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  → /kernel/branches/Kolibri-acpi @ 3232

  → /kernel/branches/Kolibri-acpi/ @ 3500

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Ignore whitespace Rev 3232 → Rev 3500

/kernel/branches/Kolibri-acpi/blkdev/disk.inc
150,7 → 150,7
; 0 if media fields are not used, nonzero otherwise. If .MediaRefCount is
; nonzero, this field is nonzero too; however, when .MediaRefCount goes
; to zero, there is some time interval during which media object is still used.
align 4
dw ? ; padding
; The following fields are not valid unless either .MediaInserted is nonzero
; or they are accessed from a code which has obtained the reference when
; .MediaInserted was nonzero.
381,6 → 381,7
call mutex_init
xor eax, eax
mov dword [esi+DISK.MediaInserted], eax
mov [esi+DISK.MediaRefCount], eax
inc eax
mov [esi+DISK.RefCount], eax
; The DISK structure is initialized.

/kernel/branches/Kolibri-acpi/blkdev/disk_cache.inc
629,7 → 629,9
mov [hdd_appl_data], 0
call write_cache
mov [hdd_appl_data], 1
jmp write_cache
call write_cache
mov eax, [hd_error]
ret
@@:
; The algorithm is straightforward.
push esi

/kernel/branches/Kolibri-acpi/blkdev/hd_drv.inc
340,7 → 340,11
; call clear_application_table_status
; mov esi,hd_timeout_str
; call sys_msg_board_str
if lang eq sp
DEBUGF 1,"K : FS - HD tiempo de espera agotado\n"
else
DEBUGF 1,"K : FS - HD timeout\n"
end if
mov [hd_error], 1
pop eax
352,7 → 356,11
; call clear_application_table_status
; mov esi,hd_read_str
; call sys_msg_board_str
if lang eq sp
DEBUGF 1,"K : FS - HD error de lectura\n"
else
DEBUGF 1,"K : FS - HD read error\n"
end if
pop edx eax
ret
362,7 → 370,11
; call clear_application_table_status
; mov esi,hd_write_str
; call sys_msg_board_str
if lang eq sp
DEBUGF 1,"K : FS - HD error de escritura\n"
else
DEBUGF 1,"K : FS - HD write error\n"
end if
ret
hd_write_error_dma:
370,7 → 382,11
; call clear_application_table_status
; mov esi, hd_write_str
; call sys_msg_board_str
DEBUGF 1,"K : FS - HD read error\n"
if lang eq sp
DEBUGF 1,"K : FS - HD error de escritura\n"
else
DEBUGF 1,"K : FS - HD write error\n"
end if
pop esi
ret
379,7 → 395,11
; call clear_application_table_status
; mov esi,hd_lba_str
; call sys_msg_board_str
if lang eq sp
DEBUGF 1,"K : FS - HD error en LBA\n"
else
DEBUGF 1,"K : FS - HD LBA error\n"
end if
jmp LBA_read_ret

/kernel/branches/Kolibri-acpi/blkdev/rd.inc
2257,8 → 2257,10
jmp .lfndel
.lfndone:
; delete FAT chain
test eax, eax
jz .done
cmp eax, 2
jb .done
cmp eax, 0xFF8
jae .done
lea eax, [RAMDISK_FAT + eax*2]
push dword [eax]
and word [eax], 0

/kernel/branches/Kolibri-acpi/blkdev/rdsave.inc
24,7 → 24,7
mov ebx, saverd_fileinfo
mov [saverd_fileinfo.name], ecx
pushad
call file_system_lfn ;in ebx
call file_system_lfn_protected ;in ebx
popad
mov [esp+32], eax
ret

/kernel/branches/Kolibri-acpi/boot/bootcode.inc
863,6 → 863,14
mov [time_str+9], ' '
mov [time_str+10], ' '
@@:
else if lang eq sp
; esperar 5/4/3/2 segundos, 1 segundo
cmp al, 1
mov cl, 's'
ja @f
mov cl, ' '
@@:
mov [time_str+10], cl
else
; wait 5/4/3/2 seconds, 1 second
cmp al, 1
917,7 → 925,11
or al, 20h
cmp al, 'n'
jz .loadc
if lang eq sp
cmp al, 's'
else
cmp al, 'y'
end if
jnz .waityn
call putchar
mov byte [space_msg+80], 186

/kernel/branches/Kolibri-acpi/boot/booten.inc
0,0 → 1,101
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2011. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;======================================================================
;
; BOOT DATA
;
;======================================================================
$Revision: 2455 $
d80x25_bottom:
db 186,' KolibriOS is 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
msg_apm db " APM x.x ", 0
novesa db "Display: EGA/CGA",13,10,0
s_vesa db "Version of VESA: "
.ver db "?.?",13,10,0
gr_mode db "Select a videomode: ",13,10,0
ask_bd db "Add disks visible by BIOS emulated in V86-mode? [1-yes, 2-no]: ",0
if defined extended_primary_loader
bdev db "Load ramdisk from [1-floppy; 2-kolibri.img]: ",0
else
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;"
db 13,10,186," "
db "4-create blank image]: ",0
end if
prnotfnd db "Fatal - Videomode not found.",0
not386 db "Fatal - CPU 386+ required.",0
fatalsel db "Fatal - Graphics mode not supported by hardware.",0
pres_key db "Press any key to choose a new videomode.",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
mode0 db "320x200, EGA/CGA 256 colors",13,10,0
mode9 db "640x480, VGA 16 colors",13,10,0
usebd_msg db " [b] Add disks visible by BIOS:",0
on_msg db " on",13,10,0
off_msg db " off",13,10,0
preboot_device_msg db " [c] Floppy image: ",0
if defined extended_primary_loader
preboot_device_msgs dw 0,pdm1,pdm2,0
pdm1 db "real floppy",13,10,0
pdm2 db "C:\kolibri.img (FAT32)",13,10,0
else
preboot_device_msgs dw 0,pdm1,pdm2,pdm3
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
pdm4 db "create blank image",13,10,0
end if
loading_msg db "Loading KolibriOS...",0
if ~ defined extended_primary_loader
save_quest db "Remember current settings? [y/n]: ",0
loader_block_error db "Bootloader data invalid, I cannot continue. Stopped.",0
end if
_st db 186,' ÚÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÂÄ¿',13,10,0
_r1 db 186,' ³ 320x200 EGA/CGA 256 colors ³ ³',13,10,0
_r2 db 186,' ³ 640x480 VGA 16 colors ³ ³',13,10,0
_rs db 186,' ³ ????x????@?? SVGA VESA ³ ³',13,10,0
_bt db 186,' ÀÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÁÄÙ',13,10,0
remark1 db "Default values were selected to match most of configurations, but not all.",0
remark2 db "If the system does not boot, try to disable the item [b].",0
remarks dw remark1, remark2
num_remarks = 2

/kernel/branches/Kolibri-acpi/boot/bootsp.inc
0,0 → 1,103
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2011. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;======================================================================
;
; BOOT DATA
;
;======================================================================
; Para modificar ‚ste archivo es necesario abrirlo con codificaci¢n CP850
$Revision: 2455 $
d80x25_bottom:
db 186,' KolibriOS est  basado en MenuetOS y viene ABSOLUTAMENTE '
db 'SIN GARANT¡A ',186
db 186,' Lee el archivo COPYING por m s detalles '
db ' ',186
line_full_bottom
d80x25_bottom_num = 3
msg_apm db " APM x.x ", 0
novesa db "Monitor: EGA/CGA",13,10,0
s_vesa db "Versi¢n de VESA: "
.ver db "?.?",13,10,0
gr_mode db "Selecciona un modo de video: ",13,10,0
ask_bd db "¨Agregar discos visibles por el BIOS emulados en modo V86? [1-si, 2-no]: ",0
if defined extended_primary_loader
bdev db "Cargar unidad ram desde [1-disquete; 2-kolibri.img]: ",0
else
bdev db "Cargar unidad ram desde [1-disquete; 2-C:\kolibri.img (FAT32);"
db 13,10,186," "
db "3-usar imagen precargada en el reinicio del n£cleo;"
db 13,10,186," "
db "4-crear imagen vac¡a]: ",0
end if
prnotfnd db "Fatal - Modo de video no encontrado.",0
not386 db "Fatal - CPU 386+ requerido.",0
fatalsel db "Fatal - Modo de gr ficos no soportado por hardware.",0
pres_key db "Presiona una tecla para seleccionar otro modo de video.",0
badsect db 13,10,186," Fatal - Sector mal. Reemplaze el disquete.",0
memmovefailed db 13,10,186," Fatal - Int 0x15 move failed.",0
okt db " ... BIEN"
linef db 13,10,0
diskload db "Cargando disquete: 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 "Presiona [abcd] para cambiar la configuraci¢n, [Enter] para continuar",13,10,0
time_msg db " o espera "
time_str db " 5 segundos"
db " para que inicie autom ticamente",13,10,0
current_cfg_msg db "Configuraci¢n actual:",13,10,0
curvideo_msg db " [a] Modo de video: ",0
mode0 db "320x200, EGA/CGA 256 colores",13,10,0
mode9 db "640x480, VGA 16 colores",13,10,0
usebd_msg db " [b] Agregar discos visibles por el BIOS:",0
on_msg db " activado",13,10,0
off_msg db " desactivado",13,10,0
preboot_device_msg db " [c] Imagen de disquete: ",0
if defined extended_primary_loader
preboot_device_msgs dw 0,pdm1,pdm2,0
pdm1 db "disquete real",13,10,0
pdm2 db "C:\kolibri.img (FAT32)",13,10,0
else
preboot_device_msgs dw 0,pdm1,pdm2,pdm3
pdm1 db "disquete real",13,10,0
pdm2 db "C:\kolibri.img (FAT32)",13,10,0
pdm3 db "usar imagen ya cargada",13,10,0
pdm4 db "crear imagen vac¡a",13,10,0
end if
loading_msg db "Cargando KolibriOS...",0
if ~ defined extended_primary_loader
save_quest db "¨Recordar configuraci¢n actual? [s/n]: ",0
loader_block_error db "Bootloader inv lido, no puedo continuar. Detenido.",0
end if
_st db 186,' ÚÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÂÄ¿',13,10,0
_r1 db 186,' ³ 320x200 EGA/CGA 256 colores ³ ³',13,10,0
_r2 db 186,' ³ 640x480 VGA 16 colores ³ ³',13,10,0
_rs db 186,' ³ ????x????@?? SVGA VESA ³ ³',13,10,0
_bt db 186,' ÀÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÁÄÙ',13,10,0
remark1 db "Los valores por defecto puede que no funcionen en algunas configuraciones.",0
remark2 db "Si el sistema no inicia, prueba deshabilitar la opci¢n [b].",0
remarks dw remark1, remark2
num_remarks = 2

