File

@ -1,31 +0,0 @@
boot_log:
pushad
mov eax,10*65536
mov ax,word [boot_y]
add [boot_y],dword 10
mov ebx,0x80ffffff ; ASCIIZ string with white color
mov ecx,esi
mov edi,1
call dtext
mov [novesachecksum],1000
call checkVga_N13
cmp [preboot_blogesc],byte 1
je .bll2
cmp esi,boot_tasking
jne .bll2
; begin ealex 04.08.05
; in al,0x61
; and al,01111111b
; out 0x61,al
; end ealex 04.08.05
.bll1: in al,0x60 ; wait for ESC key press
cmp al,129
jne .bll1
.bll2: popad
ret

25
kernel/branches/hd_kolibri/kernel/bootstrap/bootmsg.inc
View File

@ -1,25 +0,0 @@
iglobal
boot_memdetect db 'Determining amount of memory',0
boot_fonts db 'Fonts loaded',0
boot_tss db 'Setting TSSs',0
boot_cpuid db 'Reading CPUIDs',0
boot_devices db 'Detecting devices',0
boot_timer db 'Setting timer',0
boot_irqs db 'Reprogramming IRQs',0
boot_setmouse db 'Setting mouse',0
boot_windefs db 'Setting window defaults',0
boot_bgr db 'Calculating background',0
boot_resirqports db 'Reserving IRQs & ports',0
boot_setrports db 'Setting addresses for IRQs',0
boot_setostask db 'Setting OS task',0
boot_allirqs db 'Unmasking all IRQs',0
boot_tsc db 'Reading TSC',0
boot_pal_ega db 'Setting EGA/CGA 320x200 palette',0
boot_pal_vga db 'Setting VGA 640x480 palette',0
boot_mtrr db 'Setting MTRR',0
boot_tasking db 'All set - press ESC to start',0
endg
iglobal
boot_y dd 10
endg

582
kernel/branches/hd_kolibri/kernel/bootstrap/bootstrap.inc
View File

@ -1,582 +0,0 @@
align 4
B32:
; CLEAR 0x280000-0xF00000
xor eax,eax
mov edi,0x280000
mov ecx,(0x100000*0xF-0x280000) / 4
cld
rep stosd
; CLEAR 0x80000-0x90000
; xor eax,eax
mov edi,0x80000
mov ecx,(0x90000-0x80000)/4
; cld
rep stosd
; CLEAR KERNEL UNDEFINED GLOBALS
mov edi, endofcode
mov ecx, (uglobals_size/4)+4
rep stosd
; SAVE & CLEAR 0-0xffff
mov esi,0x0000
mov edi,0x2F0000
mov ecx,0x10000 / 4
cld
rep movsd
xor eax,eax
mov edi,0
mov ecx,0x10000 / 4
cld
rep stosd
; SAVE REAL MODE VARIABLES
mov ax, [0x2f0000 + 0x9031]
mov [IDEContrRegsBaseAddr], ax
; --------------- APM ---------------------
mov eax, [0x2f0000 + 0x9040] ; entry point
mov dword[apm_entry], eax
mov word [apm_entry + 4], apm_code_32 - gdts
mov eax, [0x2f0000 + 0x9044] ; version & flags
mov [apm_vf], eax
; -----------------------------------------
; movzx eax,byte [0x2f0000+0x9010] ; mouse port
; mov [0xF604],byte 1 ;al
mov al, [0x2F0000+0x901F] ; DMA writing
mov [allow_dma_write], al
mov al,[0x2f0000+0x9000] ; bpp
mov [ScreenBPP],al
movzx eax,word [0x2f0000+0x900A] ; X max
dec eax
mov [ScreenWidth],eax
mov [screen_workarea.right],eax
movzx eax,word [0x2f0000+0x900C] ; Y max
dec eax
mov [ScreenHeight],eax
mov [screen_workarea.bottom],eax
movzx eax,word [0x2f0000+0x9008] ; screen mode
mov [SCR_MODE],eax
mov eax,[0x2f0000+0x9014] ; Vesa 1.2 bnk sw add
mov [BANK_SWITCH],eax
mov [BytesPerScanLine],word 640*4 ; Bytes PerScanLine
cmp [SCR_MODE],word 0x13 ; 320x200
je @f
cmp [SCR_MODE],word 0x12 ; VGA 640x480
je @f
mov ax,[0x2f0000+0x9001] ; for other modes
mov [BytesPerScanLine],ax
@@:
; GRAPHICS ADDRESSES
;mov eax,0x100000*8 ; LFB address
;cmp [0xfe0c],word 0x13
;je no_d_lfb
;cmp [0xfe0c],word 0x12
;je no_d_lfb
;cmp [0x2f0000+0x901e],byte 1
;jne no_d_lfb
mov byte [0x2f0000+0x901e],0x0
mov eax,[0x2f0000+0x9018]
;no_d_lfb:
mov [LFBAddress],eax
cmp [SCR_MODE],word 0100000000000000b
jge setvesa20
cmp [SCR_MODE],word 0x13
je v20ga32
mov [PUTPIXEL],dword Vesa12_putpixel24 ; Vesa 1.2
mov [0xe024],dword Vesa12_getpixel24
cmp [ScreenBPP],byte 24
jz ga24
mov [PUTPIXEL],dword Vesa12_putpixel32
mov [0xe024],dword Vesa12_getpixel32
ga24:
jmp v20ga24
setvesa20:
mov [PUTPIXEL],dword Vesa20_putpixel24 ; Vesa 2.0
mov [0xe024],dword Vesa20_getpixel24
cmp [ScreenBPP],byte 24
jz v20ga24
v20ga32:
mov [PUTPIXEL],dword Vesa20_putpixel32
mov [0xe024],dword Vesa20_getpixel32
v20ga24:
cmp [SCR_MODE],word 0x12 ; 16 C VGA 640x480
jne no_mode_0x12
mov [PUTPIXEL],dword VGA_putpixel
mov [0xe024],dword Vesa20_getpixel32
no_mode_0x12:
call test_cpu
; btr [cpu_caps], CAPS_SSE ;test: dont't use sse code
; btr [cpu_caps], CAPS_SSE2 ;test: don't use sse2
; btr [cpu_caps], CAPS_FXSR ;test: disable sse support
;all sse commands rise #UD exption
; btr [cpu_caps], CAPS_PSE ;test: don't use large pages
; btr [cpu_caps], CAPS_PGE ;test: don't use global pages
; btr [cpu_caps], CAPS_MTRR ;test: don't use MTRR
bts [cpu_caps], CAPS_TSC ;force use rdtsc
; -------- Fast System Call init ----------
; Intel SYSENTER/SYSEXIT (AMD CPU support it too)
bt [cpu_caps], CAPS_SEP
jnc .SEnP ; SysEnter not Present
xor edx, edx
mov ecx, MSR_SYSENTER_CS
mov eax, os_code
wrmsr
mov ecx, MSR_SYSENTER_ESP
; mov eax, sysenter_stack ; Check it
xor eax, eax
wrmsr
mov ecx, MSR_SYSENTER_EIP
mov eax, sysenter_entry
wrmsr
.SEnP:
; AMD SYSCALL/SYSRET
cmp byte[cpu_vendor], 'A'
jne .noSYSCALL
mov eax, 0x80000001
cpuid
test edx, 0x800 ; bit_11 - SYSCALL/SYSRET support
jz .noSYSCALL
mov ecx, MSR_AMD_EFER
rdmsr
or eax, 1 ; bit_0 - System Call Extension (SCE)
wrmsr
; !!!! It`s dirty hack, fix it !!!
; Bits of EDX :
; Bit 3116 During the SYSRET instruction, this field is copied into the CS register
; and the contents of this field, plus 8, are copied into the SS register.
; Bit 150 During the SYSCALL instruction, this field is copied into the CS register
; and the contents of this field, plus 8, are copied into the SS register.
; mov edx, (os_code + 16) * 65536 + os_code
mov edx, 0x1B0013
mov eax, syscall_entry
mov ecx, MSR_AMD_STAR
wrmsr
.noSYSCALL:
; -----------------------------------------
; MEMORY MODEL
call mem_test
call init_mtrr
call init_mem
call init_page_map
; ENABLE PAGING
mov eax, sys_pgdir
mov cr3, eax
mov eax,cr0
or eax,CR0_PG
mov cr0,eax
call init_kernel_heap
stdcall kernel_alloc, RING0_STACK_SIZE+512
mov [os_stack], eax
call init_LFB
call init_fpu
call init_malloc
stdcall alloc_kernel_space, 0x4F000
mov [ipc_tmp], eax
mov ebx, 0x1000
add eax, 0x40000
mov [proc_mem_map], eax
add eax, 0x8000
mov [proc_mem_pdir], eax
add eax, ebx
mov [proc_mem_tab], eax
add eax, ebx
mov [tmp_task_pdir], eax
add eax, ebx
mov [tmp_task_ptab], eax
add eax, ebx
mov [ipc_pdir], eax
add eax, ebx
mov [ipc_ptab], eax
call init_events
mov eax, srv.fd-SRV_FD_OFFSET
mov [srv.fd], eax
mov [srv.bk], eax
mov edi, irq_tab
xor eax, eax
mov ecx, 16
rep stosd
;Set base of graphic segment to linear address of LFB
mov eax,[LFBAddress] ; set for gs
mov [graph_data_l+2],ax
shr eax,16
mov [graph_data_l+4],al
mov [graph_data_l+7],ah
; BUILD SCHEDULER
call build_scheduler ; sys32.inc
; LOAD IDT
lidt [cs:idtreg]
cli
;!!!!!!!!!!!!!!!!!!!!!!!!!!
include 'detect/disks.inc'
;!!!!!!!!!!!!!!!!!!!!!!!!!!
; READ RAMDISK IMAGE FROM HD
;!!!!!!!!!!!!!!!!!!!!!!!
;include 'rdload.inc'
;!!!!!!!!!!!!!!!!!!!!!!!
; mov [dma_hdd],1
; CALCULATE FAT CHAIN FOR RAMDISK
call calculatefatchain
; LOAD VMODE DRIVER
;!!!!!!!!!!!!!!!!!!!!!!!
include 'vmodeld.inc'
;!!!!!!!!!!!!!!!!!!!!!!!
; LOAD FONTS I and II
mov [CURRENT_TASK],dword 1
mov [TASK_COUNT],dword 1
mov [TASK_BASE],dword TASK_DATA
pushad
push eax
mov eax,char - std_application_base_address
call file_system_lfn
mov eax,char2 - std_application_base_address
call file_system_lfn
pop eax
popad
; mov esi,char
; xor ebx,ebx
; mov ecx,2560;26000
; mov edx,FONT_I
; call fs_RamdiskRead
; mov esi,char2
; xor ebx,ebx
; mov ecx,2560;26000
; mov edx,FONT_II
; call fs_RamdiskRead
mov esi,boot_fonts
call boot_log
; PRINT AMOUNT OF MEMORY
mov esi, boot_memdetect
call boot_log
movzx ecx, word [boot_y]
or ecx, (10+29*6) shl 16 ; "Determining amount of memory"
sub ecx, 10
mov edx, 0xFFFFFF
mov ebx, [MEM_AMOUNT]
shr ebx, 20
mov edi, 1
mov eax, 0x00040000
call display_number_force
; REDIRECT ALL IRQ'S TO INT'S 0x20-0x2f
mov esi,boot_irqs
call boot_log
call rerouteirqs
mov esi,boot_tss
call boot_log
mov esi,boot_devices
call boot_log
call detect_devices
; TIMER SET TO 1/100 S
mov esi,boot_timer
call boot_log
mov al,0x34 ; set to 100Hz
out 0x43,al
mov al,0x9b ; lsb 1193180 / 1193
out 0x40,al
mov al,0x2e ; msb
out 0x40,al
; SET MOUSE
mov esi,boot_setmouse
call boot_log
call setmouse
mov [pci_access_enabled],1
; SET PRELIMINARY WINDOW STACK AND POSITIONS
mov esi,boot_windefs
call boot_log
call setwindowdefaults
; SET BACKGROUND DEFAULTS
mov esi,boot_bgr
call boot_log
call calculatebackground
; RESERVE SYSTEM IRQ'S JA PORT'S
mov esi,boot_resirqports
call boot_log
call reserve_irqs_ports
; SET PORTS FOR IRQ HANDLERS
mov esi,boot_setrports
call boot_log
call setirqreadports
; SET UP OS TASK
mov esi,boot_setostask
call boot_log
; mov eax, fpu_data
; mov dword [SLOT_BASE+APPDATA.fpu_state], eax
; mov dword [SLOT_BASE+APPDATA.fpu_handler], 0
; mov dword [SLOT_BASE+APPDATA.sse_handler], 0
; name for OS/IDLE process
mov dword [SLOT_BASE+256+APPDATA.app_name], dword 'OS/I'
mov dword [SLOT_BASE+256+APPDATA.app_name+4], dword 'DLE '
mov edi, [os_stack]
mov dword [SLOT_BASE+256+APPDATA.pl0_stack], edi
add edi, RING0_STACK_SIZE
mov dword [SLOT_BASE+256+APPDATA.fpu_state], edi
mov esi, fpu_data
mov ecx, 512/4
cld
rep movsd
mov dword [SLOT_BASE+256+APPDATA.fpu_handler], 0
mov dword [SLOT_BASE+256+APPDATA.sse_handler], 0
mov ebx, [def_cursor]
mov dword [SLOT_BASE+256+APPDATA.cursor], ebx
mov ebx, SLOT_BASE+256+APP_OBJ_OFFSET
mov dword [SLOT_BASE+256+APPDATA.fd_obj], ebx
mov dword [SLOT_BASE+256+APPDATA.bk_obj], ebx
; task list
mov [TASK_DATA+TASKDATA.wnd_number], 1 ; on screen number
mov [TASK_DATA+TASKDATA.pid], 1 ; process id number
mov [TASK_DATA+TASKDATA.mem_start], 0 ; process base address
mov edi,tss_data+tss_step
mov ecx, (tss_step)/4
xor eax, eax
cld
rep stosd
mov edi,tss_data+tss_step
mov [edi+TSS._ss0], os_data
mov eax,cr3
mov [edi+TSS._cr3],eax
mov [edi+TSS._eip],osloop
mov [edi+TSS._eflags],dword 0x11202 ; sti and resume
mov eax, [os_stack]
add eax, RING0_STACK_SIZE
mov [edi+TSS._esp], eax
mov [edi+TSS._cs],os_code
mov [edi+TSS._ss],os_data
mov [edi+TSS._ds],os_data
mov [edi+TSS._es],os_data
mov [edi+TSS._fs],os_data
mov [edi+TSS._gs],os_data
mov ax,tss0
ltr ax
call init_cursors
; READ TSC / SECOND
mov esi,boot_tsc
call boot_log
call _rdtsc
mov ecx,eax
mov esi,250 ; wait 1/4 a second
call delay_ms
call _rdtsc
sub eax,ecx
shl eax,2
mov [CPU_FREQ],eax ; save tsc / sec
mov ebx, 1000000
div ebx
mov [stall_mcs], eax
; SET VARIABLES
call set_variables
; STACK AND FDC
call stack_init
call fdc_init
; PALETTE FOR 320x200 and 640x480 16 col
cmp [SCR_MODE],word 0x12
jne no_pal_vga
mov esi,boot_pal_vga
call boot_log
call paletteVGA
no_pal_vga:
cmp [SCR_MODE],word 0x13
jne no_pal_ega
mov esi,boot_pal_ega
call boot_log
call palette320x200
no_pal_ega:
; LOAD DEFAULT SKIN
mov esi,_skin_file_default
mov edi,_skin_file
movsd
movsd
movsd
call load_skin
; LOAD FIRST APPLICATION
mov [CURRENT_TASK],dword 1
mov [TASK_COUNT],dword 1
cli
cmp byte [0x2f0000+0x9030],1
jne no_load_vrr_m
mov ebp, vrr_m
xor ebx, ebx
xor edx, edx
call fs_execute
cmp eax,2 ; if vrr_m app found (PID=2)
je first_app_found
no_load_vrr_m:
mov ebp, firstapp
xor ebx, ebx
xor edx, edx
call fs_execute
cmp eax,2 ; continue if a process has been loaded
je first_app_found
mov eax, 0xDEADBEEF ; otherwise halt
hlt
first_app_found:
cli
;mov [TASK_COUNT],dword 2
mov [CURRENT_TASK],dword 1 ; set OS task fisrt
; SET KEYBOARD PARAMETERS
mov al, 0xf6 ; reset keyboard, scan enabled
call kb_write
; wait until 8042 is ready
xor ecx,ecx
@@:
in al,64h
and al,00000010b
loopnz @b
; mov al, 0xED ; svetodiody - only for testing!
; call kb_write
; call kb_read
; mov al, 111b
; call kb_write
; call kb_read
mov al, 0xF3 ; set repeat rate & delay
call kb_write
; call kb_read
mov al, 0 ; 30 250 ;00100010b ; 24 500 ;00100100b ; 20 500
call kb_write
; call kb_read
;// mike.dld [
call set_lights
;// mike.dld ]
; START MULTITASKING
mov esi,boot_tasking
call boot_log
; mov [ENABLE_TASKSWITCH],byte 1 ; multitasking enabled
; UNMASK ALL IRQ'S
mov esi,boot_allirqs
call boot_log
cli ;guarantee forbidance of interrupts.
mov al,0 ; unmask all irq's
out 0xA1,al
out 0x21,al
mov ecx,32
ready_for_irqs:
mov al,0x20 ; ready for irqs
out 0x20,al
out 0xa0,al
loop ready_for_irqs ; flush the queue
stdcall attach_int_handler, dword 1, irq1
; mov [dma_hdd],1
cmp [IDEContrRegsBaseAddr], 0
setnz [dma_hdd]
sti
jmp $ ; wait here for timer to take control
; Fly :)

28
kernel/branches/hd_kolibri/kernel/bootstrap/detect/dev_fd.inc
View File

@ -1,28 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;***************************************************
; ïðåäâàðèòåëüíàÿ î÷èñòêà îáëàñòè òàáëèöû
; ïîèñê è çàíåñåíèå â òàáëèöó ïðèâîäîâ FDD
; àâòîð Mario79
;***************************************************
xor eax,eax
mov edi,DRIVE_DATA
mov ecx,16384
cld
rep stosd
mov al,0x10
out 0x70,al
mov cx,0xff
wait_cmos:
dec cx
cmp cx,0
jne wait_cmos
in al,0x71
mov [DRIVE_DATA],al