/kernel/branches/Kolibri-acpi/boot/rdload.inc
103,7 → 103,7
read_image:
mov ebx, read_image_fsinfo
pushad
call file_system_lfn
call file_system_lfn_protected
popad
ret

/kernel/branches/Kolibri-acpi/bootloader/boot_fat12.asm
15,6 → 15,8
;
; Version 1.0
include "lang.inc"
lf equ 0ah
cr equ 0dh
262,7 → 264,11
retn
;------------------------------------------
if lang eq sp
loading db cr,lf,'Iniciando el sistema ',00h
else
loading db cr,lf,'Starting system ',00h
end if
error_message db 13,10
kernel_name db 'KERNEL MNT ?',cr,lf,00h
FirstRootDirSecNum dw ?

/kernel/branches/Kolibri-acpi/bus/pci/pci32.inc
155,12 → 155,12
align 4
pci_read_reg:
push ebx esi
cmp byte [BOOT_VAR+0x9020], 2;what mechanism will we use?
je pci_read_reg_2
; mechanism 1
push esi ; save register size into ESI
mov esi, eax
mov esi, eax ; save register size into ESI
and esi, 3
call pci_make_config_cmd
202,7 → 202,7
out dx, eax
pop eax
pop esi
pop esi ebx
ret
pci_read_reg_2:
209,8 → 209,7
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
mov esi, eax ; save register size into ESI
and esi, 3
push eax
262,12 → 261,13
out dx, al
pop eax
pop esi
pop esi ebx
ret
pci_read_reg_err:
xor eax, eax
dec eax
pop esi ebx
ret
286,12 → 286,12
align 4
pci_write_reg:
push esi ebx
cmp byte [BOOT_VAR+0x9020], 2;what mechanism will we use?
je pci_write_reg_2
; mechanism 1
push esi ; save register size into ESI
mov esi, eax
mov esi, eax ; save register size into ESI
and esi, 3
call pci_make_config_cmd
335,7 → 335,7
out dx, eax
xor eax, eax
pop esi
pop ebx esi
ret
pci_write_reg_2:
344,8 → 344,7
jnz pci_write_reg_err
push esi; save register size into ESI
mov esi, eax
mov esi, eax ; save register size into ESI
and esi, 3
push eax
397,12 → 396,13
out dx, al
xor eax, eax
pop esi
pop ebx esi
ret
pci_write_reg_err:
xor eax, eax
dec eax
pop ebx esi
ret
if defined mmio_pci_addr ; must be set above
658,3 → 658,67
.return_a:
mov dword[esp + 32], eax
ret
proc pci_enum
push ebp
mov ebp, esp
push 0
virtual at ebp-4
.devfn db ?
.bus db ?
end virtual
.loop:
mov ah, [.bus]
mov al, 2
mov bh, [.devfn]
mov bl, 0
call pci_read_reg
cmp eax, 0xFFFFFFFF
jnz .has_device
test byte [.devfn], 7
jnz .next_func
jmp .no_device
.has_device:
push eax
push sizeof.PCIDEV
pop eax
call malloc
pop ecx
test eax, eax
jz .nomemory
mov edi, eax
mov [edi+PCIDEV.vendor_device_id], ecx
mov eax, pcidev_list
mov ecx, [eax+PCIDEV.bk]
mov [edi+PCIDEV.bk], ecx
mov [edi+PCIDEV.fd], eax
mov [ecx+PCIDEV.fd], edi
mov [eax+PCIDEV.bk], edi
mov eax, dword [.devfn]
mov word [edi+PCIDEV.devfn], ax
mov bh, al
mov al, 2
mov bl, 8
call pci_read_reg
shr eax, 8
mov [edi+PCIDEV.class], eax
test byte [.devfn], 7
jnz .next_func
mov ah, [.bus]
mov al, 0
mov bh, [.devfn]
mov bl, 0Eh
call pci_read_reg
test al, al
js .next_func
.no_device:
or byte [.devfn], 7
.next_func:
inc dword [.devfn]
mov ah, [.bus]
cmp ah, [BOOT_VAR+0x9021]
jbe .loop
.nomemory:
leave
ret
endp

/kernel/branches/Kolibri-acpi/const.inc
218,10 → 218,10
BTN_COUNT equ (OS_BASE+0x000F500)
BTN_BUFF equ (OS_BASE+0x000F501)
CPU_FREQ equ (OS_BASE+0x000F600)
;CPU_FREQ equ (OS_BASE+0x000F600)
;unused ? no active references
MOUSE_PORT equ (OS_BASE+0x000F604)
;MOUSE_PORT equ (OS_BASE+0x000F604)
;unused
PS2_CHUNK equ (OS_BASE+0x000FB00)
570,6 → 570,35
count dd ?
ends
struct PCIDEV
bk dd ?
fd dd ?
vendor_device_id dd ?
class dd ?
devfn db ?
bus db ?
ends
; The following macro assume that we are on uniprocessor machine.
; Serious work is needed for multiprocessor machines.
macro spin_lock_irqsave spinlock
{
pushf
cli
}
macro spin_unlock_irqrestore spinlock
{
popf
}
macro spin_lock_irq spinlock
{
cli
}
macro spin_unlock_irq spinlock
{
sti
}
struct MEM_STATE
mutex MUTEX
smallmap dd ?

/kernel/branches/Kolibri-acpi/core/apic.inc
380,6 → 380,33
ret
endp
proc disable_irq stdcall, irq_line:dword
mov ebx, [irq_line]
cmp [irq_mode], IRQ_APIC
je .APIC
mov edx, 0x21
cmp ebx, 8
jb @F
mov edx, 0xA1
sub ebx, 8
@@:
in al, dx
bts eax, ebx
out dx, al
ret
.APIC:
shl ebx, 1
add ebx, 0x10
mov eax, ebx
call IOAPIC_read
or eax, 0x10000; bit 16
xchg eax, ebx
call IOAPIC_write
ret
endp
align 4
pci_irq_fixup:
419,6 → 446,7
pop ebp
ret
if 0
align 4
start_ap:
;eax= cpu id
448,6 → 476,8
.exit:
ret
end if

/kernel/branches/Kolibri-acpi/core/conf_lib-sp.inc
0,0 → 1,11
; ste archivo debe ser editado con codificaci¢n CP866
ugui_mouse_speed db 'velocidad del rat¢n',0
ugui_mouse_delay db 'demora del rat¢n',0
udev db 'disp',0
unet db 'red',0
unet_active db 'activa',0
unet_addr db 'direc',0
unet_mask db 'm sc',0
unet_gate db 'puer',0

/kernel/branches/Kolibri-acpi/core/conf_lib.inc
67,12 → 67,8
endp
iglobal
ugui db 'gui',0
ugui_mouse_speed db 'mouse_speed',0
ugui_mouse_speed_def db '2',0
ugui_mouse_delay db 'mouse_delay',0
ugui_mouse_delay_def db '0x00A',0
udev db 'dev',0
udev_midibase db 'midibase',0
udev_midibase_def db '0x320',0
endg
125,11 → 121,18
endp
iglobal
unet db 'net',0
unet_active db 'active',0
unet_addr db 'addr',0
unet_mask db 'mask',0
unet_gate db 'gate',0
if lang eq sp
include 'core/conf_lib-sp.inc'
else
ugui_mouse_speed db 'mouse_speed',0
ugui_mouse_delay db 'mouse_delay',0
udev db 'dev',0
unet db 'net',0
unet_active db 'active',0
unet_addr db 'addr',0
unet_mask db 'mask',0
unet_gate db 'gate',0
end if
unet_def db 0
endg
; convert string to DWord

/kernel/branches/Kolibri-acpi/core/dll.inc
369,7 → 369,7
pushad
lea ebx, [cmd]
call file_system_lfn
call file_system_lfn_protected
popad
ret
endp

/kernel/branches/Kolibri-acpi/core/heap.inc
154,11 → 154,11
mov [ecx+block_next], eax
mov [ecx+block_prev], ebx
mov [edi+list_fd], eax
mov [edi+list_bk], eax
mov [edi+block_base], eax
mov [edi+block_size], eax
mov [edi+block_flags], USED_BLOCK
mov [ecx+list_fd], eax
mov [ecx+list_bk], eax
mov [ecx+block_base], eax
mov [ecx+block_size], eax
mov [ecx+block_flags], USED_BLOCK
mov [ebx+block_next], ecx
mov [ebx+block_prev], edi
440,6 → 440,7
cmp edx, [edx]
jne .add_block
btr [mem_block_mask], ecx
.add_block:
bts [mem_block_mask], eax
lea edx, [mem_block_list+eax*8]
758,11 → 759,13
inc ebx
dec eax
jnz .fill
.second_nofill:
sub ecx, edx
jz .nothird
or cl, FREE_BLOCK
mov [page_tabs+ebx*4], ecx
.nothird:
mov edx, [current_slot]
822,6 → 825,7
inc esi
dec ecx
jnz .release
.released:
push edi

/kernel/branches/Kolibri-acpi/core/memory.inc
1471,33 → 1471,6
endp
align 4
proc stall stdcall, delay:dword
push ecx
push edx
push ebx
push eax
mov eax, [delay]
mul [stall_mcs]
mov ebx, eax ;low
mov ecx, edx ;high
rdtsc
add ebx, eax
adc ecx, edx
@@:
rdtsc
sub eax, ebx
sbb edx, ecx
jb @B
pop eax
pop ebx
pop edx
pop ecx
ret
endp
align 4
proc create_ring_buffer stdcall, size:dword, flags:dword
locals
buf_ptr dd ?

/kernel/branches/Kolibri-acpi/core/peload.inc
284,10 → 284,14
alloc_pages, 'AllocPages', \ ; stdcall
commit_pages, 'CommitPages', \ ; eax, ebx, ecx
\
disk_add, 'DiskAdd', \ ;stdcall
disk_media_changed, 'DiskMediaChanged', \ ;stdcall
\
create_event, 'CreateEvent', \ ; ecx, esi
destroy_event, 'DestroyEvent', \ ;
raise_event, 'RaiseEvent', \ ; eax, ebx, edx, esi
wait_event, 'WaitEvent', \ ; eax, ebx
wait_event_timeout, 'WaitEventTimeout', \ ; eax, ebx, ecx
get_event_ex, 'GetEvent', \ ; edi
\
create_kernel_object, 'CreateObject', \
331,7 → 335,8
delay_hs, 'Delay', \ ; ebx
set_mouse_data, 'SetMouseData', \ ;
set_keyboard_data, 'SetKeyboardData', \ ; gcc fastcall
timer_hs, 'TimerHs' ; stdcall
timer_hs, 'TimerHs', \ ; stdcall
get_cpu_freq, 'GetCpuFreq'

/kernel/branches/Kolibri-acpi/core/sys32-sp.inc
0,0 → 1,4
; ste archivo debe ser editado con codificaci¢n CP866
msg_sel_ker db "n£cleo", 0
msg_sel_app db "aplicaci¢n", 0

/kernel/branches/Kolibri-acpi/core/sys32.inc
13,7 → 13,6
$Revision$
align 4 ;3A08
build_interrupt_table:
mov edi, idts
75,8 → 74,12
msg_exc_d db "General protection fault", 0
msg_exc_e db "Page fault", 0
if lang eq sp
include 'core/sys32-sp.inc'
else
msg_sel_ker db "kernel", 0
msg_sel_app db "application", 0
end if
endg
213,7 → 216,11
pop ebx
.no_ud:
mov edx, [TASK_BASE];not scratched below
DEBUGF 1, "K : Process - forced terminate PID: %x\n", [edx+TASKDATA.pid]
if lang eq sp
DEBUGF 1, "K : Proceso - terminado forzado PID: %x [%s]\n", [edx+TASKDATA.pid], [current_slot]
else
DEBUGF 1, "K : Process - forced terminate PID: %x [%s]\n", [edx+TASKDATA.pid], [current_slot]
end if
cmp bl, 0x08
jb .l0
cmp bl, 0x0e
707,3 → 714,78
; mov esi,boot_sched_2
; call boot_log
; ret
; Three following procedures are used to guarantee that
; some part of kernel code will not be terminated from outside
; while it is running.
; Note: they do not protect a thread from terminating due to errors inside
; the thread; accessing a nonexisting memory would still terminate it.
; First two procedures must be used in pair by thread-to-be-protected
; to signal the beginning and the end of an important part.
; It is OK to have nested areas.
; The last procedure must be used by outside wanna-be-terminators;
; if it is safe to terminate the given thread immediately, it returns eax=1;
; otherwise, it returns eax=0 and notifies the target thread that it should
; terminate itself when leaving a critical area (the last critical area if
; they are nested).
; Implementation. Those procedures use one dword in APPDATA for the thread,
; APPDATA.terminate_protection.
; * The upper bit is 1 during normal operations and 0 when terminate is requested.
; * Other bits form a number = depth of critical regions,
; plus 1 if the upper bit is 1.
; * When this dword goes to zero, the thread should be destructed,
; and the procedure in which it happened becomes responsible for destruction.
; Enter critical area. Called by thread which wants to be protected.
proc protect_from_terminate
mov edx, [current_slot]
; Atomically increment depth of critical areas and get the old value.
mov eax, 1
lock xadd [edx+APPDATA.terminate_protection], eax
; If the old value was zero, somebody has started to terminate us,
; so we are destructing and cannot do anything protected.
; Otherwise, return to the caller.
test eax, eax
jz @f
ret
@@:
; Wait for somebody to finish us.
call change_task
jmp @b
endp
; Leave critical area. Called by thread which wants to be protected.
proc unprotect_from_terminate
mov edx, [current_slot]
; Atomically decrement depth of critical areas.
lock dec [edx+APPDATA.terminate_protection]
; If the result of decrement is zero, somebody has requested termination,
; but at that moment we were inside a critical area; terminate now.
jz sys_end
; Otherwise, return to the caller.
ret
endp
; Request termination of thread identified by edx = SLOT_BASE + slot*256.
; Called by anyone.
proc request_terminate
xor eax, eax ; set return value
; Atomically clear the upper bit. If it was already zero, then
; somebody has requested termination before us, so just exit.
lock btr [edx+APPDATA.terminate_protection], 31
jnc .unsafe
; Atomically decrement depth of critical areas.
lock dec [edx+APPDATA.terminate_protection]
; If the result of decrement is nonzero, the target thread is inside a
; critical area; leave termination to leaving that area.
jnz .unsafe
; Otherwise, it is safe to kill the target now and the caller is responsible
; for this. Return eax=1.
inc eax
.unsafe:
ret
endp

/kernel/branches/Kolibri-acpi/core/syscall.inc
38,9 → 38,13
pushad
cld
movzx eax, al
call protect_from_terminate
movzx eax, byte [esp+28]
mov edx, dword [esp+20]
call dword [servetable2 + eax * 4]
call unprotect_from_terminate
popad
;------------------
xchg ecx, [ss:esp] ; â âåðøèí ñòåêà - app ecx, ecx - app esp + 4
62,8 → 66,11
i40:
pushad
cld
movzx eax, al
call protect_from_terminate
movzx eax, byte [esp+28]
mov edx, dword [esp+20]
call dword [servetable2 + eax * 4]
call unprotect_from_terminate
popad
iretd
85,10 → 92,13
;------------------
pushad
cld
call protect_from_terminate
movzx eax, al
movzx eax, byte [esp+28]
mov edx, dword [esp+20]
call dword [servetable2 + eax * 4]
call unprotect_from_terminate
popad
;------------------
mov ecx, [ss:esp+4]
125,7 → 135,7
dd sys_getkey ; 2-GetKey
dd sys_clock ; 3-GetTime
dd syscall_writetext ; 4-WriteText
dd delay_hs ; 5-DelayHs
dd delay_hs_unprotected ; 5-DelayHs
dd syscall_openramdiskfile ; 6-OpenRamdiskFile
dd syscall_putimage ; 7-PutImage
dd syscall_button ; 8-DefineButton

/kernel/branches/Kolibri-acpi/core/taskman.inc
1023,6 → 1023,7
mov [eax+SLOT_BASE+APPDATA.fpu_state], edi
mov [eax+SLOT_BASE+APPDATA.exc_handler], 0
mov [eax+SLOT_BASE+APPDATA.except_mask], 0
mov [eax+SLOT_BASE+APPDATA.terminate_protection], 80000001h
;set default io permission map
mov ecx, [SLOT_BASE+256+APPDATA.io_map]
1147,6 → 1148,14
mov eax, [esi+0x08] ;app_eip
mov [ebx+REG_EIP], eax;app_entry
mov [ebx+REG_CS], dword app_code
mov eax, [CURRENT_TASK]
shl eax, 8 ; created by kernel?
cmp [SLOT_BASE+eax+APPDATA.dir_table], sys_pgdir - OS_BASE
jnz @f
cmp [app_path], 0 ; it is a thread?
jnz @f
mov [ebx+REG_CS], dword os_code ; kernel thread
@@:
mov [ebx+REG_EFLAGS], dword EFL_IOPL1+EFL_IF
mov eax, [esi+0x0C] ;app_esp

/kernel/branches/Kolibri-acpi/core/v86.inc
888,6 → 888,7
.cont2:
pop ecx
.cont:
add ebx, 0x100
loop .scan
mov ecx, edi
call irq_eoi