382
kernel/branches/hd_kolibri/kernel/bootstrap/detect/dev_hdcd.inc
View File

@ -1,382 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;******************************************************
; поиск приводов HDD и CD
; автор исходного текста Кулаков Владимир Геннадьевич.
; адаптация и доработка Mario79
;******************************************************
;****************************************************
;* ПОИСК HDD и CD *
;****************************************************
FindHDD:
mov [ChannelNumber],1
mov [DiskNumber],0
call FindHDD_3
; mov ax,[Sector512+176]
; mov [DRIVE_DATA+6],ax
; mov ax,[Sector512+126]
; mov [DRIVE_DATA+8],ax
; mov ax,[Sector512+128]
; mov [DRIVE_DATA+8],ax
mov [DiskNumber],1
call FindHDD_3
; mov al,[Sector512+176]
; mov [DRIVE_DATA+7],al
inc [ChannelNumber]
mov [DiskNumber],0
call FindHDD_3
; mov al,[Sector512+176]
; mov [DRIVE_DATA+8],al
mov [DiskNumber],1
call FindHDD_1
; mov al,[Sector512+176]
; mov [DRIVE_DATA+9],al
jmp EndFindHDD
FindHDD_1:
call ReadHDD_ID
cmp [DevErrorCode],0
jne FindHDD_2
cmp [Sector512+6],word 16
ja FindHDD_2
cmp [Sector512+12],word 255
ja FindHDD_2
inc byte [DRIVE_DATA+1]
jmp FindHDD_2_2
FindHDD_2:
call DeviceReset
cmp [DevErrorCode],0
jne FindHDD_2_2
call ReadCD_ID
cmp [DevErrorCode],0
jne FindHDD_2_2
inc byte [DRIVE_DATA+1]
inc byte [DRIVE_DATA+1]
FindHDD_2_2:
ret
FindHDD_3:
call FindHDD_1
shl byte [DRIVE_DATA+1],2
ret
; Адрес считываемого сектора в режиме LBA
SectorAddress DD ?
;*************************************************
;* ЧТЕНИЕ ИДЕНТИФИКАТОРА ЖЕСТКОГО ДИСКА *
;* Входные параметры передаются через глобальные *
;* переменные: *
;* ChannelNumber - номер канала (1 или 2); *
;* DiskNumber - номер диска на канале (0 или 1). *
;* Идентификационный блок данных считывается *
;* в массив Sector512. *
;*************************************************
ReadHDD_ID:
; Задать режим CHS
mov [ATAAddressMode],0
; Послать команду идентификации устройства
mov [ATAFeatures],0
mov [ATAHead],0
mov [ATACommand],0ECh
call SendCommandToHDD
cmp [DevErrorCode],0 ;проверить код ошибки
jne @@End ;закончить, сохранив код ошибки
mov DX,[ATABasePortAddr]
add DX,7 ;адрес регистра состояни
mov ecx,0xffff
@@WaitCompleet:
; Проверить время выполнения команды
dec ecx
cmp ecx,0
je @@Error1 ;ошибка тайм-аута
; Проверить готовность
in AL,DX
test AL,80h ;состояние сигнала BSY
jnz @@WaitCompleet
test AL,1 ;состояние сигнала ERR
jnz @@Error6
test AL,08h ;состояние сигнала DRQ
jz @@WaitCompleet
; Принять блок данных от контроллера
; mov AX,DS
; mov ES,AX
mov EDI,Sector512 ;offset Sector512
mov DX,[ATABasePortAddr] ;регистр данных
mov CX,256 ;число считываемых слов
rep insw ;принять блок данных
jmp @@End
; Записать код ошибки
@@Error1:
mov [DevErrorCode],1
jmp @@End
@@Error6:
mov [DevErrorCode],6
@@End: ret
; Стандартные базовые адреса каналов 1 и 2
StandardATABases DW 1F0h, 170h
; Номер канала
ChannelNumber DW ?
; Номер диска
DiskNumber DB ?
; Базовый адрес группы портов контроллера ATA
ATABasePortAddr DW ?
; Параметры ATA-команды
ATAFeatures DB ? ;особенности
ATASectorCount DB ? ;количество обрабатываемых секторов
ATASectorNumber DB ? ;номер начального сектора
ATACylinder DW ? ;номер начального цилиндра
ATAHead DB ? ;номер начальной головки
ATAAddressMode DB ? ;режим адресации (0 - CHS, 1 - LBA)
ATACommand DB ? ;код команды, подлежащей выполнению
; Код ошибки (0 - нет ошибок, 1 - превышен допустимый
; интервал ожидания, 2 - неверный код режима адресации,
; 3 - неверный номер канала, 4 - неверный номер диска,
; 5 - неверный номер головки, 6 - ошибка при выполнении
; команды)
DevErrorCode DB ?
;****************************************************
;* ПОСЛАТЬ КОМАНДУ ЗАДАННОМУ ДИСКУ *
;* Входные параметры передаются через глобальные *
;* переменные: *
;* ChannelNumber - номер канала (1 или 2); *
;* DiskNumber - номер диска (0 или 1); *
;* ATAFeatures - "особенности"; *
;* ATASectorCount - количество секторов; *
;* ATASectorNumber - номер начального сектора; *
;* ATACylinder - номер начального цилиндра; *
;* ATAHead - номер начальной головки; *
;* ATAAddressMode - режим адресации (0-CHS, 1-LBA); *
;* ATACommand - код команды. *
;* После успешного выполнения функции: *
;* в ATABasePortAddr - базовый адрес HDD; *
;* в DevErrorCode - ноль. *
;* При возникновении ошибки в DevErrorCode будет *
;* возвращен код ошибки. *
;****************************************************
SendCommandToHDD:
; Проверить значение кода режима
cmp [ATAAddressMode],1
ja @@Err2
; Проверить корректность номера канала
mov BX,[ChannelNumber]
cmp BX,1
jb @@Err3
cmp BX,2
ja @@Err3
; Установить базовый адрес
dec BX
shl BX,1
movzx ebx,bx
mov AX,[ebx+StandardATABases]
mov [ATABasePortAddr],AX
; Ожидание готовности HDD к приему команды
; Выбрать нужный диск
mov DX,[ATABasePortAddr]
add DX,6 ;адрес регистра головок
mov AL,[DiskNumber]
cmp AL,1 ;проверить номера диска
ja @@Err4
shl AL,4
or AL,10100000b
out DX,AL
; Ожидать, пока диск не будет готов
inc DX
mov ecx,0xfff
; mov eax,[timer_ticks]
; mov [TickCounter_1],eax
@@WaitHDReady:
; Проверить время ожидани
dec ecx
cmp ecx,0
je @@Err1
; mov eax,[timer_ticks]
; sub eax,[TickCounter_1]
; cmp eax,300 ;ожидать 300 тиков
; ja @@Err1 ;ошибка тайм-аута
; Прочитать регистр состояни
in AL,DX
; Проверить состояние сигнала BSY
test AL,80h
jnz @@WaitHDReady
; Проверить состояние сигнала DRQ
test AL,08h
jnz @@WaitHDReady
; Загрузить команду в регистры контроллера
cli
mov DX,[ATABasePortAddr]
inc DX ;регистр "особенностей"
mov AL,[ATAFeatures]
out DX,AL
inc DX ;счетчик секторов
mov AL,[ATASectorCount]
out DX,AL
inc DX ;регистр номера сектора
mov AL,[ATASectorNumber]
out DX,AL
inc DX ;номер цилиндра (младший байт)
mov AX,[ATACylinder]
out DX,AL
inc DX ;номер цилиндра (старший байт)
mov AL,AH
out DX,AL
inc DX ;номер головки/номер диска
mov AL,[DiskNumber]
shl AL,4
cmp [ATAHead],0Fh ;проверить номер головки
ja @@Err5
or AL,[ATAHead]
or AL,10100000b
mov AH,[ATAAddressMode]
shl AH,6
or AL,AH
out DX,AL
; Послать команду
mov AL,[ATACommand]
inc DX ;регистр команд
out DX,AL
sti
; Сбросить признак ошибки
mov [DevErrorCode],0
jmp @@End_2
; Записать код ошибки
@@Err1: mov [DevErrorCode],1
jmp @@End_2
@@Err2: mov [DevErrorCode],2
jmp @@End_2
@@Err3: mov [DevErrorCode],3
jmp @@End_2
@@Err4: mov [DevErrorCode],4
jmp @@End_2
@@Err5: mov [DevErrorCode],5
; Завершение работы программы
@@End_2:
ret
;*************************************************
;* ЧТЕНИЕ ИДЕНТИФИКАТОРА УСТРОЙСТВА ATAPI *
;* Входные параметры передаются через глобальные *
;* перменные: *
;* ChannelNumber - номер канала; *
;* DiskNumber - номер диска на канале. *
;* Идентификационный блок данных считывается *
;* в массив Sector512. *
;*************************************************
ReadCD_ID:
; Задать режим CHS
mov [ATAAddressMode],0
; Послать команду идентификации устройства
mov [ATAFeatures],0
mov [ATASectorCount],0
mov [ATASectorNumber],0
mov [ATACylinder],0
mov [ATAHead],0
mov [ATACommand],0A1h
call SendCommandToHDD
cmp [DevErrorCode],0 ;проверить код ошибки
jne @@End_1 ;закончить, сохранив код ошибки
; Ожидать готовность данных HDD
mov DX,[ATABasePortAddr]
add DX,7 ;порт 1х7h
mov ecx,0xffff
@@WaitCompleet_1:
; Проверить врем
dec ecx
cmp ecx,0
je @@Error1_1 ;ошибка тайм-аута
; Проверить готовность
in AL,DX
test AL,80h ;состояние сигнала BSY
jnz @@WaitCompleet_1
test AL,1 ;состояние сигнала ERR
jnz @@Error6_1
test AL,08h ;состояние сигнала DRQ
jz @@WaitCompleet_1
; Принять блок данных от контроллера
; mov AX,DS
; mov ES,AX
mov EDI,Sector512 ;offset Sector512
mov DX,[ATABasePortAddr] ;порт 1x0h
mov CX,256 ;число считываемых слов
rep insw
jmp @@End_1
; Записать код ошибки
@@Error1_1:
mov [DevErrorCode],1
jmp @@End_1
@@Error6_1:
mov [DevErrorCode],6
@@End_1:
ret
;*************************************************
;* СБРОС УСТРОЙСТВА *
;* Входные параметры передаются через глобальные *
;* переменные: *
;* ChannelNumber - номер канала (1 или 2); *
;* DiskNumber - номер диска (0 или 1). *
;*************************************************
DeviceReset:
; Проверить корректность номера канала
mov BX,[ChannelNumber]
cmp BX,1
jb @@Err3_2
cmp BX,2
ja @@Err3_2
; Установить базовый адрес
dec BX
shl BX,1
movzx ebx,bx
mov DX,[ebx+StandardATABases]
mov [ATABasePortAddr],DX
; Выбрать нужный диск
add DX,6 ;адрес регистра головок
mov AL,[DiskNumber]
cmp AL,1 ;проверить номера диска
ja @@Err4_2
shl AL,4
or AL,10100000b
out DX,AL
; Послать команду "Сброс"
mov AL,08h
inc DX ;регистр команд
out DX,AL
mov ecx,0x80000
@@WaitHDReady_1:
; Проверить время ожидани
dec ecx
cmp ecx,0
je @@Err1_2 ;ошибка тайм-аута
; Прочитать регистр состояни
in AL,DX
; Проверить состояние сигнала BSY
test AL,80h
jnz @@WaitHDReady_1
; Сбросить признак ошибки
mov [DevErrorCode],0
jmp @@End_3
; Обработка ошибок
@@Err1_2: mov [DevErrorCode],1
jmp @@End_3
@@Err3_2: mov [DevErrorCode],3
jmp @@End_3
@@Err4_2: mov [DevErrorCode],4
; Записать код ошибки
@@End_3:
ret
EndFindHDD:

5
kernel/branches/hd_kolibri/kernel/bootstrap/detect/disks.inc
View File

@ -1,5 +0,0 @@
$Revision: 425 $
include 'dev_fd.inc'
include 'dev_hdcd.inc'
include 'sear_par.inc'

125
kernel/branches/hd_kolibri/kernel/bootstrap/detect/sear_par.inc
View File

@ -1,125 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;****************************************************
; ïîèñê ëîãè÷åñêèõ äèñêîâ íà îáíàðóæåííûõ HDD
; è çàíåñåíèå äàííûõ â îáëàñòü òàáëèöû
; àâòîð Mario79
;****************************************************
mov [transfer_adress],DRIVE_DATA+0xa
search_partitions_ide0:
test [DRIVE_DATA+1],byte 0x40
jz search_partitions_ide1
mov [hdbase],0x1f0
mov [hdid],0x0
mov [hdpos],1
mov [fat32part],1
search_partitions_ide0_1:
call set_FAT32_variables
cmp [problem_partition],0
jne search_partitions_ide1
inc byte [DRIVE_DATA+2]
call partition_data_transfer
add [transfer_adress],100
inc [fat32part]
jmp search_partitions_ide0_1
search_partitions_ide1:
test [DRIVE_DATA+1],byte 0x10
jz search_partitions_ide2
mov [hdbase],0x1f0
mov [hdid],0x10
mov [hdpos],2
mov [fat32part],1
search_partitions_ide1_1:
call set_FAT32_variables
cmp [problem_partition],0
jne search_partitions_ide2
inc byte [DRIVE_DATA+3]
call partition_data_transfer
add [transfer_adress],100
inc [fat32part]
jmp search_partitions_ide1_1
search_partitions_ide2:
test [DRIVE_DATA+1],byte 0x4
jz search_partitions_ide3
mov [hdbase],0x170
mov [hdid],0x0
mov [hdpos],3
mov [fat32part],1
search_partitions_ide2_1:
call set_FAT32_variables
cmp [problem_partition],0
jne search_partitions_ide3
inc byte [DRIVE_DATA+4]
call partition_data_transfer
add [transfer_adress],100
inc [fat32part]
jmp search_partitions_ide2_1
search_partitions_ide3:
test [DRIVE_DATA+1],byte 0x1
jz end_search_partitions_ide
mov [hdbase],0x170
mov [hdid],0x10
mov [hdpos],4
mov [fat32part],1
search_partitions_ide3_1:
call set_FAT32_variables
cmp [problem_partition],0
jne end_search_partitions_ide
inc byte [DRIVE_DATA+5]
call partition_data_transfer
add [transfer_adress],100
inc [fat32part]
jmp search_partitions_ide3_1
partition_data_transfer:
mov edi,[transfer_adress]
mov esi,PARTITION_START
mov ecx,(file_system_data_size+3)/4
rep movsd
ret
uglobal
transfer_adress dd 0
endg
partition_data_transfer_1:
; cli
push edi
mov edi,PARTITION_START
mov esi,[transfer_adress]
mov ecx,(file_system_data_size+3)/4
rep movsd
pop edi
; sti
ret
end_search_partitions_ide:
;PARTITION_START dd 0x3f
;PARTITION_END dd 0
;SECTORS_PER_FAT dd 0x1f3a
;NUMBER_OF_FATS dd 0x2
;SECTORS_PER_CLUSTER dd 0x8
;BYTES_PER_SECTOR dd 0x200 ; Note: if BPS <> 512 need lots of changes
;ROOT_CLUSTER dd 2 ; first rootdir cluster
;FAT_START dd 0 ; start of fat table
;ROOT_START dd 0 ; start of rootdir (only fat16)
;ROOT_SECTORS dd 0 ; count of rootdir sectors (only fat16)
;DATA_START dd 0 ; start of data area (=first cluster 2)
;LAST_CLUSTER dd 0 ; last availabe cluster
;ADR_FSINFO dd 0 ; used only by fat32
;
;fatRESERVED dd 0x0FFFFFF6
;fatBAD dd 0x0FFFFFF7
;fatEND dd 0x0FFFFFF8
;fatMASK dd 0x0FFFFFFF
;
;fat_type db 0 ; 0=none, 16=fat16, 32=fat32

102
kernel/branches/hd_kolibri/kernel/bootstrap/rdload.inc
View File

@ -1,102 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; READ RAMDISK IMAGE FROM HD
cmp [boot_dev],1
jne no_sys_on_hd
test [DRIVE_DATA+1],byte 0x40
jz position_2
mov [hdbase],0x1f0
mov [hdid],0x0
mov [hdpos],1
mov [fat32part],0
position_1_1:
inc [fat32part]
call search_and_read_image
cmp [image_retrieved],1
je yes_sys_on_hd
movzx eax,byte [DRIVE_DATA+2]
cmp [fat32part],eax
jle position_1_1
position_2:
test [DRIVE_DATA+1],byte 0x10
jz position_3
mov [hdbase],0x1f0
mov [hdid],0x10
mov [hdpos],2
mov [fat32part],0
position_2_1:
inc [fat32part]
call search_and_read_image
cmp [image_retrieved],1
je yes_sys_on_hd
movzx eax,byte [DRIVE_DATA+3]
cmp eax,[fat32part]
jle position_2_1
position_3:
test [DRIVE_DATA+1],byte 0x4
jz position_4
mov [hdbase],0x170
mov [hdid],0x0
mov [hdpos],3
mov [fat32part],0
position_3_1:
inc [fat32part]
call search_and_read_image
cmp [image_retrieved],1
je yes_sys_on_hd
movzx eax,byte [DRIVE_DATA+4]
cmp eax,[fat32part]
jle position_3_1
position_4:
test [DRIVE_DATA+1],byte 0x1
jz no_sys_on_hd
mov [hdbase],0x170
mov [hdid],0x10
mov [hdpos],4
mov [fat32part],0
position_4_1:
inc [fat32part]
call search_and_read_image
cmp [image_retrieved],1
je yes_sys_on_hd
movzx eax,byte [DRIVE_DATA+5]
cmp eax,[fat32part]
jle position_4_1
jmp yes_sys_on_hd
search_and_read_image:
call set_FAT32_variables
mov edx, bootpath
call read_image
test eax, eax
jz image_present
mov edx, bootpath2
call read_image
test eax, eax
jz image_present
ret
image_present:
mov [image_retrieved],1
ret
read_image:
mov eax, hdsysimage
mov ebx, 1474560/512
mov ecx, RAMDISK
mov esi, 0
mov edi, 12
call file_read
ret
image_retrieved db 0
counter_of_partitions db 0
no_sys_on_hd:
yes_sys_on_hd:

65
kernel/branches/hd_kolibri/kernel/bootstrap/switch.inc
View File

@ -1,65 +0,0 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; SWITCH TO 32 BIT PROTECTED MODE ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
os_data = os_data_l-gdts ; GDTs
os_code = os_code_l-gdts
int_code equ int_code_l-gdts
int_data equ int_data_l-gdts
tss0sys equ tss0sys_l-gdts
graph_data equ 3+graph_data_l-gdts
tss0 equ tss0_l-gdts
app_code equ 3+app_code_l-gdts
app_data equ 3+app_data_l-gdts
; CR0 Flags - Protected mode and Paging
mov ecx, CR0_PE
; Enabling 32 bit protected mode
sidt [cs:old_ints_h-0x10000]
cli ; disable all irqs
cld
mov al,255 ; mask all irqs
out 0xa1,al
out 0x21,al
l.5: in al, 0x64 ; Enable A20
test al, 2
jnz l.5
mov al, 0xD1
out 0x64, al
l.6: in al, 0x64
test al, 2
jnz l.6
mov al, 0xDF
out 0x60, al
l.7: in al, 0x64
test al, 2
jnz l.7
mov al, 0xFF
out 0x64, al
lgdt [cs:gdts-0x10000] ; Load GDT
mov eax, cr0 ; Turn on paging // protected mode
or eax, ecx
and eax, 10011111b *65536*256 + 0xffffff ; caching enabled
mov cr0, eax
jmp $+2
org $+0x10000
mov ax,os_data ; Selector for os
mov ds,ax
mov es,ax
mov fs,ax
mov gs,ax
mov ss,ax
mov esp,0x3ec00 ; Set stack
jmp pword os_code:B32 ; jmp to enable 32 bit mode
if gdte >= $
error 'GDT overlaps with used code!'
end if

38
kernel/branches/hd_kolibri/kernel/bootstrap/vmodeld.inc
View File

@ -1,38 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;
; Load of videomode driver in memory
;
; (driver is located at 0x760000-0x768000 - 32kb) // if this area not occuped anything
;
; Author: Trans
; Date: 19.07.2003
;
; Include in MeOS kernel and compile with FASM
;
; LOAD VIDEOMODE DRIVER
; If vmode.mdr file not found
or eax,-1 ; Driver ID = -1 (not present in system)
mov [OS_BASE+0x760000],eax ;
mov [OS_BASE+0x760100],byte 0xC3 ; Instruction RETN - driver loop
pushad
push eax
mov eax, vmode - std_application_base_address
call file_system_lfn
pop eax
popad
; mov esi, vmode
; xor ebx, ebx
; mov ecx, 0x8000 ; size of memory area for driver
; mov edx, OS_BASE+0x760000 ; Memory position of driver
; call fs_RamdiskRead

32
kernel/branches/hd_kolibri/kernel/build.bat
View File

@ -1,32 +0,0 @@
@echo off
set drivers=sound sis infinity ati2d
mkdir bin
mkdir bin\drivers
mkdir bin\skins
:Target_kernel
echo building kernel
echo lang fix en > lang.inc
fasm -m 65536 kernel.asm bin\kernel.mnt
:Target_drivers
echo building drivers ...
for %%a in (%drivers%) do (
fasm -m 65536 drivers\%%a.asm bin\drivers\%%a.obj
)
:Target_skins
echo building skins ...
cd skin
fasm -m 65536 default.asm ..\bin\skins\default.skn
cd ..
pause

50
kernel/branches/hd_kolibri/kernel/bus/pci/pci16.inc
View File

@ -1,50 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; PCI16.INC ;;
;; ;;
;; 16 bit PCI driver code ;;
;; ;;
;; Version 0.2 December 21st, 2002 ;;
;; ;;
;; Author: Victor Prodan, victorprodan@yahoo.com ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
init_pci_16:
pushad
xor ax,ax
mov es,ax
mov byte [es:0x9020],1 ;default mechanism:1
mov ax,0xb101
int 0x1a
or ah,ah
jnz pci16skip
mov [es:0x9021],cl ;last PCI bus in system
mov [es:0x9022],bx
mov [es:0x9024],edi
; we have a PCI BIOS, so check which configuration mechanism(s)
; it supports
; AL = PCI hardware characteristics (bit0 => mechanism1, bit1 => mechanism2)
test al,1
jnz pci16skip
test al,2
jz pci16skip
mov byte [es:0x9020],2 ; if (al&3)==2 => mechanism 2
pci16skip:
mov ax,0x1000
mov es,ax
popad