/kernel/branches/Kolibri-acpi/data32.inc
87,6 → 87,8
if preboot_blogesc
boot_tasking db '‚ᥠ£®â®¢® ¤«ï § ¯ã᪠, ­ ¦¬¨âॠESC ¤«ï áâ àâ ',0
end if
else if lang eq sp
include 'data32sp.inc'
else
boot_initirq db 'Initialize IRQ',0
boot_picinit db 'Initialize PIC',0
131,8 → 133,10
msg_unresolved db 'unresolved ',0
msg_module db 'in module ',0
if ~ lang eq sp
msg_version db 'incompatible driver version',13,10,0
msg_www db 'please visit www.kolibrios.org',13,10,0
end if
msg_CR db 13,10,0
intel_str db "GenuineIntel",0
155,7 → 159,7
notifyapp db '@notify',0
if lang eq ru
ud_user_message db 'Žè¨¡ª : ­¥¯®¤¤¥à¦¨¢ ¥¬ ï ¨­áâàãªæ¨ï ¯à®æ¥áá®à ',0
else
else if ~ lang eq sp
ud_user_message db 'Error: unsupported processor instruction',0
end if
177,6 → 181,10
.bk dd dll_list
.fd dd dll_list
pcidev_list:
.bk dd pcidev_list
.fd dd pcidev_list
MAX_DEFAULT_DLL_ADDR = 0x80000000
MIN_DEFAULT_DLL_ADDR = 0x70000000
dll_cur_addr dd MIN_DEFAULT_DLL_ADDR
324,6 → 332,8
mem_used_list rd 64*2
mem_hash_cnt rd 64
cpu_freq rq 1
heap_mutex MUTEX
heap_size rd 1
heap_free rd 1
382,7 → 392,6
LFBSize rd 1
stall_mcs rd 1
current_slot rd 1
; status

/kernel/branches/Kolibri-acpi/data32sp.inc
0,0 → 1,40
boot_initirq db 'Inicializar IRQ',0
boot_picinit db 'Inicializar PIC',0
boot_v86machine db 'Inicializar sistema V86',0
boot_inittimer db 'Inicializar reloj del sistema (IRQ0)',0
boot_initapic db 'Prueba inicializar APIC',0
boot_enableirq db 'Habilitar interrupciones 2, 6, 13, 14, 15',0
boot_enablint_ide db 'Habiliar interrupciones en controladores IDE',0
boot_detectfloppy db 'Buscar unidades de disquete',0
boot_detecthdcd db 'Buscar discos duros y unidades ATAPI',0
boot_getcache db 'Tomar memoria para cach‚',0
boot_detectpart db 'Buscar particiones en discos',0
boot_init_sys db 'Inicializar directorio del sistema /sys',0
boot_loadlibs db 'Cargando librer¡as (.obj)',0
boot_memdetect db 'Determinando cantidad de memoria',0
boot_tss db 'Configurando TSSs',0
boot_cpuid db 'Leyendo CPUIDs',0
; boot_devices db 'Detectando dispositivos',0
boot_setmouse db 'Configurando el rat¢n',0
boot_windefs db 'Setting window defaults',0
boot_bgr db 'Calculating background',0
boot_resirqports db 'Reservando IRQs y puertos',0
boot_setostask db 'Configurando tarea OS',0
boot_allirqs db 'Desenmascarando IRQs',0
boot_tsc db 'Leyendo TSC',0
boot_cpufreq db 'La frequencia del CPU es ',' ',' MHz',0
boot_pal_ega db 'Configurando paleta EGA/CGA 320x200',0
boot_pal_vga db 'Configurando paleta VGA 640x480',0
boot_failed db 'Fallo al iniciar la primer aplicaci¢n',0
boot_mtrr db 'Configurando MTRR',0
boot_APIC_found db 'APIC habilitado', 0
boot_APIC_nfound db 'APIC no encontrado', 0
if preboot_blogesc
boot_tasking db 'Todo configurado - presiona ESC para iniciar',0
end if
msg_version db 'versi¢n incompatible del controlador',13,10,0
msg_www db 'por favor, visita www.kolibrios.org',13,10,0
ud_user_message db 'Error: instrucci¢n no soportada por el procesador',0

/kernel/branches/Kolibri-acpi/docs/drivers_api.txt
13,14 → 13,12
more DiskMediaChanged, then optionally DiskDel. The driver must not call
two functions in parallel, including two calls to DiskMediaChanged.
void* DiskAdd(DISKFUNC* functions, const char* name, void* userdata, int flags);
; The pointer 'functions' must be valid at least until the disk will be deleted
; (until DISKFUNC.close is called).
; The pointer 'name' can be invalid after this function returns.
; It should point to ASCIIZ-string without leading '/' in latin lowercase and
; digits, like 'usbhd0'.
; The value 'userdata' is any pointer-sized data, passed as is to all
; callbacks.
void* stdcall DiskAdd(DISKFUNC* functions, const char* name, void* userdata,
int flags); ; The pointer 'functions' must be valid at least until the disk
will be deleted ; (until DISKFUNC.close is called). ; The pointer 'name' can
be invalid after this function returns. ; It should point to ASCIIZ-string
without leading '/' in latin lowercase and ; digits, like 'usbhd0'. ; The
value 'userdata' is any pointer-sized data, passed as is to all ; callbacks.
DISK_NO_INSERT_NOTIFICATION = 1
; The bitfield 'flags' has currently only one bit defined. If it is set, the
; driver will never call DiskMediaChanged(hDisk, true), so the kernel must scan
29,13 → 27,13
{
.strucsize dd ?
.close dd ?
; void close(void* userdata);
; void stdcall (*close)(void* userdata);
; Optional.
; The last function that is called for the given disk. The kernel calls it when
; the kernel has finished all operations with the disk and it is safe to free
; all driver-specific data identified by 'userdata'.
.closemedia dd ?
; void closemedia(void* userdata);
; void stdcall (*closemedia)(void* userdata);
; Optional.
; The kernel calls this function when it finished all processing with the
; current media. If media is removed, the driver should decline all requests
43,25 → 41,25
; until this function is called. If media is removed, a new call to
; DiskMediaChanged(hDisk, true) is not allowed until this function is called.
.querymedia dd ?
; int querymedia(void* userdata, DISKMEDIAINFO* info);
; int stdcall (*querymedia)(void* userdata, DISKMEDIAINFO* info);
; return value: 0 = success, otherwise = error
.read dd ?
; int read(void* userdata, void* buffer, __int64 startsector,
; int* numsectors);
; int stdcall (*read)(void* userdata, void* buffer, __int64 startsector,
; int* numsectors);
; return value: 0 = success, otherwise = error
.write dd ?
; int write(void* userdata, const void* buffer, __int64 startsector,
; int* numsectors);
; int stdcall (*write)(void* userdata, const void* buffer, __int64 startsector,
; int* numsectors);
; Optional.
; return value: 0 = success, otherwise = error
.flush dd ?
; int flush(void* userdata);
; int stdcall (*flush)(void* userdata);
; Optional.
; Flushes the hardware cache, if it exists. Note that a driver should not
; implement a software cache for read/write, since they are called from the
; kernel cache manager.
.adjust_cache_size dd ?
; unsigned int adjust_cache_size(unsigned int suggested_size);
; unsigned int stdcall (*adjust_cache_size)(unsigned int suggested_size);
; Optional.
; Returns the cache size for this device in bytes. 0 = disable cache.
}