363
kernel/branches/hd_kolibri/kernel/bus/pci/pci32.inc
View File

@ -1,363 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; ;;
;; PCI32.INC ;;
;; ;;
;; 32 bit PCI driver code ;;
;; ;;
;; Version 0.2 December 21st, 2002 ;;
;; ;;
;; Author: Victor Prodan, victorprodan@yahoo.com ;;
;; Credits: ;;
;; Ralf Brown ;;
;; Mike Hibbett, mikeh@oceanfree.net ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;***************************************************************************
; Function
; pci_api:
;
; Description
; entry point for system PCI calls
;***************************************************************************
align 4
pci_api:
cmp [pci_access_enabled],1
jne no_pci_access_for_applications
or al,al
jnz pci_fn_1
; PCI function 0: get pci version (AH.AL)
movzx eax,word [0x2F0000+0x9022]
ret
pci_fn_1:
cmp al,1
jnz pci_fn_2
; PCI function 1: get last bus in AL
mov al,[0x2F0000+0x9021]
ret
pci_fn_2:
cmp al,2
jne pci_fn_3
; PCI function 2: get pci access mechanism
mov al,[0x2F0000+0x9020]
ret
pci_fn_3:
cmp al,4
jz pci_read_reg ;byte
cmp al,5
jz pci_read_reg ;word
cmp al,6
jz pci_read_reg ;dword
cmp al,8
jz pci_write_reg ;byte
cmp al,9
jz pci_write_reg ;word
cmp al,10
jz pci_write_reg ;dword
no_pci_access_for_applications:
mov eax,-1
ret
;***************************************************************************
; Function
; pci_make_config_cmd
;
; Description
; creates a command dword for use with the PCI bus
; bus # in ah
; device+func in bh (dddddfff)
; register in bl
;
; command dword returned in eax ( 10000000 bbbbbbbb dddddfff rrrrrr00 )
;***************************************************************************
align 4
pci_make_config_cmd:
shl eax,8 ; move bus to bits 16-23
mov ax,bx ; combine all
and eax,0xffffff
or eax,0x80000000
ret
;***************************************************************************
; Function
; pci_read_reg:
;
; Description
; read a register from the PCI config space into EAX/AX/AL
; IN: ah=bus,device+func=bh,register address=bl
; number of bytes to read (1,2,4) coded into AL, bits 0-1
;***************************************************************************
align 4
pci_read_reg:
cmp byte [0x2F0000+0x9020],2 ;what mechanism will we use?
je pci_read_reg_2
; mechanism 1
push esi ; save register size into ESI
mov esi,eax
and esi,3
call pci_make_config_cmd
mov ebx,eax
; get current state
mov dx,0xcf8
in eax, dx
push eax
; set up addressing to config data
mov eax,ebx
and al,0xfc ; make address dword-aligned
out dx,eax
; get requested DWORD of config data
mov dl,0xfc
and bl,3
or dl,bl ; add to port address first 2 bits of register address
or esi,esi
jz pci_read_byte1
cmp esi,1
jz pci_read_word1
cmp esi,2
jz pci_read_dword1
jmp pci_fin_read1
pci_read_byte1:
in al,dx
jmp pci_fin_read1
pci_read_word1:
in ax,dx
jmp pci_fin_read1
pci_read_dword1:
in eax,dx
jmp pci_fin_read1
pci_fin_read1:
; restore configuration control
xchg eax,[esp]
mov dx,0xcf8
out dx,eax
pop eax
pop esi
ret
pci_read_reg_2:
test bh,128 ;mech#2 only supports 16 devices per bus
jnz pci_read_reg_err
push esi ; save register size into ESI
mov esi,eax
and esi,3
push eax
;store current state of config space
mov dx,0xcf8
in al,dx
mov ah,al
mov dl,0xfa
in al,dx
xchg eax,[esp]
; out 0xcfa,bus
mov al,ah
out dx,al
; out 0xcf8,0x80
mov dl,0xf8
mov al,0x80
out dx,al
; compute addr
shr bh,3 ; func is ignored in mechanism 2
or bh,0xc0
mov dx,bx
or esi,esi
jz pci_read_byte2
cmp esi,1
jz pci_read_word2
cmp esi,2
jz pci_read_dword2
jmp pci_fin_read2
pci_read_byte2:
in al,dx
jmp pci_fin_read2
pci_read_word2:
in ax,dx
jmp pci_fin_read2
pci_read_dword2:
in eax,dx
; jmp pci_fin_read2
pci_fin_read2:
; restore configuration space
xchg eax,[esp]
mov dx,0xcfa
out dx,al
mov dl,0xf8
mov al,ah
out dx,al
pop eax
pop esi
ret
pci_read_reg_err:
xor eax,eax
dec eax
ret
;***************************************************************************
; Function
; pci_write_reg:
;
; Description
; write a register from ECX/CX/CL into the PCI config space
; IN: ah=bus,device+func=bh,register address (dword aligned)=bl,
; value to write in ecx
; number of bytes to write (1,2,4) coded into AL, bits 0-1
;***************************************************************************
align 4
pci_write_reg:
cmp byte [0x2F0000+0x9020],2 ;what mechanism will we use?
je pci_write_reg_2
; mechanism 1
push esi ; save register size into ESI
mov esi,eax
and esi,3
call pci_make_config_cmd
mov ebx,eax
; get current state into ecx
mov dx,0xcf8
in eax, dx
push eax
; set up addressing to config data
mov eax,ebx
and al,0xfc ; make address dword-aligned
out dx,eax
; write DWORD of config data
mov dl,0xfc
and bl,3
or dl,bl
mov eax,ecx
or esi,esi
jz pci_write_byte1
cmp esi,1
jz pci_write_word1
cmp esi,2
jz pci_write_dword1
jmp pci_fin_write1
pci_write_byte1:
out dx,al
jmp pci_fin_write1
pci_write_word1:
out dx,ax
jmp pci_fin_write1
pci_write_dword1:
out dx,eax
jmp pci_fin_write1
pci_fin_write1:
; restore configuration control
pop eax
mov dl,0xf8
out dx,eax
xor eax,eax
pop esi
ret
pci_write_reg_2:
test bh,128 ;mech#2 only supports 16 devices per bus
jnz pci_write_reg_err
push esi ; save register size into ESI
mov esi,eax
and esi,3
push eax
;store current state of config space
mov dx,0xcf8
in al,dx
mov ah,al
mov dl,0xfa
in al,dx
xchg eax,[esp]
; out 0xcfa,bus
mov al,ah
out dx,al
; out 0xcf8,0x80
mov dl,0xf8
mov al,0x80
out dx,al
; compute addr
shr bh,3 ; func is ignored in mechanism 2
or bh,0xc0
mov dx,bx
; write register
mov eax,ecx
or esi,esi
jz pci_write_byte2
cmp esi,1
jz pci_write_word2
cmp esi,2
jz pci_write_dword2
jmp pci_fin_write2
pci_write_byte2:
out dx,al
jmp pci_fin_write2
pci_write_word2:
out dx,ax
jmp pci_fin_write2
pci_write_dword2:
out dx,eax
jmp pci_fin_write2
pci_fin_write2:
; restore configuration space
pop eax
mov dx,0xcfa
out dx,al
mov dl,0xf8
mov al,ah
out dx,al
xor eax,eax
pop esi
ret
pci_write_reg_err:
xor eax,eax
dec eax
ret

576
kernel/branches/hd_kolibri/kernel/const.inc
View File

@ -1,576 +0,0 @@
$Revision: 434 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
drw0 equ 10010010b ; data read/write dpl0
drw3 equ 11110010b ; data read/write dpl3
cpl0 equ 10011010b ; code read dpl0
cpl3 equ 11111010b ; code read dpl3
D32 equ 01000000b ; 32bit segment
G32 equ 10000000b ; page gran
;;;;;;;;;;;;cpu_caps flags;;;;;;;;;;;;;;;;
CPU_386 equ 3
CPU_486 equ 4
CPU_PENTIUM equ 5
CPU_P6 equ 6
CPU_PENTIUM4 equ 0x0F
CAPS_FPU equ 00 ;on-chip x87 floating point unit
CAPS_VME equ 01 ;virtual-mode enhancements
CAPS_DE equ 02 ;debugging extensions
CAPS_PSE equ 03 ;page-size extensions
CAPS_TSC equ 04 ;time stamp counter
CAPS_MSR equ 05 ;model-specific registers
CAPS_PAE equ 06 ;physical-address extensions
CAPS_MCE equ 07 ;machine check exception
CAPS_CX8 equ 08 ;CMPXCHG8B instruction
CAPS_APIC equ 09 ;on-chip advanced programmable
; interrupt controller
; 10 ;unused
CAPS_SEP equ 11 ;SYSENTER and SYSEXIT instructions
CAPS_MTRR equ 12 ;memory-type range registers
CAPS_PGE equ 13 ;page global extension
CAPS_MCA equ 14 ;machine check architecture
CAPS_CMOV equ 15 ;conditional move instructions
CAPS_PAT equ 16 ;page attribute table
CAPS_PSE36 equ 17 ;page-size extensions
CAPS_PSN equ 18 ;processor serial number
CAPS_CLFLUSH equ 19 ;CLFUSH instruction
CAPS_DS equ 21 ;debug store
CAPS_ACPI equ 22 ;thermal monitor and software
;controlled clock supported
CAPS_MMX equ 23 ;MMX instructions
CAPS_FXSR equ 24 ;FXSAVE and FXRSTOR instructions
CAPS_SSE equ 25 ;SSE instructions
CAPS_SSE2 equ 26 ;SSE2 instructions
CAPS_SS equ 27 ;self-snoop
CAPS_HTT equ 28 ;hyper-threading technology
CAPS_TM equ 29 ;thermal monitor supported
CAPS_IA64 equ 30 ;IA64 capabilities
CAPS_PBE equ 31 ;pending break enable
;ecx
CAPS_SSE3 equ 32 ;SSE3 instructions
; 33
; 34
CAPS_MONITOR equ 35 ;MONITOR/MWAIT instructions
CAPS_DS_CPL equ 36 ;
CAPS_VMX equ 37 ;virtual mode extensions
; 38 ;
CAPS_EST equ 39 ;enhansed speed step
CAPS_TM2 equ 40 ;thermal monitor2 supported
; 41
CAPS_CID equ 42 ;
; 43
; 44
CAPS_CX16 equ 45 ;CMPXCHG16B instruction
CAPS_xTPR equ 46 ;
;
;reserved
;
;ext edx /ecx
CAPS_SYSCAL equ 64 ;
CAPS_XD equ 65 ;execution disable
CAPS_FFXSR equ 66 ;
CAPS_RDTSCP equ 67 ;
CAPS_X64 equ 68 ;
CAPS_3DNOW equ 69 ;
CAPS_3DNOWEXT equ 70 ;
CAPS_LAHF equ 71 ;
CAPS_CMP_LEG equ 72 ;
CAPS_SVM equ 73 ;secure virual machine
CAPS_ALTMOVCR8 equ 74 ;
; CPU MSR names
MSR_SYSENTER_CS equ 0x174
MSR_SYSENTER_ESP equ 0x175
MSR_SYSENTER_EIP equ 0x176
MSR_AMD_EFER equ 0xC0000080 ; Extended Feature Enable Register
MSR_AMD_STAR equ 0xC0000081 ; SYSCALL/SYSRET Target Address Register
CR0_PE equ 0x00000001 ;protected mode
CR0_MP equ 0x00000002 ;monitor fpu
CR0_EM equ 0x00000004 ;fpu emulation
CR0_TS equ 0x00000008 ;task switch
CR0_ET equ 0x00000010 ;extension type hardcoded to 1
CR0_NE equ 0x00000020 ;numeric error
CR0_WP equ 0x00010000 ;write protect
CR0_AM equ 0x00040000 ;alignment check
CR0_NW equ 0x20000000 ;not write-through
CR0_CD equ 0x40000000 ;cache disable
CR0_PG equ 0x80000000 ;paging
CR4_VME equ 0x0001
CR4_PVI equ 0x0002
CR4_TSD equ 0x0004
CR4_DE equ 0x0008
CR4_PSE equ 0x0010
CR4_PAE equ 0x0020
CR4_MCE equ 0x0040
CR4_PGE equ 0x0080
CR4_PCE equ 0x0100
CR4_OSFXSR equ 0x0200
CR4_OSXMMEXPT equ 0x0400
SSE_IE equ 0x0001
SSE_DE equ 0x0002
SSE_ZE equ 0x0004
SSE_OE equ 0x0008
SSE_UE equ 0x0010
SSE_PE equ 0x0020
SSE_DAZ equ 0x0040
SSE_IM equ 0x0080
SSE_DM equ 0x0100
SSE_ZM equ 0x0200
SSE_OM equ 0x0400
SSE_UM equ 0x0800
SSE_PM equ 0x1000
SSE_FZ equ 0x8000
SSE_INIT equ (SSE_IM+SSE_DM+SSE_ZM+SSE_OM+SSE_UM+SSE_PM)
OS_BASE equ 0
window_data equ (OS_BASE+0x0000000)
CURRENT_TASK equ (OS_BASE+0x0003000)
TASK_COUNT equ (OS_BASE+0x0003004)
CURRENT_RING0_ESP equ (OS_BASE+0x0003008)
TASK_BASE equ (OS_BASE+0x0003010)
TASK_DATA equ (OS_BASE+0x0003020)
TASK_EVENT equ (OS_BASE+0x0003020)
mouseunder equ (OS_BASE+0x0006900)
FLOPPY_BUFF equ (OS_BASE+0x0008000)
ACTIVE_PROC_STACK equ (OS_BASE+0x000A400) ;unused
idts equ (OS_BASE+0x000B100)
WIN_STACK equ (OS_BASE+0x000C000)
WIN_POS equ (OS_BASE+0x000C400)
FDD_BUFF equ (OS_BASE+0x000D000)
;unused ? only one reference
ENABLE_TASKSWITCH equ (OS_BASE+0x000E000)
PUTPIXEL equ (OS_BASE+0x000E020)
GETPIXEL equ (OS_BASE+0x000E024)
;unused ? only one reference
BANK_SWITCH equ (OS_BASE+0x000E030)
;unused ? store mousepointer
MOUSE_PICTURE equ (OS_BASE+0x000F200)
MOUSE_VISIBLE equ (OS_BASE+0x000F204)
WIN_TEMP_XY equ (OS_BASE+0x000F300)
KEY_COUNT equ (OS_BASE+0x000F400)
KEY_BUFF equ (OS_BASE+0x000F401)
BTN_COUNT equ (OS_BASE+0x000F500)
BTN_BUFF equ (OS_BASE+0x000F501)
CPU_FREQ equ (OS_BASE+0x000F600)
;unused ? no active references
MOUSE_PORT equ (OS_BASE+0x000F604)
;unused
PS2_CHUNK equ (OS_BASE+0x000FB00)
MOUSE_X equ (OS_BASE+0x000FB0A)
MOUSE_Y equ (OS_BASE+0x000FB0C)
MOUSE_COLOR_MEM equ (OS_BASE+0x000FB10)
COLOR_TEMP equ (OS_BASE+0x000FB30)
BTN_DOWN equ (OS_BASE+0x000FB40)
MOUSE_DOWN equ (OS_BASE+0x000FB44)
X_UNDER equ (OS_BASE+0x000FB4A)
Y_UNDER equ (OS_BASE+0x000FB4C)
ScreenBPP equ (OS_BASE+0x000FBF1)
;unused ? only one reference
MOUSE_BUFF_COUNT equ (OS_BASE+0x000FCFF)
LFBAddress equ (OS_BASE+0x000FE80)
MEM_AMOUNT equ (OS_BASE+0x000FE8C)
;LFBSize equ (OS_BASE+0x02f9050)
ScreenWidth equ (OS_BASE+0x000FE00)
ScreenHeight equ (OS_BASE+0x000FE04)
BytesPerScanLine equ (OS_BASE+0x000FE08)
SCR_MODE equ (OS_BASE+0x000FE0C)
BTN_ADDR equ (OS_BASE+0x000FE88)
SYS_SHUTDOWN equ (OS_BASE+0x000FF00)
TASK_ACTIVATE equ (OS_BASE+0x000FF01)
REDRAW_BACKGROUND equ (OS_BASE+0x000FFF0)
BANK_RW equ (OS_BASE+0x000FFF2)
MOUSE_BACKGROUND equ (OS_BASE+0x000FFF4)
DONT_DRAW_MOUSE equ (OS_BASE+0x000FFF5)
DONT_SWITCH equ (OS_BASE+0x000FFFF)
TMP_STACK_TOP equ 0x003EC00
FONT_II equ (OS_BASE+0x003EC00)
FONT_I equ (OS_BASE+0x003F600)
DRIVE_DATA equ (OS_BASE+0x0040000)
SLOT_BASE equ (OS_BASE+0x0080000)
;unused
TMP_BUFF equ (OS_BASE+0x0090000)
VGABasePtr equ (OS_BASE+0x00A0000)
RAMDISK equ (OS_BASE+0x0100000)
RAMDISK_FAT equ (OS_BASE+0x0280000)
FLOPPY_FAT equ (OS_BASE+0x0282000)
; unused?
SB16_Status equ (OS_BASE+0x02B0000)
BUTTON_INFO equ (OS_BASE+0x02C0000)
RESERVED_PORTS equ (OS_BASE+0x02D0000)
IRQ_SAVE equ (OS_BASE+0x02E0000)
BOOT_VAR equ (OS_BASE+0x02f0000)
IMG_BACKGROUND equ (OS_BASE+0x0300000)
WinMapAddress equ (OS_BASE+0x0460000)
display_data equ (OS_BASE+0x0460000)
;unused ?
HD_CACHE equ (OS_BASE+0x0600000)
stack_data_start equ (OS_BASE+0x0700000)
eth_data_start equ (OS_BASE+0x0700000)
stack_data equ (OS_BASE+0x0704000)
stack_data_end equ (OS_BASE+0x071ffff)
VMODE_BASE equ (OS_BASE+0x0760000)
resendQ equ (OS_BASE+0x0770000)
skin_data equ (OS_BASE+0x0778000)
tss_data equ (OS_BASE+0x780000)
draw_data equ (OS_BASE+0x988000)
HEAP_BASE equ (OS_BASE+0x98B000)
LFB_BASE equ 0x7DC00000
page_tabs equ 0x7FC00000
master_tab equ 0x7FDFF000
app_page_tabs equ 0x7FE00000
sys_pgdir equ OS_BASE+0x00050000
sys_master_tab equ OS_BASE+0x00051000
sys_pgmap equ OS_BASE+0x00052000
new_app_base equ 0x80000000
twdw equ (CURRENT_TASK-window_data)
std_application_base_address equ new_app_base
RING0_STACK_SIZE equ (0x2000-512) ;512 áàéò äëÿ êîíòåêñòà FPU
;PAGES_USED equ 4
PG_UNMAP equ 0x000
PG_MAP equ 0x001
PG_WRITE equ 0x002
PG_SW equ 0x003
PG_USER equ 0x005
PG_UW equ 0x007
PG_NOCACHE equ 0x018
PG_LARGE equ 0x080
PG_GLOBAL equ 0x100
;;;;;;;;;;;boot time variables
;BOOT_BPP equ 0x9000 ;byte bits per pixel
BOOT_SCANLINE equ 0x9001 ;word scanline length
BOOT_VESA_MODE equ 0x9008 ;word vesa video mode
;;BOOT_X_RES equ 0x900A ;word X res
;;BOOT_Y_RES equ 0x900C ;word Y res
;;BOOT_MOUSE_PORT equ 0x9010 ;byte mouse port - not used
BOOT_BANK_SW equ 0x9014 ;dword Vesa 1.2 pm bank switch
BOOT_LFB equ 0x9018 ;dword Vesa 2.0 LFB address
BOOT_MTRR equ 0x901C ;byte 0 or 1 : enable MTRR graphics acceleration
BOOT_LOG equ 0x901D ;byte not used anymore (0 or 1 : enable system log display)
BOOT_DIRECT_LFB equ 0x901E ;byte 0 or 1 : enable direct lfb write, paging disabled
BOOT_PCI_DATA equ 0x9020 ;8bytes pci data
BOOT_VRR equ 0x9030 ;byte VRR start enabled 1, 2-no
BOOT_IDE_BASE_ADDR equ 0x9031 ;word IDEContrRegsBaseAddr
BOOT_MEM_AMOUNT equ 0x9034 ;dword memory amount
TMP_FILE_NAME equ 0
TMP_CMD_LINE equ 1024
TMP_ICON_OFFS equ 1280
EVENT_REDRAW equ 0x00000001
EVENT_KEY equ 0x00000002
EVENT_BUTTON equ 0x00000004
EVENT_BACKGROUND equ 0x00000010
EVENT_MOUSE equ 0x00000020
EVENT_IPC equ 0x00000040
EVENT_NETWORK equ 0x00000080
EVENT_DEBUG equ 0x00000100
EVENT_EXTENDED equ 0x00000200
EV_INTR equ 1
struc SYS_VARS
{ .bpp dd ?
.scanline dd ?
.vesa_mode dd ?
.x_res dd ?
.y_res dd ?
.cpu_caps dd ?
dd ?
dd ?
dd ?
}
struc APPOBJ ;common object header
{
.magic dd ? ;
.destroy dd ? ;internal destructor
.fd dd ? ;next object in list
.bk dd ? ;prev object in list
.pid dd ? ;owner id
};
virtual at 0
APPOBJ APPOBJ
end virtual
APP_OBJ_OFFSET equ 48
APP_EV_OFFSET equ 40
struc CURSOR
{;common object header
.magic dd ? ;'CURS'
.destroy dd ? ;internal destructor
.fd dd ? ;next object in list
.bk dd ? ;prev object in list
.pid dd ? ;owner id
;cursor data
.base dd ? ;allocated memory
.hot_x dd ? ;hotspot coords
.hot_y dd ?
}
virtual at 0
CURSOR CURSOR
end virtual
CURSOR_SIZE equ 32
struc EVENT
{
.magic dd ? ;'EVNT'
.destroy dd ? ;internal destructor
.fd dd ? ;next object in list
.bk dd ? ;prev object in list
.pid dd ? ;owner id
.id dd ? ;event uid
.state dd ? ;internal flags
.code dd ?
rd 5
}
EVENT_SIZE equ 52
virtual at 0
EVENT EVENT
end virtual
struc HEAP_DATA
{
.mutex rd 1
.refcount rd 1
.heap_base rd 1
.heap_top rd 1
.app_mem rd 1
}
HEAP_DATA_SIZE equ 20
virtual at 0
HEAP_DATA HEAP_DATA
end virtual
struc BOOT_DATA
{ .bpp dd ?
.scanline dd ?
.vesa_mode dd ?
.x_res dd ?
.y_res dd ?
.mouse_port dd ?
.bank_switch dd ?
.lfb dd ?
.vesa_mem dd ?
.log dd ?
.direct_lfb dd ?
.pci_data dd ?
; dd ?
.vrr dd ?
.ide_base dd ?
.mem_amount dd ?
.pages_count dd ?
.pagemap_size dd ?
.kernel_max dd ?
.kernel_pages dd ?
.kernel_tables dd ?
.cpu_vendor dd ?
dd ?
dd ?
.cpu_sign dd ?
.cpu_info dd ?
.cpu_caps dd ?
dd ?
dd ?
}
virtual at 0
BOOT_DATA BOOT_DATA
end virtual
struc MEM_STATE
{ .mutex rd 1
.smallmap rd 1
.treemap rd 1
.topsize rd 1
.top rd 1
.smallbins rd 4*32
.treebins rd 32
}
struc PG_DATA
{ .mem_amount dd ?
.vesa_mem dd ?
.pages_count dd ?
.pages_free dd ?
.pages_faults dd ?
.pagemap_size dd ?
.kernel_max dd ?
.kernel_pages dd ?
.kernel_tables dd ?
.sys_page_dir dd ?
.pg_mutex dd ?
}
;struc LIB
;{ .lib_name rb 16
; .lib_base dd ?
; .lib_start dd ?
; .export dd ?
; .import dd ?
;}
struc SRV
{ .srv_name rb 16 ;ASCIIZ string
.magic dd ? ;+0x10 ;'SRV '
.size dd ? ;+0x14 ;size of structure SRV
.fd dd ? ;+0x18 ;next SRV descriptor
.bk dd ? ;+0x1C ;prev SRV descriptor
.base dd ? ;+0x20 ;service base address
.entry dd ? ;+0x24 ;service START function
.srv_proc dd ? ;+0x28 ;main service handler
}
SRV_FD_OFFSET equ 0x18
SRV_SIZE equ 44
struc COFF_HEADER
{ .machine dw ?
.nSections dw ?
.DataTime dd ?
.pSymTable dd ?
.nSymbols dd ?
.optHeader dw ?
.flags dw ?
};
struc COFF_SECTION
{ .Name rb 8
.VirtualSize dd ?
.VirtualAddress dd ?
.SizeOfRawData dd ?
.PtrRawData dd ?
.PtrReloc dd ?
.PtrLinenumbers dd ?
.NumReloc dw ?
.NumLinenum dw ?
.Characteristics dd ?
}
COFF_SECTION_SIZE equ 40
struc COFF_RELOC
{ .VirtualAddress dd ?
.SymIndex dd ?
.Type dw ?
}
struc COFF_SYM
{ .Name rb 8
.Value dd ?
.SectionNumber dw ?
.Type dw ?
.StorageClass db ?
.NumAuxSymbols db ?
}
CSYM_SIZE equ 18
struc IOCTL
{ .handle dd ?
.io_code dd ?
.input dd ?
.inp_size dd ?
.output dd ?
.out_size dd ?
}
virtual at 0
IOCTL IOCTL
end virtual
;virtual at 0
; LIB LIB
;end virtual
virtual at 0
SRV SRV
end virtual
virtual at 0
CFH COFF_HEADER
end virtual
virtual at 0
CFS COFF_SECTION
end virtual
virtual at 0
CRELOC COFF_RELOC
end virtual
virtual at 0
CSYM COFF_SYM
end virtual