/kernel/branches/Kolibri-acpi/docs/sysfuncr.txt
200,10 → 200,10
* ecx = 0xXYRRGGBB, £¤¥
* RR, GG, BB § ¤ îâ 梥â ⥪áâ
* X=ABnn (¡¨âë):
* nn § ¤ ¥â ¨á¯®«ì§ã¥¬ë© èà¨äâ: 0=á¨á⥬­ë© ¬®­®è¨à¨­­ë©,
1=á¨á⥬­ë© èà¨äâ ¯¥à¥¬¥­­®© è¨à¨­ë
* A=0 - ¢ë¢®¤¨âì esi ᨬ¢®«®¢, A=1 - ¢ë¢®¤¨âì ASCIIZ-áâபã
* B=1 - § ªà è¨¢ âì ä®­ 梥⮬ edi
* nn § ¤ ¥â ¨á¯®«ì§ã¥¬ë© èà¨äâ: 0=á¨á⥬­ë© ¬®­®è¨à¨­­ë©,
1=á¨á⥬­ë© èà¨äâ ¯¥à¥¬¥­­®© è¨à¨­ë
* A=0 - ¢ë¢®¤¨âì esi ᨬ¢®«®¢, A=1 - ¢ë¢®¤¨âì ASCIIZ-áâபã
* B=1 - § ªà è¨¢ âì ä®­ 梥⮬ edi
* Y=Cnnn (¡¨âë):
* C=1 ¯¥à¥­ ¯à ¢¨âì ¢ë¢®¤ ¢ ®¡« áâì ¯®«ì§®¢ â¥«ï, § ¤ ­® ¢ edi
* nnn - ­¥ ¨á¯®«ì§ã¥âáï ¢ ⥪ã饬 ¢¨¤¥, ¤®«¦­® ¡ëâì 0 (zero)
3414,15 → 3414,17
* ebx = 3 - ­®¬¥à ¯®¤ä㭪樨
‚®§¢à é ¥¬®¥ §­ ç¥­¨¥:
* eax = ¡¨â®¢ ï ¬ áª :
* ¡¨â 0 (¬ áª  1): «¥¢ë© Shift ­ ¦ â
* ¡¨â 1 (¬ áª  2): ¯à ¢ë© Shift ­ ¦ â
* ¡¨â 2 (¬ áª  4): «¥¢ë© Ctrl ­ ¦ â
* ¡¨â 3 (¬ áª  8): ¯à ¢ë© Ctrl ­ ¦ â
* ¡¨â 4 (¬ áª  0x10): «¥¢ë© Alt ­ ¦ â
* ¡¨â 5 (¬ áª  0x20): ¯à ¢ë© Alt ­ ¦ â
* ¡¨â 6 (¬ áª  0x40): CapsLock ¢ª«îçñ­
* ¡¨â 7 (¬ áª  0x80): NumLock ¢ª«îçñ­
* ¡¨â 8 (¬ áª  0x100): ScrollLock ¢ª«îçñ­
* ¡¨â 0 (¬ áª  1): «¥¢ë© Shift ­ ¦ â
* ¡¨â 1 (¬ áª  2): ¯à ¢ë© Shift ­ ¦ â
* ¡¨â 2 (¬ áª  4): «¥¢ë© Ctrl ­ ¦ â
* ¡¨â 3 (¬ áª  8): ¯à ¢ë© Ctrl ­ ¦ â
* ¡¨â 4 (¬ áª  0x10): «¥¢ë© Alt ­ ¦ â
* ¡¨â 5 (¬ áª  0x20): ¯à ¢ë© Alt ­ ¦ â
* ¡¨â 6 (¬ áª  0x40): CapsLock ¢ª«îçñ­
* ¡¨â 7 (¬ áª  0x80): NumLock ¢ª«îçñ­
* ¡¨â 8 (¬ áª  0x100): ScrollLock ¢ª«îçñ­
* ¡¨â 9 (¬ áª  0x200): «¥¢ë© Win ­ ¦ â
* ¡¨â 10 (¬ áª  0x400): ¯à ¢ë© Win ­ ¦ â
* ¯à®ç¨¥ ¡¨âë á¡à®è¥­ë
----- ®¤äã­ªæ¨ï 4 - ãáâ ­®¢¨âì ®¡é¥á¨á⥬­ãî "£®àïçãî ª« ¢¨èã". -----
4572,6 → 4574,46
* eax = 1 - ¡ãä¥à § ¯®«­¥­
======================================================================
===================== ”ã­ªæ¨ï 73 - blit bitmap =====================
======================================================================
¡«¨â - ª®¯¨à®¢ ­¨¥ ¡¨â®¢®£® ¬ áᨢ
 à ¬¥âàë:
* eax = 73 - ­®¬¥à ä㭪樨
* ebx = ROP ¨ ®¯æ¨®­ «ì­ë¥ ä« £¨
31 6 5 4 3 0
[ reserved ][T][B][ROP]
ROP - ª®¤ à áâ஢ëå ®¯¥à æ¨©
0: ª®¯¨à®¢ âì
1-15: ‡ à¥§¥à¢¨à®¢ ­®
B - ¡«¨â ­  ä®­®¢ãî ¯®ä¥àå­®áâì
T - ¡«¨â á ¯à®§à ç­®áâìî
* ecx = 㪠§ â¥«ì ­  ¯ à ¬¥âàë ä㭪樨
ᬥ饭¨¥ 楫¨ÿ¨ ®âá¥ç¥­¨¥
+0 signed dword: ᬥ饭¨¥ ¯® X ®ª­ , ¤«ï 楫¥¢®£® ¯àאַ㣮«ì­¨ª
¢¥àå­¨© «¥¢ë© 㣮«
+4 signed dword: ᬥ饭¨¥ ¯® Y ®ª­ , ¤«ï 楫¥¢®£® ¯àאַ㣮«ì­¨ª
¢¥àå­¨© «¥¢ë© 㣮«
+8 dword: è¨à¨­  楫¥¢®£® ¯àאַ㣮«ì­¨ª
+12 dword: ¢ëá®â  楫¥¢®£® ¯àאַ㣮«ì­¨ª
ᬥ饭¨¥ ¨á室­¨ª ÿ¨ ®âá¥ç¥­¨¥
+16 signed dword: ᬥ饭¨¥ ¯® X bitmap, ¤«ï ¨á室­®£® ¯àאַ㣮«ì­¨ª
¢¥àå­¨© «¥¢ë© 㣮«
+20 signed dword: ᬥ饭¨¥ ¯® Y bitmap, ¤«ï ¨á室­®£® ¯àאַ㣮«ì­¨ª
¢¥àå­¨© «¥¢ë© 㣮«
+24 dword: è¨à¨­  ¨á室­®£® ¯àאַ㣮«ì­¨ª
+28 dword: ¢ëá®â  ¨á室­®£® ¯àאַ㣮«ì­¨ª
+32: dword: ¤ ­­ë¥ bitmap - ¤®«¦­ë ¡ëâì 32bpp
+36: dword: à §¬¥à áâப¨ bitmap ¢ ¡ ©â å
‚®§¢à é ¥¬®¥ §­ ç¥­¨¥:
* äã­ªæ¨ï ­¥ ¢®§¢à é ¥â §­ ç¥­¨ï
======================================================================
========== ”ã­ªæ¨ï -1 - § ¢¥àè¨âì ¢ë¯®«­¥­¨¥ ¯®â®ª /¯à®æ¥áá  =========
======================================================================
 à ¬¥âàë:

/kernel/branches/Kolibri-acpi/docs/sysfuncs.txt
197,19 → 197,19
* ecx = 0xXYRRGGBB, where
* RR, GG, BB specify text color
* X=ABnn (bits):
* nn specifies the used font: 0=system monospaced,
1=system font of variable width
* A=0 - output esi characters, A=1 - output ASCIIZ-string
* B=1 - fill background with the color edi
* nn specifies the used font: 0=system monospaced,
1=system font of variable width
* A=0 - output esi characters, A=1 - output ASCIIZ-string
* B=1 - fill background with the color edi
* Y = Cnnn
* C=1 redirect the output to the user area, specified in edi
* nnn - not used in the current, must be 0 (zero)
* nnn - not used in the current, must be 0 (zero)
* edx = pointer to the beginning of the string
* esi = for A=0 length of the string, must not exceed 255;
for A=1 is ignored
* edi = color to fill background, if B=1
* edi = pointer to user area, for redirect, if C=1
Returned value:
* function does not return value
Remarks:
1566,28 → 1566,28
Remarks:
* The function is supported only for ATAPI devices (CD and DVD).
* An example of usage of the function is the application CD_tray.
======================================================================
======= Function 25 - put image area on the background layer. ========
======================================================================
Paramters:
* eax = 25 - function number
* ebx = pointer to the previously allocated memory area,
where placed the source images in a format BBGGRRTTBBGGRRTT...
* ecx = [size on axis x]*65536 + [size on axis y]
* edx = [coordinate on axis x]*65536 + [coordinate on axis y]
Returned value:
* function does not return value
Remarks:
* Coordinates of the image are coordinates of the upper left corner
of the image relative to the screen.
* Size of the image in bytes is 4*xsize*ysize
* TT - byte pointer of transparency, at current version:
1 to FF - opaque, 0 - transparent.
* The function places the image directly to LFB. It is not for
background image f.15. Options f.15 to f.25 does not make sense.
======================================================================
======= Function 25 - put image area on the background layer. ========
======================================================================
Paramters:
* eax = 25 - function number
* ebx = pointer to the previously allocated memory area,
where placed the source images in a format BBGGRRTTBBGGRRTT...
* ecx = [size on axis x]*65536 + [size on axis y]
* edx = [coordinate on axis x]*65536 + [coordinate on axis y]
Returned value:
* function does not return value
Remarks:
* Coordinates of the image are coordinates of the upper left corner
of the image relative to the screen.
* Size of the image in bytes is 4*xsize*ysize
* TT - byte pointer of transparency, at current version:
1 to FF - opaque, 0 - transparent.
* The function places the image directly to LFB. It is not for
background image f.15. Options f.15 to f.25 does not make sense.
======================================================================
======== Function 26, subfunction 1 - get MPU MIDI base port. ========
======================================================================
Parameters:
1788,7 → 1788,7
* eax = 0x000000XX - owner of pixel the slot window N
If incorrect values ebx and ecx then function returns 0
* The function takes the value from the area [_WinMapAddress]
======================================================================
======= Function 35 - read the color of a pixel on the screen. =======
======================================================================
3394,15 → 3394,17
* ebx = 3 - subfunction number
Returned value:
* eax = bit mask:
* bit 0 (mask 1): left Shift is pressed
* bit 1 (mask 2): right Shift is pressed
* bit 2 (mask 4): left Ctrl is pressed
* bit 3 (mask 8): right Ctrl is pressed
* bit 4 (mask 0x10): left Alt is pressed
* bit 5 (mask 0x20): right Alt is pressed
* bit 6 (mask 0x40): CapsLock is on
* bit 7 (mask 0x80): NumLock is on
* bit 8 (mask 0x100): ScrollLock is on
* bit 0 (mask 1): left Shift is pressed
* bit 1 (mask 2): right Shift is pressed
* bit 2 (mask 4): left Ctrl is pressed
* bit 3 (mask 8): right Ctrl is pressed
* bit 4 (mask 0x10): left Alt is pressed
* bit 5 (mask 0x20): right Alt is pressed
* bit 6 (mask 0x40): CapsLock is on
* bit 7 (mask 0x80): NumLock is on
* bit 8 (mask 0x100): ScrollLock is on
* bit 9 (mask 0x200): left Win is pressed
* bit 10 (mask 0x400): right Win is pressed
* other bits are cleared
-------------- Subfunction 4 - set system-wide hotkey. ---------------
4135,8 → 4137,8
* '/hd0/2/menuet/pics/tanzania.bmp',0
* '/hd0/1/Program files/NameOfProgram/SomeFile.SomeExtension',0
* '/sys/MySuperApp.ini',0
Also function supports relative names. If the path begins not
with '/', it is considered relative to a current folder. To get or
Also function supports relative names. If the path begins not
with '/', it is considered relative to a current folder. To get or
set a current folder, use the function 30.
Available subfunctions:
4555,7 → 4557,7
B - blit into the background surface
T - transparent blit
* ecx = pointer to the function parametrs
* ecx = pointer to the function parameters
destination offset and clipping
+0 signed dword: destination rectangle X offset from the window
top-left corner
4565,18 → 4567,19
+12 dword: destination rectangle height
source offset and clipping
+16 signed dword: source rectangle X offset from the bitmap top-left corner
+20 signed dword: source rectangle Y offset from the bitmap top-left corner
+16 signed dword: source rectangle X offset from the bitmap
top-left corner
+20 signed dword: source rectangle Y offset from the bitmap
top-left corner
+24 dword: source rectangle width
+28 dword: source rectangle height
+32: dword: size of the bitmap row in bytes
+36: dword: bitmap data - must be 32bpp
+32: dword: bitmap data - must be 32bpp
+36: dword: size of the bitmap row in bytes
Returned value:
* function does not return value
======================================================================
=============== Function -1 - terminate thread/process ===============
======================================================================