507
kernel/branches/hd_kolibri/kernel/core/debug.inc
View File

@ -1,507 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; diamond, 2006
sys_debug_services:
cmp eax, 9
ja @f
jmp dword [sys_debug_services_table+eax*4]
@@: ret
sys_debug_services_table:
dd debug_set_event_data
dd debug_getcontext
dd debug_setcontext
dd debug_detach
dd debug_suspend
dd debug_resume
dd debug_read_process_memory
dd debug_write_process_memory
dd debug_terminate
dd debug_set_drx
debug_set_event_data:
; in: ebx = pointer
; destroys eax
mov eax, [CURRENT_TASK]
shl eax, 8
mov [eax+SLOT_BASE+APPDATA.dbg_event_mem], ebx
ret
get_debuggee_slot:
; in: ebx=PID
; out: CF=1 if error
; CF=0 and eax=slot*0x20 if ok
; out: interrupts disabled
cli
mov eax, ebx
call pid_to_slot
test eax, eax
jz .ret_bad
shl eax, 5
push ebx
mov ebx, [CURRENT_TASK]
cmp [SLOT_BASE+eax*8+APPDATA.debugger_slot], ebx
pop ebx
jnz .ret_bad
; clc ; automatically
ret
.ret_bad:
stc
ret
debug_detach:
; in: ebx=pid
; destroys eax,ebx
call get_debuggee_slot
jc .ret
and dword [eax*8+SLOT_BASE+APPDATA.debugger_slot], 0
call do_resume
.ret:
sti
ret
debug_terminate:
; in: ebx=pid
call get_debuggee_slot
jc debug_detach.ret
mov ebx, eax
shr ebx, 5
push 2
pop eax
jmp sys_system
debug_suspend:
; in: ebx=pid
; destroys eax,ebx
call get_debuggee_slot
jc .ret
mov bl, [CURRENT_TASK+eax+TASKDATA.state] ; process state
test bl, bl
jz .1
cmp bl, 5
jnz .ret
mov bl, 2
.2: mov [CURRENT_TASK+eax+TASKDATA.state], bl
.ret:
sti
ret
.1:
inc ebx
jmp .2
do_resume:
mov bl, [CURRENT_TASK+eax+TASKDATA.state]
cmp bl, 1
jz .1
cmp bl, 2
jnz .ret
mov bl, 5
.2: mov [CURRENT_TASK+eax+TASKDATA.state], bl
.ret: ret
.1: dec ebx
jmp .2
debug_resume:
; in: ebx=pid
; destroys eax,ebx
call get_debuggee_slot
jc .ret
call do_resume
.ret: sti
ret
debug_getcontext:
; in:
; ebx=pid
; ecx=sizeof(CONTEXT)
; edx->CONTEXT
; destroys eax,ecx,edx,esi,edi
cmp ecx, 28h
jnz .ret
add edx, std_application_base_address
push ebx
mov ebx, edx
call check_region
pop ebx
dec eax
jnz .ret
call get_debuggee_slot
jc .ret
imul eax, tss_step/32
add eax, tss_data
mov edi, edx
cmp [eax+TSS._cs], app_code
jnz .ring0
lea esi, [eax+TSS._eip]
shr ecx, 2
rep movsd
jmp .ret
.ring0:
; note that following code assumes that all interrupt/exception handlers
; saves ring-3 context by push ds es, pushad in this order
mov esi, [eax+TSS._esp0]
; top of ring0 stack: ring3 stack ptr (ss+esp), iret data (cs+eip+eflags), ds, es, pushad
sub esi, 8+12+8+20h
lodsd
mov [edi+24h], eax
lodsd
mov [edi+20h], eax
lodsd
mov [edi+1Ch], eax
lodsd
lodsd
mov [edi+14h], eax
lodsd
mov [edi+10h], eax
lodsd
mov [edi+0Ch], eax
lodsd
mov [edi+8], eax
add esi, 8
lodsd
mov [edi], eax
lodsd
lodsd
mov [edi+4], eax
lodsd
mov [edi+18h], eax
.ret:
sti
ret
debug_setcontext:
; in:
; ebx=pid
; ecx=sizeof(CONTEXT)
; edx->CONTEXT
; destroys eax,ecx,edx,esi,edi
cmp ecx, 28h
jnz .ret
add edx, std_application_base_address
push ebx
mov ebx, edx
call check_region
pop ebx
dec eax
jnz .ret
call get_debuggee_slot
jc .stiret
imul eax, tss_step/32
add eax, tss_data
mov esi, edx
cmp [eax+TSS._cs], app_code
jnz .ring0
lea edi, [eax+TSS._eip]
shr ecx, 2
rep movsd
jmp .stiret
.ring0:
mov edi, [eax+TSS._esp0]
sub edi, 8+12+8+20h
mov eax, [esi+24h]
stosd
mov eax, [esi+20h]
stosd
mov eax, [esi+1Ch]
stosd
scasd
mov eax, [esi+14h]
stosd
mov eax, [esi+10h]
stosd
mov eax, [esi+0Ch]
stosd
mov eax, [esi+8]
stosd
add edi, 8
mov eax, [esi]
stosd
scasd
mov eax, [esi+4]
stosd
mov eax, [esi+18h]
stosd
.stiret:
sti
.ret:
ret
debug_set_drx:
call get_debuggee_slot
jc .errret
mov ebp, eax
lea eax, [eax*8+SLOT_BASE+APPDATA.dbg_regs]
; [eax]=dr0, [eax+4]=dr1, [eax+8]=dr2, [eax+C]=dr3
; [eax+10]=dr7
add edx, std_application_base_address
jc .errret
cmp cl, 3
ja .errret
mov ebx, dr7
shr ebx, cl
shr ebx, cl
test ebx, 2 ; bit 1+2*index = G0..G3, global break enable
jnz .errret2
test ch, ch
jns .new
; clear breakpoint
movzx ecx, cl
add ecx, ecx
and dword [eax+ecx*2], 0 ; clear DR<i>
btr dword [eax+10h], ecx ; clear L<i> bit
test byte [eax+10h], 55h
jnz .okret
imul eax, ebp, tss_step/32
and byte [eax + tss_data + TSS._trap], not 1
.okret:
and dword [esp+36], 0
sti
ret
.errret:
sti
mov dword [esp+36], 1
ret
.errret2:
sti
mov dword [esp+36], 2
ret
.new:
; add new breakpoint
; cl=index; ch=flags; edx=address
test ch, 0xF0
jnz .errret
mov bl, ch
and bl, 3
cmp bl, 2
jz .errret
mov bl, ch
shr bl, 2
cmp bl, 2
jz .errret
test dl, bl
jnz .errret
or byte [eax+10h+1], 3 ; set GE and LE flags
movzx ebx, ch
movzx ecx, cl
add ecx, ecx
bts dword [eax+10h], ecx ; set L<i> flag
add ecx, ecx
mov [eax+ecx], edx ; set DR<i>
shl ebx, cl
mov edx, 0xF
shl edx, cl
not edx
and [eax+10h+2], dx
or [eax+10h+2], bx ; set R/W and LEN fields
imul eax, ebp, tss_step/32
or byte [eax + tss_data + TSS._trap], 1
jmp .okret
debug_read_process_memory:
; in:
; ebx=pid
; ecx=length
; esi->buffer in debugger
; edx=address in debuggee
; out: [esp+36]=sizeof(read)
; destroys all
add esi, std_application_base_address
push ebx
mov ebx, esi
call check_region
pop ebx
dec eax
jnz .err
call get_debuggee_slot
jc .err
shr eax, 5
mov ebx, esi
call read_process_memory
sti
mov dword [esp+36], eax
ret
.err:
or dword [esp+36], -1
ret
debug_write_process_memory:
; in:
; ebx=pid
; ecx=length
; esi->buffer in debugger
; edx=address in debuggee
; out: [esp+36]=sizeof(write)
; destroys all
add esi, std_application_base_address
push ebx
mov ebx, esi
call check_region
pop ebx
dec eax
jnz debug_read_process_memory.err
call get_debuggee_slot
jc debug_read_process_memory.err
shr eax, 5
mov ebx, esi
call write_process_memory
sti
mov [esp+36], eax
ret
debugger_notify:
; in: eax=debugger slot
; ecx=size of debug message
; [esp+4]..[esp+4+ecx]=message
; interrupts must be disabled!
; destroys all general registers
; interrupts remain disabled
xchg ebp, eax
mov edi, [timer_ticks]
add edi, 500 ; 5 sec timeout
.1:
mov eax, ebp
shl eax, 8
mov edx, [SLOT_BASE+eax+APPDATA.dbg_event_mem]
test edx, edx
jz .ret
; read buffer header
push ecx
push eax
push eax
mov eax, ebp
mov ebx, esp
mov ecx, 8
call read_process_memory
cmp eax, ecx
jz @f
add esp, 12
jmp .ret
@@:
cmp dword [ebx], 0
jg @f
.2:
pop ecx
pop ecx
pop ecx
cmp dword [CURRENT_TASK], 1
jnz .notos
cmp [timer_ticks], edi
jae .ret
.notos:
sti
call change_task
cli
jmp .1
@@:
mov ecx, [ebx+8]
add ecx, [ebx+4]
cmp ecx, [ebx]
ja .2
; advance buffer position
push ecx
mov ecx, 4
sub ebx, ecx
mov eax, ebp
add edx, ecx
call write_process_memory
pop eax
; write message
mov eax, ebp
add edx, ecx
add edx, [ebx+8]
add ebx, 20
pop ecx
pop ecx
pop ecx
call write_process_memory
; new debug event
mov eax, ebp
shl eax, 8
or byte [SLOT_BASE+eax+APPDATA.event_mask+1], 1 ; set flag 100h
.ret:
ret
debug_exc:
; int 1 = #DB
save_ring3_context
cld
mov ax, os_data
mov ds, ax
mov es, ax
mov eax, dr6
test ax, ax
jns @f
; this is exception from task switch
; set DRx registers for task and continue
mov eax, [CURRENT_TASK]
shl eax, 8
add eax, SLOT_BASE+APPDATA.dbg_regs
mov ecx, [eax+0]
mov dr0, ecx
mov ecx, [eax+4]
mov dr1, ecx
mov ecx, [eax+8]
mov dr2, ecx
mov ecx, [eax+0Ch]
mov dr3, ecx
xor ecx, ecx
mov dr6, ecx
mov ecx, [eax+10h]
mov dr7, ecx
restore_ring3_context
iretd
@@:
push eax
xor eax, eax
mov dr6, eax
; test if debugging
cli
mov eax, [CURRENT_TASK]
shl eax, 8
mov eax, [SLOT_BASE+eax+APPDATA.debugger_slot]
test eax, eax
jnz .debug
sti
; not debuggee => say error and terminate
add esp, 28h+4
mov [error_interrupt], 1
call show_error_parameters
mov edx, [TASK_BASE]
mov byte [edx+TASKDATA.state], 4
jmp change_task
.debug:
; we are debugged process, notify debugger and suspend ourself
; eax=debugger PID
pop edx
mov ebx, dr7
mov cl, not 1
.l1:
test bl, 1
jnz @f
and dl, cl
@@:
shr ebx, 2
add cl, cl
inc ecx
cmp cl, not 10h
jnz .l1
push edx ; DR6 image
mov ecx, [TASK_BASE]
push dword [ecx+TASKDATA.pid] ; PID
push 12
pop ecx
push 3 ; 3 = debug exception
call debugger_notify
pop ecx
pop ecx
pop ecx
mov edx, [TASK_BASE]
mov byte [edx+TASKDATA.state], 1 ; suspended
call change_task
restore_ring3_context
iretd

143
kernel/branches/hd_kolibri/kernel/core/detect/commouse.inc
View File

@ -1,143 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;**************************************************
;* ÏÎÈÑÊ ÌÛØÈ ÏÎ ÏÎÑËÅÄÎÂÀÒÅËÜÍÛÌ ÏÎÐÒÀÌ *
;* Ïðîöåäóðà ïîäãîòàâëèâàåò ãëîáàëüíûå ïåðåìåííûå *
;* COMPortNum è COMPortBaseAddr äëÿ ïîäïðîãðàììû *
;* óñòàíîâêè îáðàáîò÷èêà ïðåðûâàíèÿ *
;**************************************************
; Àâòîð èñõîäíîãî òåêñòà Êóëàêîâ Âëàäèìèð Ãåííàäüåâè÷.
; Àäàïòàöèÿ è äîðàáîòêà Mario79
Detect_COM_Mouse:
pusha
call MSMouseSearch
cmp AL,'M'
jne @f
mov [com1_mouse_detected],1
pusha
mov eax,4
shl eax,2
mov [irq_owner+eax],byte 1
inc dword [RESERVED_PORTS]
mov edi,[RESERVED_PORTS]
shl edi,4
mov [RESERVED_PORTS+edi+0],dword 1
mov [RESERVED_PORTS+edi+4],dword 0x3f0
mov [RESERVED_PORTS+edi+8],dword 0x3ff
popa
mov esi,boot_setmouse_type+22
call boot_log
@@:
sub [COMPortBaseAddr],100h
call MSMouseSearch
cmp AL,'M'
jne @f
mov [com2_mouse_detected],1
pusha
mov eax,3
shl eax,2
mov [irq_owner+eax],byte 1
inc dword [RESERVED_PORTS]
mov edi,[RESERVED_PORTS]
shl edi,4
mov [RESERVED_PORTS+edi+0],dword 1
mov [RESERVED_PORTS+edi+4],dword 0x2f0
mov [RESERVED_PORTS+edi+8],dword 0x2ff
popa
mov esi,boot_setmouse_type+44
call boot_log
@@:
popa
jmp end_detecting_mouse
MSMouseSearch:
; ÏÎÈÑÊ ÌÛØÈ ×ÅÐÅÇ COM-ÏÎÐÒÛ
MouseSearch:
; Óñòàíàâëèâàåì ñêîðîñòü
; ïðèåìà/ïåðåäà÷è 1200 áîä
mov DX,[COMPortBaseAddr]
add DX,3
in AL,DX
or AL,80h ;óñòàíîâèòü áèò DLAB
out DX,AL
mov DX,[COMPortBaseAddr]
mov AL,60h ;1200 áîä
out DX,AL
inc DX
mov AL,0
out DX,AL
; Óñòàíîâèòü äëèíó ñëîâà 7 áèò, 1 ñòîïîâûé áèò,
; ÷åòíîñòü íå êîíòðîëèðîâàòü
mov DX,[COMPortBaseAddr]
add DX,3
mov AL,00000010b
out DX,AL
; Çàïðåòèòü âñå ïðåðûâàíè
mov DX,[COMPortBaseAddr]
inc DX
mov AL,0
out DX,AL
; Ïðîâåðèòü, ÷òî óñòðîéñòâî ïîäêëþ÷åíî è ÿâëÿåòñ
; ìûøüþ òèïà MSMouse
; Îòêëþ÷èòü ïèòàíèå ìûøè è ïðåðûâàíè
mov DX,[COMPortBaseAddr]
add DX,4 ;ðåãèñòð óïðàâëåíèÿ ìîäåìîì
mov AL,0 ;ñáðîñèòü DTR, RTS è OUT2
out DX,AL
; Îæèäàòü 5 "òèêîâ" (0,2 ñ)
mov ecx,0xffff
dT_1:
dec ecx
cmp ecx,0
jne dT_1
mov ecx,0xffff
; Âêëþ÷èòü ïèòàíèå ìûøè
mov AL,11b ;óñòàíîâèòü DTR è RTS
out DX,AL
; Î÷èñòèòü ðåãèñòð äàííûõ
mov DX,[COMPortBaseAddr]
in AL,DX
; Öèêë îïðîñà ïîðòà
WaitData:
; Îæèäàòü åùå 10 "òèêîâ"
dec ecx
cmp ecx,0
je NoMouse
; Ïðîâåðèòü íàëè÷èå èäåíòèôèêàöèîííîãî áàéòà
mov DX,[COMPortBaseAddr]
add DX,5
in AL,DX
test AL,1 ;Äàííûå ãîòîâû?
jz WaitData
; Ââåñòè äàííûå
mov DX,[COMPortBaseAddr]
in AL,DX
NoMouse:
ret
iglobal
COMPortBaseAddr dw 3F8h
;COMPortNum dw 0
endg
iglobal
boot_setmouse_type db 'Detected - PS2 mouse',0
db 'Detected - COM1 mouse',0
db 'Detected - COM2 mouse',0
endg
end_detecting_mouse:

139
kernel/branches/hd_kolibri/kernel/core/detect/ps2mouse.inc
View File

@ -1,139 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
MouseSearch_PS2:
jmp MouseSearch_PS2_begin
mouse_error equ MouseSearch_PS2_begin.error
kb_cmd_c:
call kb_cmd
jmp check_kbd
kb_write_c:
call kb_write
jmp check_kbd
kb_read_c:
call kb_read
;jmp check_kbd
check_kbd:
cmp ah, 1
je mouse_error
ret
uglobal
mouse_cmd_byte db 0
mouse_nr_tries db 0
mouse_nr_resends db 0
mouse_error_esp dd 0
endg
mouse_cmd:
mov [mouse_cmd_byte], al
mov [mouse_nr_resends], 5
.resend:
mov bl, 0xd4
call kb_cmd_c
mov al, [mouse_cmd_byte]
call kb_write_c
call mouse_read
cmp al, 0xFA ; ack
jne .noack
ret
.noack:
cmp al, 0xFE ; resend
jne .noresend
dec [mouse_nr_resends]
jnz .resend
.noresend:
jmp mouse_error
mouse_read:
mov [mouse_nr_tries], 100
.repeat:
call kb_read
cmp ah, 1
jne .fin
mov esi, 10
call delay_ms
dec [mouse_nr_tries]
jnz .repeat
jmp mouse_error
.fin:
ret
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
MouseSearch_PS2_begin:
pushad
mov [mouse_error_esp], esp
mov bl, 0xAD ; disable keyboard interface
call kb_cmd_c
mov bl, 0xA8 ; enable mouse interface
call kb_cmd_c
mov al, 0xFF ; reset
call mouse_cmd
; now the mouse is in Reset Mode
; get the Basic Assurance Test completion code
call mouse_read
cmp al, 0xAA
jne .error ; dead mouse
; get device ID
call mouse_read
cmp al, 0x00
jne .error ; unknown device
; reset completed successfully
; enable mouse interrupt - IRQ12
mov bl, 0x20 ; read command byte
call kb_cmd_c
call kb_read_c
or al, 10b
push eax
mov bl, 0x60 ; write command byte
call kb_cmd_c
pop eax
call kb_write_c
mov al, 0xF4 ; enable data reporting
call mouse_cmd
mov [ps2_mouse_detected], 1
mov bl, 0xAE ; enable keyboard interface
call kb_cmd
mov esi, boot_setmouse_type
call boot_log
jmp .finish
.error:
mov esp, [mouse_error_esp] ; clear stack frame
mov [ps2_mouse_detected], 0
mov bl, 0xA7 ; disable mouse interface
call kb_cmd
mov bl, 0xAE ; enable keyboard interface
call kb_cmd
.finish:
popad