/kernel/branches/Kolibri-acpi/drivers/infinity.asm
379,10 → 379,10
mov eax, esp
push ebx
push ecx
push ebx
push ecx
push edx
push esi
push esi
push edi
push 4 ;.out_size
397,10 → 397,10
add esp, 6*4
pop edi
pop esi
pop esi
pop edx
pop ecx
pop ebx
pop ecx
pop ebx
test eax, eax
jz @F

/kernel/branches/Kolibri-acpi/drivers/sb16/CONFIG.INC
6,30 → 6,30
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;flags------------------------------------------------------------
DEBUG equ 1 ;show messages at debug board
DEBUG equ 1 ;show messages at debug board
use_cli_sti equ 1 ;driver become more stable (theoretically)
;constants--------------------------------------------------------
API_VERSION equ 0 ;debug
API_VERSION equ 0 ;debug
OS_BASE equ 0x80000000
new_app_base equ 0x0
PROC_BASE equ (OS_BASE+0x080000)
SB16Buffer equ (OS_BASE+0x2A0000)
SB16_Status equ (OS_BASE+0x2B0000)
DMAPage equ ((SB16Buffer-OS_BASE) shr 16)
OS_BASE equ 0x80000000
new_app_base equ 0x0
PROC_BASE equ (OS_BASE+0x080000)
SB16Buffer equ (OS_BASE+0x2A0000)
SB16_Status equ (OS_BASE+0x2B0000)
DMAPage equ ((SB16Buffer-OS_BASE) shr 16)
SB16Buffer0 equ SB16Buffer
SB16Buffer1 equ (SB16Buffer+16384)
SB16Buffer2 equ (SB16Buffer+(2*16384))
SB16Buffer3 equ (SB16Buffer+(3*16384))
SB16Buffer0 equ SB16Buffer
SB16Buffer1 equ (SB16Buffer+16384)
SB16Buffer2 equ (SB16Buffer+(2*16384))
SB16Buffer3 equ (SB16Buffer+(3*16384))
sb_irq_num equ 5 ;default values for SB16, may be overrided by autodetect
sb_dma_num equ 5 ;default values for SB16, may be overrided by autodetect
sb_irq_num equ 5 ;default values for SB16, may be overrided by autodetect
sb_dma_num equ 5 ;default values for SB16, may be overrided by autodetect
small_buffer equ 32768
full_buffer equ 65536
sb_buffer_size equ small_buffer ; FIX ring buffer overlapped events issue; full_buffer
small_buffer equ 32768
full_buffer equ 65536
sb_buffer_size equ small_buffer ; FIX ring buffer overlapped events issue; full_buffer
__supported_buffer_sizes fix <small_buffer, full_buffer>
38,20 → 38,20
stop
end if
sb_out_rate equ 48000
sb_out_rate equ 48000
;time constant for cards older than SB16
sb_tc equ (256-(1000000/(sb_out_rate*2)))
sb_tc equ (256-(1000000/(sb_out_rate*2)))
SRV_GETVERSION equ 0
DEV_PLAY equ 1
DEV_STOP equ 2
DEV_CALLBACK equ 3
DEV_SET_BUFF equ 4
DEV_NOTIFY equ 5
SRV_GETVERSION equ 0
DEV_PLAY equ 1
DEV_STOP equ 2
DEV_CALLBACK equ 3
DEV_SET_BUFF equ 4
DEV_NOTIFY equ 5
DEV_SET_MASTERVOL equ 6
DEV_GET_MASTERVOL equ 7
DEV_GET_INFO equ 8
DEV_GET_INFO equ 8
DRV_ENTRY equ 1
DRV_EXIT equ -1
DRV_ENTRY equ 1
DRV_EXIT equ -1

/kernel/branches/Kolibri-acpi/drivers/sceletone.asm
43,21 → 43,21
proc START stdcall, state:dword
cmp [state], 1
jne .exit
cmp [state], 1
jne .exit
.entry:
if DEBUG
mov esi, msgInit
call SysMsgBoardStr
mov esi, msgInit
call SysMsgBoardStr
end if
stdcall RegService, my_service, service_proc
ret
stdcall RegService, my_service, service_proc
ret
.fail:
.exit:
xor eax, eax
ret
xor eax, eax
ret
endp
handle equ IOCTL.handle
70,21 → 70,21
align 4
proc service_proc stdcall, ioctl:dword
mov ebx, [ioctl]
mov eax, [ebx+io_code]
cmp eax, SRV_GETVERSION
jne @F
mov ebx, [ioctl]
mov eax, [ebx+io_code]
cmp eax, SRV_GETVERSION
jne @F
mov eax, [ebx+output]
cmp [ebx+out_size], 4
jne .fail
mov [eax], dword API_VERSION
xor eax, eax
ret
mov eax, [ebx+output]
cmp [ebx+out_size], 4
jne .fail
mov [eax], dword API_VERSION
xor eax, eax
ret
@@:
.fail:
or eax, -1
ret
or eax, -1
ret
endp
restore handle
100,53 → 100,53
last_bus dd ?
endl
xor eax, eax
mov [bus], eax
inc eax
call PciApi
cmp eax, -1
je .err
xor eax, eax
mov [bus], eax
inc eax
call PciApi
cmp eax, -1
je .err
mov [last_bus], eax
mov [last_bus], eax
.next_bus:
and [devfn], 0
and [devfn], 0
.next_dev:
stdcall PciRead32, [bus], [devfn], dword 0
test eax, eax
jz .next
cmp eax, -1
je .next
stdcall PciRead32, [bus], [devfn], dword 0
test eax, eax
jz .next
cmp eax, -1
je .next
mov edi, devices
mov edi, devices
@@:
mov ebx, [edi]
test ebx, ebx
jz .next
mov ebx, [edi]
test ebx, ebx
jz .next
cmp eax, ebx
je .found
cmp eax, ebx
je .found
add edi, STRIDE
jmp @B
add edi, STRIDE
jmp @B
.next:
inc [devfn]
cmp [devfn], 256
jb .next_dev
mov eax, [bus]
inc eax
mov [bus], eax
cmp eax, [last_bus]
jna .next_bus
xor eax, eax
ret
inc [devfn]
cmp [devfn], 256
jb .next_dev
mov eax, [bus]
inc eax
mov [bus], eax
cmp eax, [last_bus]
jna .next_bus
xor eax, eax
ret
.found:
xor eax, eax
inc eax
ret
xor eax, eax
inc eax
ret
.err:
xor eax, eax
ret
xor eax, eax
ret
endp
DEVICE_ID equ 1234; pci device id

/kernel/branches/Kolibri-acpi/drivers/tmpdisk_fat.inc
74,7 → 74,7
mov edx, eax
@@:
; 2. Zero all system areas on the disk.
lea ecx, [256*(1+FAT16_ROOTDIR_SECTORS)/2+edx+255]
lea ecx, [256*(1+FAT16_ROOTDIR_SECTORS)+edx+255]
and ecx, not 255
shr ecx, 1
xor eax, eax
299,7 → 299,7
db 'KOLIBRI ' ; BS_OEMName
dw 512 ; BPB_BytsPerSec
db 1 ; BPB_SecsPerClus
dw 1 ; BPB_RsvdSecCnt
dw 2 ; BPB_RsvdSecCnt
db 1 ; BPB_NumFATs
dw 0 ; BPB_RootEntCnt
dw 0 ; BPB_TotSec16