1084
kernel/branches/hd_kolibri/kernel/core/dll.inc
View File

File diff suppressed because it is too large Load Diff

117
kernel/branches/hd_kolibri/kernel/core/exports.inc
View File

@ -1,117 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
iglobal
szKernel db 'KERNEL', 0
szVersion db 'version',0
szRegService db 'RegService',0
szGetService db 'GetService',0
szServiceHandler db 'ServiceHandler',0
szAttachIntHandler db 'AttachIntHandler',0
szFpuSave db 'FpuSave',0
szFpuRestore db 'FpuRestore',0
szPciApi db 'PciApi', 0
szPciRead32 db 'PciRead32', 0
szPciRead8 db 'PciRead8', 0
szPciWrite8 db 'PciWrite8',0
szAllocPage db 'AllocPage',0
szAllocPages db 'AllocPages',0
szFreePage db 'FreePage',0
szGetPgAddr db 'GetPgAddr',0
szMapPage db 'MapPage',0
szMapSpace db 'MapSpace',0
szCommitPages db 'CommitPages',0
szReleasePages db 'ReleasePages',0
szAllocKernelSpace db 'AllocKernelSpace',0
szFreeKernelSpace db 'FreeKernelSpace',0
szKernelAlloc db 'KernelAlloc',0
szKernelFree db 'KernelFree',0
szUserAlloc db 'UserAlloc',0
szUserFree db 'UserFree',0
szKmalloc db 'Kmalloc',0
szKfree db 'Kfree',0
szCreateObject db 'CreateObject',0
szDestroyObject db 'DestroyObject',0
szCreateEvent db 'CreateEvent',0
szRaiseEvent db 'RaiseEvent',0
szWaitEvent db 'WaitEvent',0
szDestroyEvent db 'DestroyEvent',0
szClearEvent db 'ClearEvent',0
szLoadCursor db 'LoadCursor',0
szSetHwCursor db 'SetHwCursor',0
szHwCursorRestore db 'HwCursorRestore', 0
szHwCursorCreate db 'HwCursorCreate', 0
szSysMsgBoardStr db 'SysMsgBoardStr', 0
szGetCurrentTask db 'GetCurrentTask',0
szLFBAddress db 'LFBAddress',0
szLoadFile db 'LoadFile',0
szSendEvent db 'SendEvent',0
align 16
kernel_export:
dd szRegService , reg_service
dd szGetService , get_service
dd szServiceHandler , srv_handler
dd szAttachIntHandler, attach_int_handler
dd szFpuSave , fpu_save
dd szFpuRestore , fpu_restore
dd szPciApi , pci_api
dd szPciRead32 , pci_read32
dd szPciRead8 , pci_read8
dd szPciWrite8 , pci_write8
dd szAllocPage , alloc_page
dd szAllocPages , alloc_pages
dd szFreePage , free_page
dd szMapPage , map_page
dd szMapSpace , map_space
dd szGetPgAddr , get_pg_addr
dd szCommitPages , commit_pages ;not implemented
dd szReleasePages , release_pages
dd szAllocKernelSpace, alloc_kernel_space
dd szFreeKernelSpace , free_kernel_space
dd szKernelAlloc , kernel_alloc
dd szKernelFree , kernel_free
dd szUserAlloc , user_alloc
dd szUserFree , user_free
dd szKmalloc , malloc
dd szKfree , free
dd szCreateObject , create_kernel_object
dd szDestroyObject , destroy_kernel_object
dd szCreateEvent , create_event
dd szRaiseEvent , raise_event
dd szWaitEvent , wait_event
dd szDestroyEvent , destroy_event
dd szClearEvent , clear_event
dd szLoadCursor , load_cursor
dd szSetHwCursor , set_hw_cursor
dd szHwCursorRestore , hw_restore
dd szHwCursorCreate , create_cursor
dd szSysMsgBoardStr , sys_msg_board_str
dd szGetCurrentTask , get_curr_task
dd szLoadFile , load_file
dd szSendEvent , send_event
exp_lfb:
dd szLFBAddress , 0
dd 0
endg

283
kernel/branches/hd_kolibri/kernel/core/fpu.inc
View File

@ -1,283 +0,0 @@
$Revision: 435 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
init_fpu:
clts
fninit
bt [cpu_caps], CAPS_SSE
jnc .no_SSE
mov ebx, cr4
mov ecx, cr0
or ebx, CR4_OSFXSR+CR4_OSXMMEXPT
mov cr4, ebx
and ecx, not (CR0_MP+CR0_EM)
or ecx, CR0_NE
mov cr0, ecx
mov dword [esp-4], SSE_INIT
ldmxcsr [esp-4]
xorps xmm0, xmm0
xorps xmm1, xmm1
xorps xmm2, xmm2
xorps xmm3, xmm3
xorps xmm4, xmm4
xorps xmm5, xmm5
xorps xmm6, xmm6
xorps xmm7, xmm7
fxsave [fpu_data] ;[eax]
ret
.no_SSE:
mov ecx, cr0
and ecx, not CR0_EM
or ecx, CR0_MP+CR0_NE
mov cr0, ecx
fnsave [fpu_data]
ret
; param
; eax= 512 bytes memory area
align 4
fpu_save:
push ecx
push esi
push edi
pushfd
cli
clts
mov edi, eax
mov ecx, [fpu_owner]
mov esi, [CURRENT_TASK]
cmp ecx, esi
jne .save
call save_context
jmp .exit
.save:
mov [fpu_owner], esi
shl ecx, 8
mov eax, [ecx+SLOT_BASE+APPDATA.fpu_state]
call save_context
shl esi, 8
mov esi, [esi+SLOT_BASE+APPDATA.fpu_state]
mov ecx, 512/4
cld
rep movsd
fninit
.exit:
popfd
pop edi
pop esi
pop ecx
ret
align 4
save_context:
bt [cpu_caps], CAPS_SSE
jnc .no_SSE
fxsave [eax]
ret
.no_SSE:
fnsave [eax]
ret
align 4
fpu_restore:
push ecx
push esi
mov esi, eax
pushfd
cli
mov ecx, [fpu_owner]
mov eax, [CURRENT_TASK]
cmp ecx, eax
jne .copy
clts
bt [cpu_caps], CAPS_SSE
jnc .no_SSE
fxrstor [esi]
popfd
pop esi
pop ecx
ret
.no_SSE:
fnclex ;fix possible problems
frstor [esi]
popfd
pop esi
pop ecx
ret
.copy:
shl eax, 8
mov edi, [eax+SLOT_BASE+APPDATA.fpu_state]
mov ecx, 512/4
cld
rep movsd
popfd
pop esi
pop ecx
ret
align 4
e7: ;#NM exception handler
save_ring3_context
clts
mov ax, os_data
mov ds, ax
mov es, ax
mov ebx, [fpu_owner]
cmp ebx, [CURRENT_TASK]
je .exit
shl ebx, 8
mov eax, [ebx+SLOT_BASE+APPDATA.fpu_state]
bt [cpu_caps], CAPS_SSE
jnc .no_SSE
fxsave [eax]
mov ebx, [CURRENT_TASK]
mov [fpu_owner], ebx
shl ebx, 8
mov eax, [ebx+SLOT_BASE+APPDATA.fpu_state]
fxrstor [eax]
.exit:
restore_ring3_context
iret
.no_SSE:
fnsave [eax]
mov ebx, [CURRENT_TASK]
mov [fpu_owner], ebx
shl ebx, 8
mov eax, [ebx+SLOT_BASE+APPDATA.fpu_state]
frstor [eax]
restore_ring3_context
iret
iglobal
fpu_owner dd 1
endg
reg_eip equ ebp+4
reg_cs equ ebp+8
reg_eflags equ ebp+12
reg_esp equ ebp+16
reg_ss equ ebp+20
align 4
except_16: ;fpu native exceptions handler
push ebp
mov ebp, esp
push eax
push ebx
push ecx
push edx
mov ebx, [ss:CURRENT_TASK]
shl ebx, 8
mov eax, [ss:ebx+SLOT_BASE+APPDATA.fpu_handler]
test eax, eax
jz .default
mov ecx, [reg_eip]
mov edx, [reg_esp]
sub edx, 4
mov [ss:edx+new_app_base], ecx
mov [reg_esp], edx
mov dword [reg_eip], eax
pop edx
pop ecx
pop ebx
pop eax
leave
iretd
.default:
pop edx
pop ecx
pop ebx
pop eax
leave
save_ring3_context ;debugger support
mov bl, 16
jmp exc_c
align 4
except_19: ;sse exceptions handler
push ebp
mov ebp, esp
push eax
push ebx
push ecx
push edx
mov ebx, [ss:CURRENT_TASK]
shl ebx, 8
mov eax, [ss:ebx+SLOT_BASE+APPDATA.sse_handler]
test eax, eax
jz .default
mov ecx, [reg_eip]
mov edx, [reg_esp]
sub edx, 4
mov [ss:edx+new_app_base], ecx
mov [reg_esp], edx
mov dword [reg_eip], eax
pop edx
pop ecx
pop ebx
pop eax
leave
iretd
.default:
pop edx
pop ecx
pop ebx
pop eax
leave
save_ring3_context ;debugger support
mov bl, 19
jmp exc_c
restore reg_eip
restore reg_cs
restore reg_eflags
restore reg_esp
restore reg_ss

1095
kernel/branches/hd_kolibri/kernel/core/heap.inc
View File

File diff suppressed because it is too large Load Diff

57
kernel/branches/hd_kolibri/kernel/core/idle.inc
View File

@ -1,57 +0,0 @@
checkidle:
pushad
cmp [check_idle_semaphore],0
jne no_idle_state
call change_task
mov eax,[idlemem]
mov ebx,[timer_ticks] ;[0xfdf0]
cmp eax,ebx
jnz idle_exit
call _rdtsc
mov ecx,eax
idle_loop:
hlt
cmp [check_idle_semaphore],0
jne idle_loop_exit
mov eax,[timer_ticks] ;[0xfdf0]
cmp ebx,eax
jz idle_loop
idle_loop_exit:
mov [idlemem],eax
call _rdtsc
sub eax,ecx
mov ebx,[idleuse]
add ebx,eax
mov [idleuse],ebx
popad
ret
idle_exit:
mov ebx,[timer_ticks] ;[0xfdf0]
mov [idlemem],ebx
call change_task
popad
ret
no_idle_state:
dec [check_idle_semaphore]
mov ebx,[timer_ticks] ;[0xfdf0]
mov [idlemem],ebx
call change_task
popad
ret
uglobal
idlemem dd 0x0
idleuse dd 0x0
idleusesec dd 0x0
check_idle_semaphore dd 0x0
endg

22
kernel/branches/hd_kolibri/kernel/core/mainloop.inc
View File

@ -1,22 +0,0 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; ;
; MAIN OS LOOP START ;
; ;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
align 32
osloop:
call [draw_pointer]
call checkbuttons
call checkwindows
; call check_window_move_request
call checkmisc
call checkVga_N13
call stack_handler
call checkidle
call check_fdd_motor_status
jmp osloop
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; ;
; MAIN OS LOOP END ;
; ;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;

1001
kernel/branches/hd_kolibri/kernel/core/malloc.inc
View File

File diff suppressed because it is too large Load Diff

1662
kernel/branches/hd_kolibri/kernel/core/memory.inc
View File

File diff suppressed because it is too large Load Diff

217
kernel/branches/hd_kolibri/kernel/core/sched.inc
View File

@ -1,217 +0,0 @@
$Revision: 434 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Copyright (C) MenuetOS 2000-2004 Ville Mikael Turjanmaa ;;
;; Distributed under terms of the GNU General Public License ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; IRQ0 HANDLER (TIMER INTERRUPT) ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
align 32
irq0:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
inc dword [timer_ticks]
mov eax, [timer_ticks]
call playNote ; <<<--- Speaker driver
cmp eax,[next_usage_update]
jb .nocounter
add eax,100
mov [next_usage_update],eax
call updatecputimes
.nocounter:
cmp [DONT_SWITCH], byte 1
jne .change_task
mov al,0x20 ; send End Of Interrupt signal
mov dx,0x20
out dx,al
mov [DONT_SWITCH], byte 0
restore_ring3_context
iret
.change_task:
call update_counters
call find_next_task
mov ecx, eax
mov al,0x20 ; send End Of Interrupt signal
mov dx,0x20
out dx,al
test ecx, ecx ; if there is only one running process
jnz .return
call do_change_task
.return:
restore_ring3_context
iret
align 4
change_task:
pushfd
cli
pushad
call update_counters
; \begin{Mario79}
cmp [dma_task_switched], 1
jne .find_next_task
mov [dma_task_switched], 0
mov ebx, [dma_process]
cmp [CURRENT_TASK], ebx
je .return
mov edi, [dma_slot_ptr]
mov [CURRENT_TASK], ebx
mov [TASK_BASE], edi
jmp @f
.find_next_task:
; \end{Mario79}
call find_next_task
test eax, eax ; the same task -> skip switch
jnz .return
@@:
mov [DONT_SWITCH],byte 1
call do_change_task
.return:
popad
popfd
ret
uglobal
align 4
far_jump:
.offs dd ?
.sel dw ?
context_counter dd ? ;noname & halyavin
next_usage_update dd ?
timer_ticks dd ?
prev_slot dd ?
event_sched dd ?
endg
update_counters:
mov edi, [TASK_BASE]
mov ebx, [edi+TASKDATA.counter_add] ; time stamp counter add
call _rdtsc
sub eax, ebx
add eax, [edi+TASKDATA.counter_sum] ; counter sum
mov [edi+TASKDATA.counter_sum], eax
ret
; Find next task to execute
; result: ebx = number of the selected task
; eax = 1 if the task is the same
; edi = address of the data for the task in ebx
; [0x3000] = ebx and [0x3010] = edi
; corrupts other regs
find_next_task:
mov ebx, [CURRENT_TASK]
mov edi, [TASK_BASE]
mov [prev_slot], ebx
.waiting_for_termination:
.waiting_for_reuse:
.waiting_for_event:
.suspended:
cmp ebx, [TASK_COUNT]
jb @f
mov edi, CURRENT_TASK
xor ebx, ebx
@@:
add edi,0x20
inc ebx
mov al, byte [edi+TASKDATA.state]
test al, al
jz .found
cmp al, 1
jz .suspended
cmp al, 2
jz .suspended
cmp al, 3
je .waiting_for_termination
cmp al, 4
je .waiting_for_termination
cmp al, 9
je .waiting_for_reuse
mov [CURRENT_TASK],ebx
mov [TASK_BASE],edi
push ebx
shl ebx, 8
mov ebx, [SLOT_BASE + ebx + APPDATA.pl0_stack]
add ebx, RING0_STACK_SIZE
mov [CURRENT_RING0_ESP], ebx
pop ebx
cmp al, 5
jne .noevents
call get_event_for_app
test eax, eax
jz .waiting_for_event
mov [event_sched], eax
mov [edi+TASKDATA.state], byte 0
.noevents:
.found:
mov [CURRENT_TASK],ebx
mov [TASK_BASE],edi
call _rdtsc
mov [edi+TASKDATA.counter_add],eax
xor eax, eax
cmp ebx, [prev_slot]
sete al
ret
; in: ebx = TSS selector index
do_change_task:
shl ebx, 3
xor eax, eax
add ebx, tss0
mov [far_jump.sel], bx ; selector
mov [far_jump.offs], eax ; offset
jmp pword [far_jump]
inc [context_counter] ;noname & halyavin
ret
align 4
updatecputimes:
mov eax,[idleuse]
mov [idleusesec],eax
mov [idleuse],dword 0
mov ecx, [TASK_COUNT]
mov edi, TASK_DATA
.newupdate:
mov ebx,[edi+TASKDATA.counter_sum]
mov [edi+TASKDATA.cpu_usage],ebx
mov [edi+TASKDATA.counter_sum],dword 0
add edi,0x20
dec ecx
jnz .newupdate
ret

117
kernel/branches/hd_kolibri/kernel/core/sync.inc
View File

@ -1,117 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; Synhronization for MenuetOS. ;;
;; Author: Halyavin Andrey, halyavin@land.ru ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
if ~defined sync_inc
sync_inc_fix:
sync_inc fix sync_inc_fix
;simplest mutex.
macro SimpleMutex name
{
; iglobal
name dd 0
name#.type = 1
; endg
}
macro WaitSimpleMutex name
{
local start_wait,ok
start_wait=$
cli
cmp [name],dword 0
jz ok
sti
call change_task
jmp start_wait
ok=$
push eax
mov eax,dword [TASK_BASE+second_base_address]
mov eax,[eax+TASKDATA.pid]
mov [name],eax
pop eax
sti
}
macro ReleaseSimpleMutex name
{
mov [name],dword 0
}
macro TryWaitSimpleMutex name ;result in eax and in flags
{
local ok,try_end
cmp [name],dword 0
jz ok
xor eax,eax
jmp try_end
ok=$
xor eax,eax
inc eax
try_end=$
}
macro SimpleCriticalSection name
{
; iglobal
name dd 0
dd 0
name#.type=2
; endg
}
macro WaitSimpleCriticalSection name
{
local start_wait,first_wait,inc_counter,end_wait
push eax
mov eax,[TASK_BASE+second_base_address]
mov eax,[eax+TASKDATA.pid]
start_wait=$
cli
cmp [name],dword 0
jz first_wait
cmp [name],eax
jz inc_counter
sti
call change_task
jmp start_wait
first_wait=$
mov [name],eax
mov [name+4],dword 1
jmp end_wait
inc_counter=$
inc dword [name+4]
end_wait=$
sti
pop eax
}
macro ReleaseSimpleCriticalSection name
{
local release_end
dec dword [name+4]
jnz release_end
mov [name],dword 0
release_end=$
}
macro TryWaitSimpleCriticalSection name ;result in eax and in flags
{
local ok,try_end
mov eax,[CURRENT_TASK+second_base_address]
mov eax,[eax+TASKDATA.pid]
cmp [name],eax
jz ok
cmp [name],0
jz ok
xor eax,eax
jmp try_end
ok=$
xor eax,eax
inc eax
try_end=$
}
_cli equ call MEM_HeapLock
_sti equ call MEM_HeapUnLock
end if