/kernel/branches/Kolibri-acpi/drivers/vidintel.asm
28,25 → 28,25
; the start procedure (see the description above)
START:
; 1. Detect device. Abort if not found.
push esi
call DetectDevice
test esi, esi
jz .return0
push esi
call DetectDevice
test esi, esi
jz .return0
; 2. Detect optimal mode unless the mode is given explicitly. Abort if failed.
if use_predefined_mode = 0
call DetectMode
call DetectMode
end if
cmp [width], 0
jz .return0_cleanup
cmp [width], 0
jz .return0_cleanup
; 3. Set the detected mode.
call SetMode
call SetMode
; 4. Cleanup and return.
.return0_cleanup:
stdcall FreeKernelSpace, esi
stdcall FreeKernelSpace, esi
.return0:
pop esi
xor eax, eax
ret 4
pop esi
xor eax, eax
ret 4
; check that there is Intel videocard
; if so, map MMIO registers and set internal variables
54,78 → 54,78
DetectDevice:
; 1. Sanity check: check that we are dealing with Intel videocard.
; Integrated video device for Intel is always at PCI:0:2:0.
xor esi, esi ; initialize return value to NULL
xor esi, esi ; initialize return value to NULL
; 1a. Get PCI VendorID and DeviceID.
push esi
push 10h
push esi
call PciRead32
push esi
push 10h
push esi
call PciRead32
; 1b. loword(eax) = ax = VendorID, hiword(eax) = DeviceID.
; Test whether we have Intel chipset.
cmp ax, 8086h
jnz .return
cmp ax, 8086h
jnz .return
; 1c. Say hi including DeviceID.
shr eax, 10h
push edi
pusha
mov edi, pciid_text
call WriteWord
mov esi, hellomsg
call SysMsgBoardStr
popa
shr eax, 10h
push edi
pusha
mov edi, pciid_text
call WriteWord
mov esi, hellomsg
call SysMsgBoardStr
popa
; 1d. Test whether we know this DeviceID.
; If this is the case, remember the position of the device in line of Intel cards;
; this knowledge will be useful later.
; Tested on devices with id: 8086:0046, partially 8086:2A02.
mov ecx, pciids_num
mov edi, pciids
repnz scasw
pop edi
jnz .return_unknown_pciid
sub ecx, pciids_num - 1
neg ecx
mov [deviceType], ecx
mov ecx, pciids_num
mov edi, pciids
repnz scasw
pop edi
jnz .return_unknown_pciid
sub ecx, pciids_num - 1
neg ecx
mov [deviceType], ecx
; 1e. Continue saying hi with positive intonation.
pusha
mov esi, knownmsg
call SysMsgBoardStr
popa
pusha
mov esi, knownmsg
call SysMsgBoardStr
popa
; 2. Prepare MMIO region to control the card.
; 2a. Read MMIO physical address from PCI config space.
push 10h
cmp ecx, i9xx_start
jae @f
mov byte [esp], 14h
push 10h
cmp ecx, i9xx_start
jae @f
mov byte [esp], 14h
@@:
push 10h
push esi
call PciRead32
push 10h
push esi
call PciRead32
; 2b. Mask out PCI region type, lower 4 bits.
and al, not 0xF
and al, not 0xF
; 2c. Create virtual mapping of the physical memory.
push 1Bh
push 100000h
push eax
call MapIoMem
push 1Bh
push 100000h
push eax
call MapIoMem
; 3. Return.
xchg esi, eax
xchg esi, eax
.return:
ret
ret
; 1f. If we do not know DeviceID, continue saying hi with negative intonation.
.return_unknown_pciid:
pusha
mov esi, unknownmsg
call SysMsgBoardStr
popa
ret
pusha
mov esi, unknownmsg
call SysMsgBoardStr
popa
ret
; Convert word in ax to hexadecimal text in edi, advance edi.
WriteWord:
; 1. Convert high byte.
push eax
mov al, ah
call WriteByte
pop eax
push eax
mov al, ah
call WriteByte
pop eax
; 2. Convert low byte.
; Fall through to WriteByte; ret from WriteByte is ret from WriteWord too.
132,134 → 132,134
; Convert byte in al to hexadecimal text in edi, advance edi.
WriteByte:
; 1. Convert high nibble.
push eax
shr al, 4
call WriteNibble
pop eax
push eax
shr al, 4
call WriteNibble
pop eax
; 2. Convert low nibble.
and al, 0xF
and al, 0xF
; Fall through to WriteNibble; ret from WriteNibble is ret from WriteByte too.
; Convert nibble in al to hexadecimal text in edi, advance edi.
WriteNibble:
; Obvious, isn't it?
cmp al, 10
sbb al, 69h
das
stosb
ret
cmp al, 10
sbb al, 69h
das
stosb
ret
if use_predefined_mode = 0
; detect resolution of the flat panel
DetectMode:
push esi edi
push esi edi
; 1. Get the location of block of GMBUS* registers.
; Starting with Ironlake, GMBUS* registers were moved.
add esi, 5100h
cmp [deviceType], ironlake_start
jb @f
add esi, 0xC0000
add esi, 5100h
cmp [deviceType], ironlake_start
jb @f
add esi, 0xC0000
@@:
; 2. Initialize GMBUS engine.
mov edi, edid
mov ecx, 0x10000
mov edi, edid
mov ecx, 0x10000
@@:
test byte [esi+8+1], 80h
loopnz @b
jnz .fail
mov dword [esi], 3
test byte [esi+8+1], 4
jz .noreset
call ResetGMBus
jnz .fail
test byte [esi+8+1], 80h
loopnz @b
jnz .fail
mov dword [esi], 3
test byte [esi+8+1], 4
jz .noreset
call ResetGMBus
jnz .fail
.noreset:
; 3. Send read command.
and dword [esi+20h], 0
mov dword [esi+4], 4E8000A1h
and dword [esi+20h], 0
mov dword [esi+4], 4E8000A1h
; 4. Wait for data, writing to the buffer as data arrive.
.getdata:
mov ecx, 0x10000
mov ecx, 0x10000
@@:
test byte [esi+8+1], 8
loopz @b
test byte [esi+8+1], 4
jz .dataok
call ResetGMBus
jmp .fail
test byte [esi+8+1], 8
loopz @b
test byte [esi+8+1], 4
jz .dataok
call ResetGMBus
jmp .fail
.dataok:
mov eax, [esi+0Ch]
stosd
cmp edi, edid+80h
jb .getdata
mov eax, [esi+0Ch]
stosd
cmp edi, edid+80h
jb .getdata
; 5. Wait for bus idle.
mov ecx, 0x10000
mov ecx, 0x10000
@@:
test byte [esi+8+1], 2
loopnz @b
test byte [esi+8+1], 2
loopnz @b
; 6. We got EDID; dump it if DEBUG.
if DEBUG
pusha
xor ecx, ecx
mov esi, edid
mov edi, edid_text
pusha
xor ecx, ecx
mov esi, edid
mov edi, edid_text
.dumploop:
lodsb
call WriteByte
mov al, ' '
stosb
inc cl
test cl, 15
jnz @f
mov byte [edi-1], 13
mov al, 10
stosb
lodsb
call WriteByte
mov al, ' '
stosb
inc cl
test cl, 15
jnz @f
mov byte [edi-1], 13
mov al, 10
stosb
@@:
test cl, cl
jns .dumploop
mov esi, edidmsg
call SysMsgBoardStr
popa
test cl, cl
jns .dumploop
mov esi, edidmsg
call SysMsgBoardStr
popa
end if
; 7. Test whether EDID is good.
; 7a. Signature: 00 FF FF FF FF FF FF 00.
mov esi, edid
cmp dword [esi], 0xFFFFFF00
jnz .fail
cmp dword [esi+4], 0x00FFFFFF
jnz .fail
mov esi, edid
cmp dword [esi], 0xFFFFFF00
jnz .fail
cmp dword [esi+4], 0x00FFFFFF
jnz .fail
; 7b. Checksum must be zero.
xor edx, edx
mov ecx, 80h
xor edx, edx
mov ecx, 80h
@@:
lodsb
add dl, al
loop @b
jnz .fail
lodsb
add dl, al
loop @b
jnz .fail
; 8. Get width and height from EDID.
xor eax, eax
mov ah, [esi-80h+3Ah]
shr ah, 4
mov al, [esi-80h+38h]
mov [width], eax
mov ah, [esi-80h+3Dh]
shr ah, 4
mov al, [esi-80h+3Bh]
mov [height], eax
xor eax, eax
mov ah, [esi-80h+3Ah]
shr ah, 4
mov al, [esi-80h+38h]
mov [width], eax
mov ah, [esi-80h+3Dh]
shr ah, 4
mov al, [esi-80h+3Bh]
mov [height], eax
; 9. Return.
.fail:
pop edi esi
ret
pop edi esi
ret
; reset bus, clear all errors
ResetGMBus:
; look into the PRM
mov dword [esi+4], 80000000h
mov dword [esi+4], 0
mov ecx, 0x10000
mov dword [esi+4], 80000000h
mov dword [esi+4], 0
mov ecx, 0x10000
@@:
test byte [esi+8+1], 2
loopnz @b
ret
test byte [esi+8+1], 2
loopnz @b
ret
end if
; set resolution [width]*[height]
266,200 → 266,200
SetMode:
; 1. Program the registers of videocard.
; look into the PRM
cli
; or byte [esi+7000Ah], 0Ch ; PIPEACONF: disable Display+Cursor Planes
; or byte [esi+7100Ah], 0Ch ; PIPEBCONF: disable Display+Cursor Planes
xor eax, eax
xor edx, edx
cmp [deviceType], i965_start
jb @f
mov dl, 9Ch - 84h
cli
; or byte [esi+7000Ah], 0Ch ; PIPEACONF: disable Display+Cursor Planes
; or byte [esi+7100Ah], 0Ch ; PIPEBCONF: disable Display+Cursor Planes