849
kernel/branches/hd_kolibri/kernel/core/sys32.inc
View File

@ -1,849 +0,0 @@
$Revision: 434 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; ;;
;; MenuetOS process management, protected ring3 ;;
;; ;;
;; Distributed under GPL. See file COPYING for details. ;;
;; Copyright 2003 Ville Turjanmaa ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
align 4
idtreg:
dw 8*0x41-1
dd idts+8
build_process_gdt_tss_pointer:
mov ecx,tss_data
mov edi,0
setgdtl2:
mov [edi+gdts+ tss0 +0], word tss_step
mov [edi+gdts+ tss0 +2], cx
mov eax,ecx
shr eax,16
mov [edi+gdts+ tss0 +4], al
mov [edi+gdts+ tss0 +7], ah
mov [edi+gdts+ tss0 +5], word 01010000b *256 +11101001b
add ecx,tss_step
add edi,8
cmp edi,8*(max_processes+5)
jbe setgdtl2
ret
build_interrupt_table:
mov edi, idts+8
mov esi, sys_int
mov ecx, 0x40
@@:
lodsd
mov [edi], ax ; lower part of offset
mov [edi+2], word os_code ; segment selector
mov ax, word 10001110b shl 8 ; type: interrupt gate
mov [edi+4], eax
add edi, 8
loop @b
;mov edi,8*0x40+idts+8
mov dword [edi], (i40 and 0xFFFF) or (os_code shl 16)
mov dword [edi+4], (11101111b shl 8) or (i40 and 0xFFFF0000)
; type: trap gate
ret
iglobal
sys_int:
dd e0,debug_exc,e2,e3
dd e4,e5,e6,e7
dd e8,e9,e10,e11
dd e12,e13,page_fault_handler,e15
dd except_16, e17,e18, except_19
times 12 dd unknown_interrupt
dd irq0 , irq_serv.irq_1, p_irq2 , p_irq3 ;irq_serv.irq_3
dd p_irq4 ,irq_serv.irq_5,p_irq6,irq_serv.irq_7
dd irq_serv.irq_8, irq_serv.irq_9, irq_serv.irq_10
dd irq_serv.irq_11,p_irq12,irqD ,p_irq14,p_irq15
times 16 dd unknown_interrupt
dd i40
endg
macro save_ring3_context
{
push ds es
pushad
}
macro restore_ring3_context
{
popad
pop es ds
}
; simply return control to interrupted process
unknown_interrupt:
iret
macro exc_wo_code [num]
{
forward
e#num :
save_ring3_context
mov bl, num
jmp exc_c
}
macro exc_w_code [num]
{
forward
e#num :
add esp, 4
save_ring3_context
mov bl, num
jmp exc_c
}
exc_wo_code 0, 1, 2, 3, 4, 5, 6, 9, 15, 18
exc_w_code 8, 10, 11, 12, 13, 14, 17
exc_c:
mov ax, os_data
mov ds, ax
mov es, ax
; test if debugging
cli
mov eax, [CURRENT_TASK]
shl eax, 8
mov eax, [SLOT_BASE+eax+APPDATA.debugger_slot]
test eax, eax
jnz .debug
sti
; not debuggee => say error and terminate
add esp, 28h
movzx eax, bl
mov [error_interrupt], eax
call show_error_parameters
mov edx, [TASK_BASE]
mov [edx + TASKDATA.state], byte 4
jmp change_task
.debug:
; we are debugged process, notify debugger and suspend ourself
; eax=debugger PID
cld
movzx ecx, bl
push ecx
mov ecx, [TASK_BASE]
push dword [ecx+TASKDATA.pid] ; PID of current process
push 12
pop ecx
push 1 ; 1=exception
call debugger_notify
pop ecx
pop ecx
pop ecx
mov edx, [TASK_BASE]
mov byte [edx+TASKDATA.state], 1 ; suspended
call change_task
restore_ring3_context
iretd
writehex:
pusha
mov edi, [write_error_to]
mov esi, 8
@@:
mov ecx, eax
and ecx, 0xf
mov cl,[ecx+hexletters]
mov [edi],cl
dec edi
shr eax,4
dec esi
jnz @b
popa
ret
iglobal
hexletters db '0123456789ABCDEF'
error_interrupt dd -1
process_error db 'K : Process - forced terminate INT: 00000000',13,10,0
process_pid db 'K : Process - forced terminate PID: 00000000',13,10,0
process_eip db 'K : Process - forced terminate EIP: 00000000',13,10,0
system_error db 'K : Kernel error',13,10,0
endg
uglobal
write_error_to dd 0x0
endg
show_error_parameters:
mov [write_error_to],process_pid+43
mov eax,[CURRENT_TASK]
shl eax, 5
mov eax,[CURRENT_TASK+TASKDATA.pid+eax]
call writehex
mov [write_error_to],process_error+43
mov eax,[error_interrupt]
call writehex
cmp dword [esp+4+4], os_code ; CS
jnz @f
mov esi,system_error
call sys_msg_board_str
@@:
mov eax, [esp+4] ; EIP
mov [write_error_to],process_eip+43
call writehex
mov esi,process_error
call sys_msg_board_str
mov esi,process_pid
call sys_msg_board_str
mov esi,process_eip
call sys_msg_board_str
ret
; irq1 -> hid/keyboard.inc
macro irqh [num]
{
forward
p_irq#num :
save_ring3_context
mov edi, num
jmp irq_c
}
irqh 2,5,7,8,9,10,11
irq_c:
mov ax, os_data
mov ds, ax
mov es, ax
call irqhandler
restore_ring3_context
iret
p_irq6:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
call fdc_irq
call ready_for_next_irq
restore_ring3_context
iret
p_irq3:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
cmp [com2_mouse_detected],0
je old_irq3_handler
call check_mouse_data_com2
jmp p_irq3_1
old_irq3_handler:
mov edi,3
call irqhandler
p_irq3_1:
restore_ring3_context
iret
p_irq4:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
cmp [com1_mouse_detected],0
je old_irq4_handler
call check_mouse_data_com1
jmp p_irq4_1
old_irq4_handler:
mov edi,4
call irqhandler
p_irq4_1:
restore_ring3_context
iret
p_irq12:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
call check_mouse_data_ps2
restore_ring3_context
iret
p_irq14:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
call [irq14_func]
call ready_for_next_irq_1
restore_ring3_context
iret
p_irq15:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
call [irq15_func]
call ready_for_next_irq_1
restore_ring3_context
iret
ready_for_next_irq:
mov [check_idle_semaphore],5
mov al, 0x20
out 0x20, al
ret
ready_for_next_irq_1:
mov [check_idle_semaphore],5
mov al, 0x20
out 0xa0,al
out 0x20, al
ret
irqD:
save_ring3_context
mov ax, os_data
mov ds, ax
mov es, ax
mov dx,0xf0
mov al,0
out dx,al
mov dx,0xa0
mov al,0x20
out dx,al
mov dx,0x20
out dx,al
restore_ring3_context
iret
irqhandler:
push edi
mov esi,edi ; 1
shl esi,6 ; 1
add esi,irq00read ; 1
shl edi,12 ; 1
add edi,IRQ_SAVE
mov ecx,16
mov [check_idle_semaphore],5
irqnewread:
dec ecx
js irqover
mov dx,[esi] ; 2+
cmp dx,0 ; 1
jz irqover
cmp [esi+3],byte 1 ; 2 ; byte read
jne noirqbyte ; 4-11
in al,dx
mov edx,[edi]
cmp edx,4000
je irqfull
mov ebx,edi
add ebx,0x10
add ebx,edx
mov [ebx],al
inc edx
mov [edi],edx
add esi,4
jmp irqnewread
noirqbyte:
cmp [esi+3],byte 2 ; word read
jne noirqword
in ax,dx
mov edx,[edi]
cmp edx,4000
je irqfull
mov ebx,edi
add ebx,0x10
add ebx,edx
mov [ebx],ax
add edx,2
mov [edi],edx
add esi,4
jmp irqnewread
noirqword:
irqfull:
irqover:
mov al,0x20 ; ready for next irq
out 0x20,al
pop ebx
cmp ebx,7
jbe noa0
out 0xa0,al
noa0:
ret
set_application_table_status:
push eax
mov eax,[CURRENT_TASK]
shl eax, 5
add eax,CURRENT_TASK+TASKDATA.pid
mov eax,[eax]
mov [application_table_status],eax
pop eax
ret
clear_application_table_status:
push eax
mov eax,[CURRENT_TASK]
shl eax, 5
add eax,CURRENT_TASK+TASKDATA.pid
mov eax,[eax]
cmp eax,[application_table_status]
jne apptsl1
mov [application_table_status],0
apptsl1:
pop eax
ret
sys_resize_app_memory:
; eax = 1 - resize
; ebx = new amount of memory
cmp eax,1
jne .no_application_mem_resize
stdcall new_mem_resize, ebx
mov [esp+36], eax
ret
.no_application_mem_resize:
ret
sys_threads:
; eax=1 create thread
;
; ebx=thread start
; ecx=thread stack value
;
; on return : eax = pid
jmp new_sys_threads
iglobal
process_terminating db 'K : Process - terminating',13,10,0
process_terminated db 'K : Process - done',13,10,0
msg_obj_destroy db 'K : destroy app object',13,10,0
endg
; param
; esi= slot
terminate: ; terminate application
.slot equ esp ;locals
push esi ;save .slot
shl esi, 8
cmp [SLOT_BASE+esi+APPDATA.dir_table], 0
jne @F
add esp, 4
ret
@@:
mov esi,process_terminating
call sys_msg_board_str
@@:
cli
cmp [application_table_status],0
je term9
sti
call change_task
jmp @b
term9:
call set_application_table_status
mov esi, [.slot]
shl esi,8
add esi, SLOT_BASE+APP_OBJ_OFFSET
@@:
mov eax, [esi+APPOBJ.fd]
test eax, eax
jz @F
cmp eax, esi
je @F
push esi
call [eax+APPOBJ.destroy]
mov esi, msg_obj_destroy
call sys_msg_board_str
pop esi
jmp @B
@@:
mov eax, [.slot]
shl eax, 8
mov eax,[SLOT_BASE+eax+APPDATA.dir_table]
stdcall destroy_app_space, eax
mov esi, [.slot]
cmp [fpu_owner],esi ; if user fpu last -> fpu user = 1
jne @F
mov [fpu_owner],1
mov eax, [256+SLOT_BASE+APPDATA.fpu_state]
clts
bt [cpu_caps], CAPS_SSE
jnc .no_SSE
fxrstor [eax]
jmp @F
.no_SSE:
fnclex
frstor [eax]
@@:
mov [KEY_COUNT],byte 0 ; empty keyboard buffer
mov [BTN_COUNT],byte 0 ; empty button buffer
; remove defined hotkeys
mov eax, hotkey_list
.loop:
cmp [eax+8], esi
jnz .cont
mov ecx, [eax]
jecxz @f
push dword [eax+12]
pop dword [ecx+12]
@@:
mov ecx, [eax+12]
push dword [eax]
pop dword [ecx]
xor ecx, ecx
mov [eax], ecx
mov [eax+4], ecx
mov [eax+8], ecx
mov [eax+12], ecx
.cont:
add eax, 16
cmp eax, hotkey_list+256*16
jb .loop
; remove hotkeys in buffer
mov eax, hotkey_buffer
.loop2:
cmp [eax], esi
jnz .cont2
and dword [eax+4], 0
and dword [eax], 0
.cont2:
add eax, 8
cmp eax, hotkey_buffer+120*8
jb .loop2
mov ecx,esi ; remove buttons
bnewba2:
mov edi,[BTN_ADDR]
mov eax,edi
cld
movzx ebx,word [edi]
inc bx
bnewba:
dec bx
jz bnmba
add eax,0x10
cmp cx,[eax]
jnz bnewba
pusha
mov ecx,ebx
inc ecx
shl ecx,4
mov ebx,eax
add eax,0x10
call memmove
dec dword [edi]
popa
jmp bnewba2
bnmba:
pusha ; save window coordinates for window restoring
cld
shl esi,5
add esi,window_data
mov eax,[esi+WDATA.box.left]
mov [dlx],eax
add eax,[esi+WDATA.box.width]
mov [dlxe],eax
mov eax,[esi+WDATA.box.top]
mov [dly],eax
add eax,[esi+WDATA.box.height]
mov [dlye],eax
xor eax, eax
mov [esi+WDATA.box.left],eax
mov [esi+WDATA.box.width],eax
mov [esi+WDATA.box.top],eax
mov [esi+WDATA.box.height],eax
mov [esi+WDATA.cl_workarea],eax
mov [esi+WDATA.cl_titlebar],eax
mov [esi+WDATA.cl_frames],eax
mov dword [esi+WDATA.reserved],eax ; clear all flags: wstate, redraw, wdrawn
lea edi, [esi-window_data+draw_data]
mov ecx,32/4
rep stosd
popa
; debuggee test
pushad
mov edi, esi
shl edi, 5
mov eax, [SLOT_BASE+edi*8+APPDATA.debugger_slot]
test eax, eax
jz .nodebug
push 8
pop ecx
push dword [CURRENT_TASK+edi+TASKDATA.pid] ; PID
push 2
call debugger_notify
pop ecx
pop ecx
.nodebug:
popad
mov ebx, [.slot]
shl ebx, 8
mov ebx,[SLOT_BASE+ebx+APPDATA.pl0_stack]
stdcall kernel_free, ebx
mov edi, [.slot]
shl edi,8
add edi,SLOT_BASE
mov eax, 0x20202020
stosd
stosd
stosd
mov ecx,244/4
xor eax, eax
rep stosd
; activate window
movzx eax, word [WIN_STACK + esi*2]
cmp eax, [TASK_COUNT]
jne .dont_activate
pushad
.check_next_window:
dec eax
cmp eax, 1
jbe .nothing_to_activate
lea esi, [WIN_POS+eax*2]
movzx edi, word [esi] ; edi = process
shl edi, 5
cmp [CURRENT_TASK + edi + TASKDATA.state], byte 9 ; skip dead slots
je .check_next_window
add edi, window_data
; \begin{diamond}[19.09.2006]
; skip minimized windows
test [edi + WDATA.fl_wstate], WSTATE_MINIMIZED
jnz .check_next_window
; \end{diamond}
call waredraw
.nothing_to_activate:
popad
.dont_activate:
push esi ; remove hd1 & cd & flp reservation
shl esi, 5
mov esi, [esi+CURRENT_TASK+TASKDATA.pid]
cmp [hd1_status], esi
jnz @f
call free_hd_channel
mov [hd1_status], 0
@@:
cmp [cd_status], esi
jnz @f
call free_cd_channel
mov [cd_status], 0
@@:
cmp [flp_status], esi
jnz @f
mov [flp_status], 0
@@:
pop esi
pusha ; remove all irq reservations
mov eax,esi
shl eax, 5
mov eax,[eax+CURRENT_TASK+TASKDATA.pid]
mov edi,irq_owner
mov ecx,16
newirqfree:
scasd
jne nofreeirq
mov [edi-4],dword 0
nofreeirq:
loop newirqfree
popa
pusha ; remove all port reservations
mov edx,esi
shl edx, 5
add edx,CURRENT_TASK
mov edx,[edx+TASKDATA.pid]
rmpr0:
mov esi,[RESERVED_PORTS]
cmp esi,0
je rmpr9
rmpr3:
mov edi,esi
shl edi,4
add edi,RESERVED_PORTS
cmp edx,[edi]
je rmpr4
dec esi
jnz rmpr3
jmp rmpr9
rmpr4:
mov ecx,256
sub ecx,esi
shl ecx,4
mov esi,edi
add esi,16
cld
rep movsb
dec dword [RESERVED_PORTS]
jmp rmpr0
rmpr9:
popa
mov edi,esi ; do not run this process slot
shl edi, 5
mov [edi+CURRENT_TASK + TASKDATA.state],byte 9
; debugger test - terminate all debuggees
mov eax, 2
mov ecx, SLOT_BASE+2*0x100+APPDATA.debugger_slot
.xd0:
cmp eax, [TASK_COUNT]
ja .xd1
cmp dword [ecx], esi
jnz @f
and dword [ecx], 0
pushad
xchg eax, ebx
mov eax, 2
call sys_system
popad
@@:
inc eax
add ecx, 0x100
jmp .xd0
.xd1:
; call systest
sti ; .. and life goes on
mov eax, [dlx]
mov ebx, [dly]
mov ecx, [dlxe]
mov edx, [dlye]
call calculatescreen
xor eax, eax
xor esi, esi
call redrawscreen
mov [MOUSE_BACKGROUND],byte 0 ; no mouse background
mov [DONT_DRAW_MOUSE],byte 0 ; draw mouse
mov [application_table_status],0
mov esi,process_terminated
call sys_msg_board_str
add esp, 4
ret
restore .slot
iglobal
boot_sched_1 db 'Building gdt tss pointer',0
boot_sched_2 db 'Building IDT table',0
endg
build_scheduler:
; mov esi,boot_sched_1
; call boot_log
call build_process_gdt_tss_pointer
; mov esi,boot_sched_2
; call boot_log
call build_interrupt_table
ret

238
kernel/branches/hd_kolibri/kernel/core/syscall.inc
View File

@ -1,238 +0,0 @@
$Revision: 434 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; SYSTEM CALL ENTRY ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
align 32
i40:
; diamond, 27.03.2007: handler does not require disabled interrupts
; so interrupts remain enabled when calling int 0x40
push ds es
pushad
cld
mov ax,word os_data
mov ds,ax
mov es,ax
; load all registers in crossed order
mov eax, ebx
mov ebx, ecx
mov ecx, edx
mov edx, esi
mov esi, edi
mov edi, [esp+28]
; enable interupts - a task switch or an IRQ _CAN_ interrupt i40 handler
; sti
push eax
and edi,0xff
call dword [servetable+edi*4]
pop eax
; cli
popad
pop es ds
iretd
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; SYSENTER ENTRY ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;uglobal
;times 100 db ?
;sysenter_stack:
;endg
align 32
SYSENTER_VAR equ 0
sysenter_entry:
; Íàñòðàèâàåì ñòåê
; cli sysenter clear IF
; push eax
; mov eax, [ss:CURRENT_TASK]
; shl eax, 8
; mov eax, [ss:SLOT_BASE + eax + APPDATA.pl0_stack]
; lea esp, [eax + RING0_STACK_SIZE] ; configure ESP
; mov eax, [ss:sysenter_stack - 4] ; eax - original eax, from app
mov esp, [ss:CURRENT_RING0_ESP]
sti
;------------------
push ds es
pushad
cld
mov ax, word os_data
mov ds, ax
mov es, ax
mov eax, ebx
mov ebx, ecx
mov ecx, edx
mov edx, esi
mov esi, edi
mov edi, [esp + 28]
push eax
and edi, 0xff
call dword [servetable + edi * 4]
pop eax
popad
pop es ds
;------------------
mov edx, [SYSENTER_VAR] ; eip
mov ecx, [SYSENTER_VAR + 4] ; esp
sysexit
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; SYSCALL ENTRY ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
align 32
syscall_entry:
; cli syscall clear IF
xchg esp, [ss:CURRENT_RING0_ESP]
push ecx
lea ecx, [esp+4]
xchg ecx, [ss:CURRENT_RING0_ESP]
sti
push ecx
mov ecx, [ecx]
; mov [ss:sysenter_stack - 4], eax
; mov eax, [ss:CURRENT_TASK]
; shl eax, 8
; mov eax, [ss:SLOT_BASE + eax + APPDATA.pl0_stack]
; lea esp, [eax + RING0_STACK_SIZE] ; configure ESP
; mov eax, [ss:sysenter_stack - 4] ; eax - original eax, from app
;------------------
push ds es
pushad
cld
mov ax, word os_data
mov ds, ax
mov es, ax
mov eax, ebx
mov ebx, ecx
mov ecx, edx
mov edx, esi
mov esi, edi
mov edi, [esp + 28]
push eax
and edi, 0xff
call dword [servetable + edi * 4]
pop eax
popad
pop es ds
;------------------
mov ecx, [ss:esp+4]
pop esp
sysret
iglobal
;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; SYSTEM FUNCTIONS TABLE ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;
align 4
servetable:
dd sys_drawwindow ; 0-DrawWindow
dd syscall_setpixel ; 1-SetPixel
dd sys_getkey ; 2-GetKey
dd sys_clock ; 3-GetTime
dd syscall_writetext ; 4-WriteText
dd delay_hs ; 5-DelayHs
dd syscall_openramdiskfile ; 6-OpenRamdiskFile
dd syscall_putimage ; 7-PutImage
dd sys_button ; 8-DefineButton
dd sys_cpuusage ; 9-GetProcessInfo
dd sys_waitforevent ; 10-WaitForEvent
dd sys_getevent ; 11-CheckForEvent
dd sys_redrawstat ; 12-BeginDraw and EndDraw
dd syscall_drawrect ; 13-DrawRect
dd syscall_getscreensize ; 14-GetScreenSize
dd sys_background ; 15-bgr
dd sys_cachetodiskette ; 16-FlushFloppyCache
dd sys_getbutton ; 17-GetButton
dd sys_system ; 18-System Services
dd paleholder;undefined_syscall ; 19-reserved
dd sys_midi ; 20-ResetMidi and OutputMidi
dd sys_setup ; 21-SetMidiBase,SetKeymap,SetShiftKeymap,.
dd sys_settime ; 22-setting date,time,clock and alarm-clock
dd sys_wait_event_timeout ; 23-TimeOutWaitForEvent
dd syscall_cdaudio ; 24-PlayCdTrack,StopCd and GetCdPlaylist
dd sys_sb16 ; 25-SetSb16
dd sys_getsetup ; 26-GetMidiBase,GetKeymap,GetShiftKeymap,.
dd undefined_syscall ; 27-reserved
dd sys_sb16II ; 28-SetSb16
dd sys_date ; 29-GetDate
dd undefined_syscall ; 30-reserved
dd undefined_syscall ; 31-reserved
dd syscall_delramdiskfile ; 32-DelRamdiskFile
dd syscall_writeramdiskfile; 33-WriteRamdiskFile
dd undefined_syscall ; 34-reserved
dd syscall_getpixel ; 35-GetPixel
dd syscall_readstring ; 36-ReadString (not yet ready)
dd readmousepos ; 37-GetMousePosition_ScreenRelative,.
dd syscall_drawline ; 38-DrawLine
dd sys_getbackground ; 39-GetBackgroundSize,ReadBgrData,.
dd set_app_param ; 40-WantEvents
dd syscall_getirqowner ; 41-GetIrqOwner
dd get_irq_data ; 42-ReadIrqData
dd sys_outport ; 43-SendDeviceData
dd sys_programirq ; 44-ProgramIrqs
dd reserve_free_irq ; 45-ReserveIrq and FreeIrq
dd syscall_reserveportarea ; 46-ReservePortArea and FreePortArea
dd display_number ; 47-WriteNum
dd display_settings ; 48-SetRedrawType and SetButtonType
dd sys_apm ; 49-Advanced Power Management (APM)
dd random_shaped_window ; 50-Window shape & scale
dd syscall_threads ; 51-Threads
dd stack_driver_stat ; 52-Stack driver status
dd socket ; 53-Socket interface
dd user_events ; 54-User events
dd sound_interface ; 55-Sound interface
dd undefined_syscall ; 56-reserved
dd undefined_syscall ; 57-reserved
dd file_system ; 58-Common file system interface
dd undefined_syscall ; 59-reserved
dd sys_IPC ; 60-Inter Process Communication
dd sys_gs ; 61-Direct graphics access
dd sys_pci ; 62-PCI functions
dd sys_msg_board ; 63-System message board
dd sys_resize_app_memory ; 64-Resize application memory usage
dd syscall_putimage_palette; 65-PutImagePalette
dd sys_process_def ; 66-Process definitions - keyboard
dd sys_window_move ; 67-Window move or resize
dd new_services ; 68-Some internal services
dd sys_debug_services ; 69-Debug
dd file_system_lfn ; 70-Common file system interface, version 2
dd syscall_windowsettings ; 71-Window settings
times 255 - ( ($-servetable) /4 ) dd undefined_syscall
dd sys_end ; -1-end application
endg

4012
kernel/branches/hd_kolibri/kernel/core/sysfn.inc
View File

File diff suppressed because it is too large Load Diff

1133
kernel/branches/hd_kolibri/kernel/core/taskman.inc
View File

File diff suppressed because it is too large Load Diff

55
kernel/branches/hd_kolibri/kernel/core/vmodeint.inc
View File

@ -1,55 +0,0 @@
$Revision: 431 $
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;
; Call of videomode driver's functions
;
; (Add in System function 21 (and/or 26) as a subfunction 13)
;
; Author: Trans
; Date: 19.07.2003
;
; Include in MeOS kernel and compile with FASM
;
uglobal
old_screen_width dd ?
old_screen_height dd ?
endg
cmp eax,13 ; CALL VIDEOMODE DRIVER FUNCTIONS
jne .no_vmode_drv_access
pushd [ScreenWidth] [ScreenHeight]
popd [old_screen_height] [old_screen_width]
or eax,-1 ; If driver is absent then eax does not change
call 0x760100 ; Entry point of video driver
mov [esp+36],eax
mov [esp+24],ebx
mov [esp+32],ecx
; mov [esp+28],edx
mov eax,[old_screen_width]
mov ebx,[old_screen_height]
sub eax,[ScreenWidth]
jnz @f
sub ebx,[ScreenHeight]
jz .resolution_wasnt_changed
jmp .lp1
@@: sub ebx,[ScreenHeight]
.lp1: sub [screen_workarea.right],eax
sub [screen_workarea.bottom],ebx
call repos_windows
mov eax, 0
mov ebx, 0
mov ecx, [ScreenWidth]
mov edx, [ScreenHeight]
call calculatescreen
.resolution_wasnt_changed:
ret
.no_vmode_drv_access:

347
kernel/branches/hd_kolibri/kernel/docs/COPYING.TXT
View File

@ -1,347 +0,0 @@
GNU GENERAL PUBLIC LICENSE
Version 2, June 1991
Copyright (C) 1989, 1991 Free Software Foundation, Inc.
675 Mass Ave, Cambridge, MA 02139, USA
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Preamble
The licenses for most software are designed to take away your
freedom to share and change it. By contrast, the GNU General Public
License is intended to guarantee your freedom to share and change free
software--to make sure the software is free for all its users. This
General Public License applies to most of the Free Software
Foundation's software and to any other program whose authors commit to
using it. (Some other Free Software Foundation software is covered by
the GNU Library General Public License instead.) You can apply it to
your programs, too.
When we speak of free software, we are referring to freedom, not
price. Our General Public Licenses are designed to make sure that you
have the freedom to distribute copies of free software (and charge for
this service if you wish), that you receive source code or can get it
if you want it, that you can change the software or use pieces of it
in new free programs; and that you know you can do these things.
To protect your rights, we need to make restrictions that forbid
anyone to deny you these rights or to ask you to surrender the rights.
These restrictions translate to certain responsibilities for you if you
distribute copies of the software, or if you modify it.
For example, if you distribute copies of such a program, whether
gratis or for a fee, you must give the recipients all the rights that
you have. You must make sure that they, too, receive or can get the
source code. And you must show them these terms so they know their
rights.
We protect your rights with two steps: (1) copyright the software, and
(2) offer you this license which gives you legal permission to copy,
distribute and/or modify the software.
Also, for each author's protection and ours, we want to make certain
that everyone understands that there is no warranty for this free
software. If the software is modified by someone else and passed on, we
want its recipients to know that what they have is not the original, so
that any problems introduced by others will not reflect on the original
authors' reputations.
Finally, any free program is threatened constantly by software
patents. We wish to avoid the danger that redistributors of a free
program will individually obtain patent licenses, in effect making the
program proprietary. To prevent this, we have made it clear that any
patent must be licensed for everyone's free use or not licensed at all.
The precise terms and conditions for copying, distribution and
modification follow.
GNU GENERAL PUBLIC LICENSE
TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
0. This License applies to any program or other work which contains
a notice placed by the copyright holder saying it may be distributed
under the terms of this General Public License. The "Program", below,
refers to any such program or work, and a "work based on the Program"
means either the Program or any derivative work under copyright law:
that is to say, a work containing the Program or a portion of it,
either verbatim or with modifications and/or translated into another
language. (Hereinafter, translation is included without limitation in
the term "modification".) Each licensee is addressed as "you".
Activities other than copying, distribution and modification are not
covered by this License; they are outside its scope. The act of
running the Program is not restricted, and the output from the Program
is covered only if its contents constitute a work based on the
Program (independent of having been made by running the Program).
Whether that is true depends on what the Program does.
1. You may copy and distribute verbatim copies of the Program's
source code as you receive it, in any medium, provided that you
conspicuously and appropriately publish on each copy an appropriate
copyright notice and disclaimer of warranty; keep intact all the
notices that refer to this License and to the absence of any warranty;
and give any other recipients of the Program a copy of this License
along with the Program.
You may charge a fee for the physical act of transferring a copy, and
you may at your option offer warranty protection in exchange for a fee.
2. You may modify your copy or copies of the Program or any portion
of it, thus forming a work based on the Program, and copy and
distribute such modifications or work under the terms of Section 1
above, provided that you also meet all of these conditions:
a) You must cause the modified files to carry prominent notices
stating that you changed the files and the date of any change.
b) You must cause any work that you distribute or publish, that in
whole or in part contains or is derived from the Program or any
part thereof, to be licensed as a whole at no charge to all third
parties under the terms of this License.
c) If the modified program normally reads commands interactively
when run, you must cause it, when started running for such
interactive use in the most ordinary way, to print or display an
announcement including an appropriate copyright notice and a
notice that there is no warranty (or else, saying that you provide
a warranty) and that users may redistribute the program under
these conditions, and telling the user how to view a copy of this
License. (Exception: if the Program itself is interactive but
does not normally print such an announcement, your work based on
the Program is not required to print an announcement.)
These requirements apply to the modified work as a whole. If
identifiable sections of that work are not derived from the Program,
and can be reasonably considered independent and separate works in
themselves, then this License, and its terms, do not apply to those
sections when you distribute them as separate works. But when you
distribute the same sections as part of a whole which is a work based
on the Program, the distribution of the whole must be on the terms of
this License, whose permissions for other licensees extend to the
entire whole, and thus to each and every part regardless of who wrote it.
Thus, it is not the intent of this section to claim rights or contest
your rights to work written entirely by you; rather, the intent is to
exercise the right to control the distribution of derivative or
collective works based on the Program.
In addition, mere aggregation of another work not based on the Program
with the Program (or with a work based on the Program) on a volume of
a storage or distribution medium does not bring the other work under
the scope of this License.
3. You may copy and distribute the Program (or a work based on it,
under Section 2) in object code or executable form under the terms of
Sections 1 and 2 above provided that you also do one of the following:
a) Accompany it with the complete corresponding machine-readable
source code, which must be distributed under the terms of Sections
1 and 2 above on a medium customarily used for software interchange; or,
b) Accompany it with a written offer, valid for at least three
years, to give any third party, for a charge no more than your
cost of physically performing source distribution, a complete
machine-readable copy of the corresponding source code, to be
distributed under the terms of Sections 1 and 2 above on a medium
customarily used for software interchange; or,
c) Accompany it with the information you received as to the offer
to distribute corresponding source code. (This alternative is
allowed only for noncommercial distribution and only if you
received the program in object code or executable form with such
an offer, in accord with Subsection b above.)
The source code for a work means the preferred form of the work for
making modifications to it. For an executable work, complete source
code means all the source code for all modules it contains, plus any
associated interface definition files, plus the scripts used to
control compilation and installation of the executable. However, as a
special exception, the source code distributed need not include
anything that is normally distributed (in either source or binary
form) with the major components (compiler, kernel, and so on) of the
operating system on which the executable runs, unless that component
itself accompanies the executable.
If distribution of executable or object code is made by offering
access to copy from a designated place, then offering equivalent
access to copy the source code from the same place counts as
distribution of the source code, even though third parties are not
compelled to copy the source along with the object code.
4. You may not copy, modify, sublicense, or distribute the Program
except as expressly provided under this License. Any attempt
otherwise to copy, modify, sublicense or distribute the Program is
void, and will automatically terminate your rights under this License.
However, parties who have received copies, or rights, from you under
this License will not have their licenses terminated so long as such
parties remain in full compliance.
5. You are not required to accept this License, since you have not
signed it. However, nothing else grants you permission to modify or
distribute the Program or its derivative works. These actions are
prohibited by law if you do not accept this License. Therefore, by
modifying or distributing the Program (or any work based on the
Program), you indicate your acceptance of this License to do so, and
all its terms and conditions for copying, distributing or modifying
the Program or works based on it.
6. Each time you redistribute the Program (or any work based on the
Program), the recipient automatically receives a license from the
original licensor to copy, distribute or modify the Program subject to
these terms and conditions. You may not impose any further
restrictions on the recipients' exercise of the rights granted herein.
You are not responsible for enforcing compliance by third parties to
this License.
7. If, as a consequence of a court judgment or allegation of patent
infringement or for any other reason (not limited to patent issues),
conditions are imposed on you (whether by court order, agreement or
otherwise) that contradict the conditions of this License, they do not
excuse you from the conditions of this License. If you cannot
distribute so as to satisfy simultaneously your obligations under this
License and any other pertinent obligations, then as a consequence you
may not distribute the Program at all. For example, if a patent
license would not permit royalty-free redistribution of the Program by
all those who receive copies directly or indirectly through you, then
the only way you could satisfy both it and this License would be to
refrain entirely from distribution of the Program.
If any portion of this section is held invalid or unenforceable under
any particular circumstance, the balance of the section is intended to
apply and the section as a whole is intended to apply in other
circumstances.
It is not the purpose of this section to induce you to infringe any
patents or other property right claims or to contest validity of any
such claims; this section has the sole purpose of protecting the
integrity of the free software distribution system, which is
implemented by public license practices. Many people have made
generous contributions to the wide range of software distributed
through that system in reliance on consistent application of that
system; it is up to the author/donor to decide if he or she is willing
to distribute software through any other system and a licensee cannot
impose that choice.
This section is intended to make thoroughly clear what is believed to
be a consequence of the rest of this License.
8. If the distribution and/or use of the Program is restricted in
certain countries either by patents or by copyrighted interfaces, the
original copyright holder who places the Program under this License
may add an explicit geographical distribution limitation excluding
those countries, so that distribution is permitted only in or among
countries not thus excluded. In such case, this License incorporates
the limitation as if written in the body of this License.
9. The Free Software Foundation may publish revised and/or new versions
of the General Public License from time to time. Such new versions will
be similar in spirit to the present version, but may differ in detail to
address new problems or concerns.
Each version is given a distinguishing version number. If the Program
specifies a version number of this License which applies to it and "any
later version", you have the option of following the terms and conditions
either of that version or of any later version published by the Free
Software Foundation. If the Program does not specify a version number of
this License, you may choose any version ever published by the Free Software
Foundation.
10. If you wish to incorporate parts of the Program into other free
programs whose distribution conditions are different, write to the author
to ask for permission. For software which is copyrighted by the Free
Software Foundation, write to the Free Software Foundation; we sometimes
make exceptions for this. Our decision will be guided by the two goals
of preserving the free status of all derivatives of our free software and
of promoting the sharing and reuse of software generally.
NO WARRANTY
11. BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY
FOR THE PROGRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN
OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES
PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED
OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS
TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE
PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING,
REPAIR OR CORRECTION.
12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR
REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES,
INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING
OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED
TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY
YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER
PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGES.
END OF TERMS AND CONDITIONS
Appendix: How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
convey the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) 19yy <name of author>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
Also add information on how to contact you by electronic and paper mail.
If the program is interactive, make it output a short notice like this
when it starts in an interactive mode:
Gnomovision version 69, Copyright (C) 19yy name of author
Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, the commands you use may
be called something other than `show w' and `show c'; they could even be
mouse-clicks or menu items--whatever suits your program.
You should also get your employer (if you work as a programmer) or your
school, if any, to sign a "copyright disclaimer" for the program, if
necessary. Here is a sample; alter the names:
Yoyodyne, Inc., hereby disclaims all copyright interest in the program
`Gnomovision' (which makes passes at compilers) written by James Hacker.
<signature of Ty Coon>, 1 April 1989
Ty Coon, President of Vice
This General Public License does not permit incorporating your program into
proprietary programs. If your program is a subroutine library, you may
consider it more useful to permit linking proprietary applications with the
library. If this is what you want to do, use the GNU Library General
Public License instead of this License.

518
kernel/branches/hd_kolibri/kernel/docs/apm.txt
View File

@ -1,518 +0,0 @@
--------p-155300-----------------------------
INT 15 - Advanced Power Management v1.0+ - INSTALLATION CHECK
AX = 5300h
BX = device ID of system BIOS (0000h)
Return: CF clear if successful
AH = major version (BCD)
AL = minor version (BCD)
BX = 504Dh ("PM")
CX = flags (see #00472)
CF set on error
AH = error code (06h,09h,86h) (see #00473)
BUG: early versions of the Award Modular BIOS with built-in APM support
reportedly do not set BX on return
Bitfields for APM flags:
Bit(s) Description (Table 00472)
0 16-bit protected mode interface supported
1 32-bit protected mode interface supported
2 CPU idle call reduces processor speed
3 BIOS power management disabled
4 BIOS power management disengaged (APM v1.1)
5-7 reserved
(Table 00473)
Values for APM error code:
01h power management functionality disabled
02h interface connection already in effect
03h interface not connected
04h real-mode interface not connected
05h 16-bit protected-mode interface already connected
06h 16-bit protected-mode interface not supported
07h 32-bit protected-mode interface already connected
08h 32-bit protected-mode interface not supported
09h unrecognized device ID
0Ah invalid parameter value in CX
0Bh (APM v1.1) interface not engaged
0Ch (APM v1.2) function not supported
0Dh (APM v1.2) Resume Timer disabled
0Eh-1Fh reserved for other interface and general errors
20h-3Fh reserved for CPU errors
40h-5Fh reserved for device errors
60h can't enter requested state
61h-7Fh reserved for other system errors
80h no power management events pending
81h-85h reserved for other power management event errors
86h APM not present
87h-9Fh reserved for other power management event errors
A0h-FEh reserved
FFh undefined
--------p-155301-----------------------------
INT 15 - Advanced Power Management v1.0+ - CONNECT REAL-MODE INTERFACE
AX = 5301h
BX = device ID of system BIOS (0000h)
Return: CF clear if successful
CF set on error
AH = error code (02h,05h,07h,09h) (see #00473)
Note: on connection, an APM v1.1 or v1.2 BIOS switches to APM v1.0
compatibility mode until it is informed that the user supports a
newer version of APM (see AX=530Eh)
SeeAlso: AX=5302h,AX=5303h,AX=5304h
--------p-155302-----------------------------
INT 15 R - Advanced Power Management v1.0+ - CONNECT 16-BIT PROTMODE INTERFACE
AX = 5302h
BX = device ID of system BIOS (0000h)
Return: CF clear if successful
AX = real-mode segment base address of protected-mode 16-bit code
segment
BX = offset of entry point
CX = real-mode segment base address of protected-mode 16-bit data
segment
---APM v1.1---
SI = APM BIOS code segment length
DI = APM BIOS data segment length
CF set on error
AH = error code (02h,05h,06h,07h,09h) (see #00473)
Notes: the caller must initialize two consecutive descriptors with the
returned segment base addresses; these descriptors must be valid
whenever the protected-mode interface is called, and will have
their limits arbitrarily set to 64K.
the protected mode interface is invoked by making a far call with the
same register values as for INT 15; it must be invoked while CPL=0,
the code segment descriptor must have a DPL of 0, the stack must be
in a 16-bit segment and have enough room for BIOS use and possible
interrupts, and the current I/O permission bit map must allow access
to the I/O ports used for power management.
functions 00h-03h are not available from protected mode
on connection, an APM v1.1 or v1.2 BIOS switches to APM v1.0
compatibility mode until it is informed that the user supports a
newer version of APM (see AX=530Eh)
SeeAlso: AX=5301h,AX=5303h,AX=5304h
--------p-155303-----------------------------
INT 15 - Advanced Power Management v1.0+ - CONNECT 32-BIT PROTMODE INTERFACE
AX = 5303h
BX = device ID of system BIOS (0000h)
Return: CF clear if successful
AX = real-mode segment base address of protected-mode 32-bit code
segment
EBX = offset of entry point
CX = real-mode segment base address of protected-mode 16-bit code
segment
DX = real-mode segment base address of protected-mode 16-bit data
segment
---APM v1.1---
SI = APM BIOS code segment length
DI = APM BIOS data segment length
CF set on error
AH = error code (02h,05h,07h,08h,09h) (see #00473)
Notes: the caller must initialize three consecutive descriptors with the
returned segment base addresses for 32-bit code, 16-bit code, and
16-bit data, respectively; these descriptors must be valid whenever
the protected-mode interface is called, and will have their limits
arbitrarily set to 64K.
the protected mode interface is invoked by making a far call to the
32-bit code segment with the same register values as for INT 15; it
must be invoked while CPL=0, the code segment descriptor must have a
DPL of 0, the stack must be in a 32-bit segment and have enough room
for BIOS use and possible interrupts, and the current I/O permission
bit map must allow access to the I/O ports used for power management.
functions 00h-03h are not available from protected mode
on connection, an APM v1.1 or v1.2 BIOS switches to APM v1.0
compatibility mode until it is informed that the user supports a
newer version of APM (see AX=530Eh)
SeeAlso: AX=5301h,AX=5302h,AX=5304h
--------p-155304-----------------------------
INT 15 - Advanced Power Management v1.0+ - DISCONNECT INTERFACE
AX = 5304h
BX = device ID of system BIOS (0000h)
Return: CF clear if successful
CF set on error
AH = error code (03h,09h) (see #00473)
SeeAlso: AX=5301h,AX=5302h,AX=5303h
--------p-155305-----------------------------
INT 15 - Advanced Power Management v1.0+ - CPU IDLE
AX = 5305h
Return: CF clear if successful (after system leaves idle state)
CF set on error
AH = error code (03h,0Bh) (see #00473)
Notes: call when the system is idle and should be suspended until the next
system event or interrupt
should not be called from within a hardware interrupt handler to avoid
reentrance problems
if an interrupt causes the system to resume normal processing, the
interrupt may or may not have been handled when the BIOS returns
from this call; thus, the caller should allow interrupts on return
interrupt handlers may not retain control if the BIOS allows
interrupts while in idle mode even if they are able to determine
that they were called from idle mode
the caller should issue this call continuously in a loop until it needs
to perform some processing of its own
SeeAlso: AX=1000h,AX=5306h,INT 2F/AX=1680h
--------p-155306-----------------------------
INT 15 - Advanced Power Management v1.0+ - CPU BUSY
AX = 5306h
Return: CF clear if successful
CF set on error
AH = error code (03h,0Bh) (see #00473)
Notes: called to ensure that the system runs at full speed even on systems
where the BIOS is unable to recognize increased activity (especially
if interrupts are hooked by other programs and not chained to the
BIOS)
this call may be made even when the system is already running at full
speed, but it will create unnecessary overhead
should not be called from within a hardware interrupt handler to avoid
reentrance problems
SeeAlso: AX=5305h
--------p-155307-----------------------------
INT 15 - Advanced Power Management v1.0+ - SET POWER STATE
AX = 5307h
BX = device ID (see #00474)
CX = system state ID (see #00475)
Return: CF clear if successful
CF set on error
AH = error code (01h,03h,09h,0Ah,0Bh,60h) (see #00473)
Note: should not be called from within a hardware interrupt handler to avoid
reentrance problems
SeeAlso: AX=530Ch
(Table 00474)
Values for APM device IDs:
0000h system BIOS
0001h all devices for which the system BIOS manages power
01xxh display (01FFh for all attached display devices)
02xxh secondary storage (02FFh for all attached secondary storage devices)
03xxh parallel ports (03FFh for all attached parallel ports)
04xxh serial ports (04FFh for all attached serial ports)
---APM v1.1+ ---
05xxh network adapters (05FFh for all attached network adapters)
06xxh PCMCIA sockets (06FFh for all)
0700h-7FFFh reserved
80xxh system battery devices (APM v1.2)
8100h-DFFFh reserved
Exxxh OEM-defined power device IDs
F000h-FFFFh reserved
(Table 00475)
Values for system state ID:
0000h ready (not supported for device ID 0001h)
0001h stand-by
0002h suspend
0003h off (not supported for device ID 0001h in APM v1.0)
---APM v1.1---
0004h last request processing notification (only for device ID 0001h)
0005h last request rejected (only for device ID 0001h)
0006h-001Fh reserved system states
0020h-003Fh OEM-defined system states
0040h-007Fh OEM-defined device states
0080h-FFFFh reserved device states
--------p-155307CX0001-----------------------
INT 15 - Advanced Power Management v1.0+ - SYSTEM STAND-BY
AX = 5307h
CX = 0001h
BX = 0001h (device ID for all power-managed devices)
Return: CF clear
Notes: puts the entire system into stand-by mode; normally called in response
to a System Stand-by Request notification after any necessary
processing, but may also be invoked at the caller's discretion
should not be called from within a hardware interrupt handler to avoid
reentrance problems
the stand-by state is typically exited on an interrupt
SeeAlso: AX=4280h,AX=5307h/CX=0002h"SUSPEND",AX=5307h/CX=0003h,AX=530Bh
--------p-155307CX0002-----------------------
INT 15 - Advanced Power Management v1.0+ - SUSPEND SYSTEM
AX = 5307h
CX = 0002h
BX = 0001h (device ID for all power-managed devices)
Return: after system is resumed
CF clear
Notes: puts the entire system into a low-power suspended state; normally
called in response to a Suspend System Request notification after
any necessary processing, but may also be invoked at the caller's
discretion
should not be called from within a hardware interrupt handler to avoid
reentrance problems
the caller may need to update its date and time values because the
system could have been suspended for a long period of time
SeeAlso: AX=5307h/CX=0001h"STAND-BY",AX=530Bh
--------p-155307CX0003-----------------------
INT 15 - Advanced Power Management v1.2 - TURN OFF SYSTEM
AX = 5307h
CX = 0003h
BX = 0001h (device ID for all power-managed devices)
Return: after system is resumed
CF clear
Notes: if supported by the system's power supply, turns off the system power
SeeAlso: AX=5307h/CX=0001h"STAND-BY",AX=530Bh
--------p-155308-----------------------------
INT 15 - Advanced Power Management v1.0+ - ENABLE/DISABLE POWER MANAGEMENT
AX = 5308h
BX = device ID for all devices power-managed by APM
0001h (APM v1.1+)
FFFFh (APM v1.0)
CX = new state
0000h disabled
0001h enabled
Return: CF clear if successful
CF set on error
AH = error code (01h,03h,09h,0Ah,0Bh) (see #00473)
Notes: when power management is disabled, the system BIOS will not
automatically power down devices, enter stand-by or suspended mode,
or perform any power-saving actions in response to AX=5305h calls
should not be called from within a hardware interrupt handler to avoid
reentrance problems
the APM BIOS should never be both disabled and disengaged at the same
time
SeeAlso: AX=5309h,AX=530Dh,AX=530Fh
--------p-155309-----------------------------
INT 15 - Advanced Power Management v1.0+ - RESTORE POWER-ON DEFAULTS
AX = 5309h
BX = device ID for all devices power-managed by APM
0001h (APM v1.1)
FFFFh (APM v1.0)
Return: CF clear if successful
CF set on error
AH = error code (03h,09h,0Bh) (see #00473)
Note: should not be called from within a hardware interrupt handler to avoid
reentrance problems
SeeAlso: AX=5308h
--------p-15530A-----------------------------
INT 15 - Advanced Power Management v1.0+ - GET POWER STATUS
AX = 530Ah
BX = device ID
0001h all devices power-managed by APM
80xxh specific battery unit number XXh (01h-FFh) (APM v1.2)
Return: CF clear if successful
BH = AC line status
00h off-line
01h on-line
02h on backup power (APM v1.1)
FFh unknown
other reserved
BL = battery status (see #00476)
CH = battery flag (APM v1.1+) (see #00477)
CL = remaining battery life, percentage
00h-64h (0-100) percentage of full charge
FFh unknown
DX = remaining battery life, time (APM v1.1) (see #00478)
---if specific battery unit specified---
SI = number of battery units currently installed
CF set on error
AH = error code (09h,0Ah) (see #00473)
Notes: should not be called from within a hardware interrupt handler to avoid
reentrance problems
supported in real mode (INT 15) and both 16-bit and 32-bit protected
mode
(Table 00476)
Values for APM v1.0+ battery status:
00h high
01h low
02h critical
03h charging
FFh unknown
other reserved
SeeAlso: #00477,#00478
Bitfields for APM v1.1+ battery flag:
Bit(s) Description (Table 00477)
0 high
1 low
2 critical
3 charging
4 selected battery not present (APM v1.2)
5-6 reserved (0)
7 no system battery
Note: all bits set (FFh) if unknown
SeeAlso: #00476,#00478
Bitfields for APM v1.1+ remaining battery life:
Bit(s) Description (Table 00478)
15 time units: 0=seconds, 1=minutes
14-0 battery life in minutes or seconds
Note: all bits set (FFFFh) if unknown
SeeAlso: #00476,#00477
--------p-15530B-----------------------------
INT 15 - Advanced Power Management v1.0+ - GET POWER MANAGEMENT EVENT
AX = 530Bh
Return: CF clear if successful
BX = event code (see #00479)
CX = event information (APM v1.2) if BX=0003h or BX=0004h
bit 0: PCMCIA socket was powered down in suspend state
CF set on error
AH = error code (03h,0Bh,80h) (see #00473)
Notes: although power management events are often asynchronous, notification
will not be made until polled via this call to permit software to
only receive event notification when it is prepared to process
power management events; since these events are not very time-
critical, it should be sufficient to poll once or twice per second
the critical resume notification is made after the system resumes
from an emergency suspension; normally, the system BIOS only notifies
its partner that it wishes to suspend and relies on the partner to
actually request the suspension, but no notification is made on an
emergency suspension
should not be called from within a hardware interrupt handler to avoid
reentrance problems
SeeAlso: AX=5307h,AX=5307h/CX=0001h"STAND-BY",AX=5307h/CX=0002h"SUSPEND"
(Table 00479)
Values for APM event code:
0001h system stand-by request
0002h system suspend request
0003h normal resume system notification
0004h critical resume system notification
0005h battery low notification
---APM v1.1---
0006h power status change notification
0007h update time notification
0008h critical system suspend notification
0009h user system standby request notification
000Ah user system suspend request notification
000Bh system standby resume notification
---APM v1.2---
000Ch capabilities change notification (see AX=5310h)
------
000Dh-00FFh reserved system events
01xxh reserved device events
02xxh OEM-defined APM events
0300h-FFFFh reserved
--------p-15530C-----------------------------
INT 15 - Advanced Power Management v1.1+ - GET POWER STATE
AX = 530Ch
BX = device ID (see #00474)
Return: CF clear if successful
CX = system state ID (see #00475)
CF set on error
AH = error code (01h,09h) (see #00473)
SeeAlso: AX=5307h
--------p-15530D-----------------------------
INT 15 - Advanced Power Management v1.1+ - EN/DISABLE DEVICE POWER MANAGEMENT
AX = 530Dh
BX = device ID (see #00474)
CX = function
0000h disable power management
0001h enable power management
Return: CF clear if successful
CF set on error
AH = error code (01h,03h,09h,0Ah,0Bh) (see #00473)
Desc: specify whether automatic power management should be active for a
given device
SeeAlso: AX=5308h,AX=530Fh
--------p-15530E-----------------------------
INT 15 - Advanced Power Management v1.1+ - DRIVER VERSION
AX = 530Eh
BX = device ID of system BIOS (0000h)
CH = APM driver major version (BCD)
CL = APM driver minor version (BCD) (02h for APM v1.2)
Return: CF clear if successful
AH = APM connection major version (BCD)
AL = APM connection minor version (BCD)
CF set on error
AH = error code (03h,09h,0Bh) (see #00473)
SeeAlso: AX=5300h,AX=5303h
--------p-15530F-----------------------------
INT 15 - Advanced Power Management v1.1+ - ENGAGE/DISENGAGE POWER MANAGEMENT
AX = 530Fh
BX = device ID (see #00474)
CX = function
0000h disengage power management
0001h engage power management
Return: CF clear if successful
CF set on error
AH = error code (01h,09h) (see #00473)
Notes: unlike AX=5308h, this call does not affect the functioning of the APM
BIOS
when cooperative power management is disengaged, the APM BIOS performs
automatic power management of the system or device
SeeAlso: AX=5308h,AX=530Dh
--------p-155310-----------------------------
INT 15 - Advanced Power Management v1.2 - GET CAPABILITIES
AX = 5310h
BX = device ID (see #00474)
0000h (APM BIOS)
other reserved
Return: CF clear if successful
BL = number of battery units supported (00h if no system batteries)
CX = capabilities flags (see #00480)
CF set on error
AH = error code (01h,09h,86h) (see #00473)
Notes: this function is supported via the INT 15, 16-bit protected mode, and
32-bit protected mode interfaces; it does not require that a
connection be established prior to use
this function will return the capabilities currently in effect, not
any new settings which have been made but do not take effect until
a system restart
SeeAlso: AX=5300h,AX=530Fh,AX=5311h,AX=5312h,AX=5313h
Bitfields for APM v1.2 capabilities flags:
Bit(s) Description (Table 00480)
15-8 reserved
7 PCMCIA Ring Indicator will wake up system from suspend mode
6 PCMCIA Ring Indicator will wake up system from standby mode
5 Resume on Ring Indicator will wake up system from suspend mode
4 Resume on Ring Indicator will wake up system from standby mode
3 resume timer will wake up system from suspend mode
2 resume timer will wake up system from standby mode
1 can enter global suspend state
0 can enter global standby state
--------p-155311-----------------------------
INT 15 - Advanced Power Management v1.2 - GET/SET/DISABLE RESUME TIMER
AX = 5311h
BX = device ID (see #00474)
0000h (APM BIOS)
other reserved
CL = function
00h disable Resume Timer
01h get Resume Timer
02h set Resume Timer
CH = resume time, seconds (BCD)
DL = resume time, minutes (BCD)
DH = resume time, hours (BCD)
SI = resume date (BCD), high byte = month, low byte = day
DI = resume date, year (BCD)
Return: CF clear if successful
---if getting timer---
CH = resume time, seconds (BCD)
DL = resume time, minutes (BCD)
DH = resume time, hours (BCD)
SI = resume date (BCD), high byte = month, low byte = day
DI = resume date, year (BCD)
CF set on error
AH = error code (03h,09h,0Ah,0Bh,0Ch,0Dh,86h) (see #00473)
Notes: this function is supported via the INT 15, 16-bit protected mode, and
32-bit protected mode interfaces
SeeAlso: AX=5300h,AX=5310h,AX=5312h,AX=5313h
--------p-155312-----------------------------
INT 15 - Advanced Power Management v1.2 - ENABLE/DISABLE RESUME ON RING
AX = 5312h
BX = device ID (see #00474)
0000h (APM BIOS)
other reserved
CL = function
00h disable Resume on Ring Indicator
01h enable Resume on Ring Indicator
02h get Resume on Ring Indicator status
Return: CF clear if successful
CX = resume status (0000h disabled, 0001h enabled)
CF set on error
AH = error code (03h,09h,0Ah,0Bh,0Ch,86h) (see #00473)
Notes: this function is supported via the INT 15, 16-bit protected mode, and
32-bit protected mode interfaces
SeeAlso: AX=5300h,AX=5310h,AX=5311h,AX=5313h
--------p-155313-----------------------------
INT 15 - Advanced Power Management v1.2 - ENABLE/DISABLE TIMER-BASED REQUESTS
AX = 5313h
BX = device ID (see #00474)
0000h (APM BIOS)
other reserved
CL = function
00h disable timer-based requests
01h enable timer-based requests
02h get timer-based requests status
Return: CF clear if successful
CX = timer-based requests status (0000h disabled, 0001h enabled)
CF set on error
AH = error code (03h,09h,0Ah,0Bh,86h) (see #00473)
Notes: this function is supported via the INT 15, 16-bit protected mode, and
32-bit protected mode interfaces
some BIOSes set AH on return even when successful
SeeAlso: AX=5300h,AX=5310h,AX=5311h,AX=5312h

225
kernel/branches/hd_kolibri/kernel/docs/memmap.txt
View File

@ -1,225 +0,0 @@
$Revision: 425 $
;
; MEMORY MAP
;
; Boot:
;
; 0:9000 byte bits per pixel
; 0:9001 word scanline length
; 0:9008 word vesa video mode
; 0:900A word X res
; 0:900C word Y res
; 0:9010 byte mouse port - not used
; 0:9014 dword Vesa 1.2 pm bank switch
; 0:9018 dword Vesa 2.0 LFB address
; 0:901C byte 0 or 1 : enable MTRR graphics acceleration
; 0:901D byte not used anymore (0 or 1 : enable system log display)
; 0:901E byte 0 or 1 : enable direct lfb write, paging disabled
; 0:901F byte DMA write : 1=yes, 2=no
; 0:9020 8bytes pci data
; 0:9030 byte VRR start enabled 1, 2-no
; 0:9031 word IDEContrRegsBaseAddr
; 0x9040 - dword - entry point of APM BIOS
; 0x9044 - word - version (BCD)
; 0x9046 - word - flags
;
; Runtime:
;
; 0000 -> 1FFF window_data - 256 entries
;
; 0000 dword x start
; 0004 dword y start
; 0008 dword x size
; 000C dword y size
; 0010 dword color of work area
; 0014 dword color of grab bar
; 0018 dword color of frames
; 001C dword window flags, +30 = window drawn, +31 redraw flag
;
; 2000 -> 2FFF free
;
; 3000 -> 4FFF task list - 256 entries
;
; 00 dword process count
; 04 dword no of processes
; 10 dword base of running process at 0x3000+
;
; 20 dword application event mask
; 24 dword PID - process identification number
; 2a byte slot state: 0=running, 1,2=suspended
; 3=zombie, 4=terminate,
; 5=waiting for event, 9 = not used
; 2e byte window number on screen
; 30 dword exact position in memory
; 34 dword counter sum
; 38 dword time stamp counter add
; 3c dword cpu usage in cpu timer tics
;
;
; 5000 -> 68FF free
; 6900 -> 6EFF saved picture under mouse pointer
;
; 6F00 -> 6FFF free
;
; 7000 -> 7FFF used CD driver
;
; 8000 -> A3FF used FLOPPY driver
;
; A400 -> B0FF free
; B100 -> B2FF IDT
; B300 -> BFFF free
; C000 -> C3FF window stack C000 no of windows - all in words
; C402 -> C7FF window position in stack
; D000 -> D1FF FDC controller
; D200 -> D3FF FDC controller for Fat12
; D400 -> DFFF free
; E000 byte multitasking started
; E020 dword putpixel address
; E024 dword getpixel address
; E030 dword Vesa 1.2 pm bank switch address
; F200 dword mousepicture -pointer
; F204 dword mouse appearance counter
; F300 dword x & y temp for windowmove
; F400 byte no of keys in buffer
; F401 byte 'buffer'
; F402 -> F4FF reserved for keys
; F500 byte no of buttons in buffer
; F501 dword 'buffer'
; F502 -> F5FF reserved for buttons
; F600 dword tsc / second
; F604 byte mouse port: 1 ps2, 2 com1, 3 com2
; FB00 -> FB0F mouse memory 00 chunk count - FB0A-B x - FB0C-D y
; FB10 -> FB17 mouse color mem
; FB21 x move
; FB22 y move
; FB28 high bits temp
; FB30 color temp
; FB40 byte buttons down
; FB44 byte 0 mouse down -> do not draw
; FB4A -> FB4D FB4A-B x-under - FB4C-D y-under
; FBF1 byte bits per pixel
; FC00 -> FCFE com1/ps2 buffer
; FCFF com1/ps2 buffer count starting from FC00
; FE00 dword screen x size
; FE04 dword screen y size
; FE08 dword screen y multiplier
; FE0C dword screen mode
; FE80 dword address of LFB in physical
; FE84 dword address of applications memory start in physical
; FE88 dword address of button list
; FE8C dword memory to use
; FF00 byte 1 = system shutdown request
; FF01 dword free
; FFF0 byte 1 = redraw background request from app
; FFF1 byte 1 = diskette int occur
; FFF2 write and read bank in screen
; FFF4 byte 0 if first mouse draw & do not return picture under
; FFF5 byte 1 do not draw pointer
; FFFF byte do not change task for 1/100 sec.
;
; 10000 -> 3DBFF kernel, 32-bit run-time code (up to 183 Kb)
; 3DC00 -> 3EBFF stack at boot time (4Kb)
; 3EC00 -> 3F5FF basic text font II
; 3F600 -> 3FFFF basic text font I
; 40000 -> 4FFFF data of retrieved disks and partitions (Mario79)
; 50000 -> 50FFF main page directory
; 50200 -> 5FFFF pages bitmap
; 60000 -> 7FFFF free (128 Kb)
; 80000 -> 8FFFF additional app info, in 256 byte steps - 256 entries
;
; 00 11db name of app running
; 10 108db floating point unit save area
; 7f byte 0= no fpu saved , 1= fpu saved to 0x10 -> restore
; 80 dword address of random shaped window area
; 84 byte shape area scale
; 88 dword free
; 8C dword application memory size
; 90 dword window X position save
; 94 dword window Y position save
; 98 dword window X size save
; 9C dword window Y size save
; A0 dword IPC memory start
; A4 dword IPC memory size
; A8 dword event bits: mouse, stack,..
; AC dword 0 or debugger slot
; B0 dword free
; B4 byte keyboard mode: 0 = keymap, 1 = scancodes
; B8 dword physical address of directory table
; BC dword address of debug event memory
; C0 5 dd thread debug registers: DR0,DR1,DR2,DR3,DR7
;
; 90000 -> 9FFFF tmp
; A0000 -> AFFFF screen access area
; B0000 -> FFFFF bios rest in peace -area
; 100000 -> 27FFFF diskette image
; 280000 -> 281FFF ramdisk fat
; 282000 -> 283FFF floppy fat
;
; 284000 -> 29FFFF free (112 Kb)
;
; 2A0000 -> 2B00ff wav device data
; 2C0000 -> 2C3fff button info
;
; 0000 word number of buttons
; first button entry at 0x10
; +0000 word process number
; +0002 word button id number : bits 00-15
; +0004 word x start
; +0006 word x size
; +0008 word y start
; +000A word y size
; +000C word button id number : bits 16-31
;
; 2C4000 -> 2CFFFF free (48Kb)
;
; 2D0000 -> 2DFFFF reserved port area
;
; 0000 dword no of port areas reserved
; 0010 dword process id
; dword start port
; dword end port
; dword 0
;
; 2E0000 -> 2EFFFF irq data area
; 2F0000 -> 2FFFFF low memory save
;
; 300000 -> 45FFFF background image, max 1,375 M
;
; 460000 -> 5FFFFF display info
;
; 600000 -> 6FFFFF hd cache
;
; 700000 -> 71ffff tcp memory (128 kb)
; 720000 -> 75ffff free (256 kb)
;
; 760000 -> 76ffff !vrr driver
; 770000 -> 777fff tcp memory ( 32 kb)
;
; 780000 -> 987FFF TSS and IO map for (8192*8)=65536 ports
; (128+8192)*256 = 2129920 = 0x208000
;
; 988000 -> 98AFFF draw_data - 256 entries
;
; 00 dword draw limit - x start
; 04 dword draw limit - y start
; 08 dword draw limit - x end
; 0C dword draw limit - y end
;
;
; 0x0098B000 -> kernel heap
;
; 0x01FFFFFF heap min limit
; 0x7DBFFFFF heap max limit
; 0x7DC00000 -> 0x7FBFFFFF LFB 32Mb
; 0x7DC00000 -> 0x7E3FFFFF application available LFB 8Mb
; 0x7E400000 -> 0x7FBFFFFF kernel LFB part 24 Mb
; 0x7FC00000 -> 0x7FFFFFFF page tables 4Mb
; 0x80000000 -> 0xFFFFFFFF application 2Gb

53
kernel/branches/hd_kolibri/kernel/docs/readme.txt
View File

@ -1,53 +0,0 @@
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved.
;; PROGRAMMING:
;; Ivan Poddubny
;; Marat Zakiyanov (Mario79)
;; VaStaNi
;; Trans
;; Mihail Semenyako (mike.dld)
;; Sergey Kuzmin (Wildwest)
;; Andrey Halyavin (halyavin)
;; Mihail Lisovin (Mihasik)
;; Andrey Ignatiev (andrew_programmer)
;; NoName
;; Evgeny Grechnikov (Diamond)
;; Iliya Mihailov (Ghost)
;; Sergey Semyonov (Serge)
;; Johnny_B
;;
;; Data in this file was originally part of MenuetOS project which is
;; distributed under the terms of GNU GPL. It is modified and redistributed as
;; part of KolibriOS project under the terms of GNU GPL.
;;
;; Copyright (C) MenuetOS 2000-2004 Ville Mikael Turjanmaa
;; PROGRAMMING:
;;
;; Ville Mikael Turjanmaa, villemt@itu.jyu.fi
;; - main os coding/design
;; Jan-Michael Brummer, BUZZ2@gmx.de
;; Felix Kaiser, info@felix-kaiser.de
;; Paolo Minazzi, paolo.minazzi@inwind.it
;; quickcode@mail.ru
;; Alexey, kgaz@crosswinds.net
;; Juan M. Caravaca, bitrider@wanadoo.es
;; kristol@nic.fi
;; Mike Hibbett, mikeh@oceanfree.net
;; Lasse Kuusijarvi, kuusijar@lut.fi
;; Jarek Pelczar, jarekp3@wp.pl
;;
;; KolibriOS is distributed in the hope that it will be useful, but WITHOUT ANY
;; WARRANTY. No author or distributor accepts responsibility to anyone for the
;; consequences of using it or for whether it serves any particular purpose or
;; works at all, unless he says so in writing. Refer to the GNU General Public
;; License (the "GPL") for full details.
;
;; Everyone is granted permission to copy, modify and redistribute KolibriOS,
;; but only under the conditions described in the GPL. A copy of this license
;; is supposed to have been given to you along with KolibriOS so you can know
;; your rights and responsibilities. It should be in a file named COPYING.
;; Among other things, the copyright notice and this notice must be preserved
;; on all copies.
;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;

4519
kernel/branches/hd_kolibri/kernel/docs/sysfuncr.txt
View File

File diff suppressed because it is too large Load Diff

4473
kernel/branches/hd_kolibri/kernel/docs/sysfuncs.txt
View File

File diff suppressed because it is too large Load Diff

Some files were not shown because too many files have changed in this diff Show More