xor eax, eax
xor edx, edx
cmp [deviceType], i965_start
jb @f
mov dl, 9Ch - 84h
@@:
; or byte [esi+71403h], 80h ; VGACNTRL: VGA Display Disable
and byte [esi+70080h], not 27h ; CURACNTR: disable cursor A
mov dword [esi+70084h], eax ; CURABASE: force write to CURA* regs
and byte [esi+700C0h], not 27h ; CURBCNTR: disable cursor B
mov dword [esi+700C4h], eax ; CURBBASE: force write to CURB* regs
and byte [esi+70183h], not 80h ; DSPACNTR: disable Primary A Plane
mov dword [esi+edx+70184h], eax ; DSPALINOFF/DSPASURF: force write to DSPA* regs
and byte [esi+71183h], not 80h ; DSPBCNTR: disable Primary B Plane
mov dword [esi+edx+71184h], eax ; DSPBLINOFF/DSPBSURF: force write to DSPB* regs
; or byte [esi+71403h], 80h ; VGACNTRL: VGA Display Disable
and byte [esi+70080h], not 27h ; CURACNTR: disable cursor A
mov dword [esi+70084h], eax ; CURABASE: force write to CURA* regs
and byte [esi+700C0h], not 27h ; CURBCNTR: disable cursor B
mov dword [esi+700C4h], eax ; CURBBASE: force write to CURB* regs
and byte [esi+70183h], not 80h ; DSPACNTR: disable Primary A Plane
mov dword [esi+edx+70184h], eax ; DSPALINOFF/DSPASURF: force write to DSPA* regs
and byte [esi+71183h], not 80h ; DSPBCNTR: disable Primary B Plane
mov dword [esi+edx+71184h], eax ; DSPBLINOFF/DSPBSURF: force write to DSPB* regs
if 1
cmp [deviceType], ironlake_start
jae .disable_pipes
mov edx, 10000h
or byte [esi+70024h], 2 ; PIPEASTAT: clear VBLANK status
or byte [esi+71024h], 2 ; PIPEBSTAT: clear VBLANK status
cmp [deviceType], ironlake_start
jae .disable_pipes
mov edx, 10000h
or byte [esi+70024h], 2 ; PIPEASTAT: clear VBLANK status
or byte [esi+71024h], 2 ; PIPEBSTAT: clear VBLANK status
.wait_vblank_preironlake1:
mov ecx, 1000h
loop $
test byte [esi+7000Bh], 80h ; PIPEACONF: pipe A active?
jz @f
test byte [esi+70024h], 2 ; PIPEASTAT: got VBLANK?
jz .wait_vblank_preironlake2
mov ecx, 1000h
loop $
test byte [esi+7000Bh], 80h ; PIPEACONF: pipe A active?
jz @f
test byte [esi+70024h], 2 ; PIPEASTAT: got VBLANK?
jz .wait_vblank_preironlake2
@@:
test byte [esi+7100Bh], 80h ; PIPEBCONF: pipe B active?
jz .disable_pipes
test byte [esi+71024h], 2 ; PIPEBSTAT: got VBLANK?
jnz .disable_pipes
test byte [esi+7100Bh], 80h ; PIPEBCONF: pipe B active?
jz .disable_pipes
test byte [esi+71024h], 2 ; PIPEBSTAT: got VBLANK?
jnz .disable_pipes
.wait_vblank_preironlake2:
dec edx
jnz .wait_vblank_preironlake1
jmp .not_disabled
dec edx
jnz .wait_vblank_preironlake1
jmp .not_disabled
.disable_pipes:
end if
and byte [esi+7000Bh], not 80h ; PIPEACONF: disable pipe
and byte [esi+7100Bh], not 80h ; PIPEBCONF: disable pipe
and byte [esi+7000Bh], not 80h ; PIPEACONF: disable pipe
and byte [esi+7100Bh], not 80h ; PIPEBCONF: disable pipe
if 1
mov edx, 10000h
mov edx, 10000h
@@:
mov ecx, 1000h
loop $
test byte [esi+7000Bh], 40h ; PIPEACONF: wait until pipe disabled
jz @f
dec edx
jnz @b
mov ecx, 1000h
loop $
test byte [esi+7000Bh], 40h ; PIPEACONF: wait until pipe disabled
jz @f
dec edx
jnz @b
.not_disabled:
sti
jmp .return
sti
jmp .return
@@:
test byte [esi+7100Bh], 40h ; PIPEBCONF: wait until pipe disabled
jz @f
mov ecx, 1000h
loop $
dec edx
jnz @b
jmp .not_disabled
test byte [esi+7100Bh], 40h ; PIPEBCONF: wait until pipe disabled
jz @f
mov ecx, 1000h
loop $
dec edx
jnz @b
jmp .not_disabled
@@:
else
; alternative way of waiting for pipe stop, works too
mov edx, 1000h
mov edx, 1000h
.dis1:
push dword [esi+71000h]
push dword [esi+70000h]
mov ecx, 10000h
loop $
pop eax
xor eax, [esi+70000h]
and eax, 1FFFh
pop eax
jnz .notdis1
xor eax, [esi+71000h]
and eax, 1FFFh
jz .disabled
push dword [esi+71000h]
push dword [esi+70000h]
mov ecx, 10000h
loop $
pop eax
xor eax, [esi+70000h]
and eax, 1FFFh
pop eax
jnz .notdis1
xor eax, [esi+71000h]
and eax, 1FFFh
jz .disabled
.notdis1:
dec edx
jnz .dis1
dec edx
jnz .dis1
.not_disabled:
sti
jmp .return
sti
jmp .return
.disabled:
end if
lea eax, [esi+61183h]
cmp [deviceType], ironlake_start
jb @f
add eax, 0xE0000 - 0x60000
lea eax, [esi+61183h]
cmp [deviceType], ironlake_start
jb @f
add eax, 0xE0000 - 0x60000
@@:
lea edx, [esi+60000h]
test byte [eax], 40h
jz @f
add edx, 1000h
lea edx, [esi+60000h]
test byte [eax], 40h
jz @f
add edx, 1000h
@@:
mov eax, [width]
dec eax
shl eax, 16
mov ax, word [height]
dec eax
mov dword [edx+1Ch], eax ; PIPEASRC: set source image size
ror eax, 16
mov dword [edx+10190h], eax ; for old cards
mov ecx, [width]
add ecx, 15
and ecx, not 15
shl ecx, 2
mov dword [edx+10188h], ecx ; DSPASTRIDE: set scanline length
and byte [esi+61233h], not 80h ; PFIT_CONTROL: disable panel fitting
or byte [edx+1000Bh], 80h ; PIPEACONF: enable pipe
; and byte [edx+1000Ah], not 0Ch ; PIPEACONF: enable Display+Cursor Planes
or byte [edx+10183h], 80h ; DSPACNTR: enable Display Plane A
sti
mov eax, [width]
dec eax
shl eax, 16
mov ax, word [height]
dec eax
mov dword [edx+1Ch], eax ; PIPEASRC: set source image size
ror eax, 16
mov dword [edx+10190h], eax ; for old cards
mov ecx, [width]
add ecx, 15
and ecx, not 15
shl ecx, 2
mov dword [edx+10188h], ecx ; DSPASTRIDE: set scanline length
and byte [esi+61233h], not 80h ; PFIT_CONTROL: disable panel fitting
or byte [edx+1000Bh], 80h ; PIPEACONF: enable pipe
; and byte [edx+1000Ah], not 0Ch ; PIPEACONF: enable Display+Cursor Planes
or byte [edx+10183h], 80h ; DSPACNTR: enable Display Plane A
sti
; 2. Notify the kernel that resolution has changed.
call GetDisplay
mov edx, [width]
mov dword [eax+8], edx
mov edx, [height]
mov dword [eax+0Ch], edx
mov [eax+18h], ecx
mov eax, [width]
dec eax
dec edx
call SetScreen
call GetDisplay
mov edx, [width]
mov dword [eax+8], edx
mov edx, [height]
mov dword [eax+0Ch], edx
mov [eax+18h], ecx
mov eax, [width]
dec eax
dec edx
call SetScreen
.return:
ret
ret
align 4
hellomsg db 'Intel videocard detected, PciId=8086:'
pciid_text db '0000'
db ', which is ', 0
knownmsg db 'known',13,10,0
unknownmsg db 'unknown',13,10,0
hellomsg db 'Intel videocard detected, PciId=8086:'
pciid_text db '0000'
db ', which is ', 0
knownmsg db 'known',13,10,0
unknownmsg db 'unknown',13,10,0
if DEBUG
edidmsg db 'EDID successfully read:',13,10
edid_text rb 8*(16*3+1)
db 0
edidmsg db 'EDID successfully read:',13,10
edid_text rb 8*(16*3+1)
db 0
end if
version:
dd 0x50005
dd 0x50005
width dd predefined_width
height dd predefined_height
width dd predefined_width
height dd predefined_height
pciids:
dw 0x3577 ; i830m
dw 0x2562 ; 845g
dw 0x3582 ; i855gm
dw 0x3577 ; i830m
dw 0x2562 ; 845g
dw 0x3582 ; i855gm
i865_start = ($ - pciids) / 2
dw 0x2572 ; i865g
dw 0x2572 ; i865g
i9xx_start = ($ - pciids) / 2
dw 0x2582 ; i915g
dw 0x258a ; e7221g (i915g)
dw 0x2592 ; i915gm
dw 0x2772 ; i945g
dw 0x27a2 ; i945gm
dw 0x27ae ; i945gme
dw 0x2582 ; i915g
dw 0x258a ; e7221g (i915g)
dw 0x2592 ; i915gm
dw 0x2772 ; i945g
dw 0x27a2 ; i945gm
dw 0x27ae ; i945gme
i965_start = ($ - pciids) / 2
dw 0x2972 ; i946qz (i965g)
dw 0x2982 ; g35g (i965g)
dw 0x2992 ; i965q (i965g)
dw 0x29a2 ; i965g
dw 0x29b2 ; q35g
dw 0x29c2 ; g33g
dw 0x29d2 ; q33g
dw 0x2a02 ; i965gm
dw 0x2a12 ; i965gm
dw 0x2a42 ; gm45
dw 0x2e02 ; g45
dw 0x2e12 ; g45
dw 0x2e22 ; g45
dw 0x2e32 ; g45
dw 0x2e42 ; g45
dw 0x2e92 ; g45
dw 0xa001 ; pineview
dw 0xa011 ; pineview
dw 0x2972 ; i946qz (i965g)
dw 0x2982 ; g35g (i965g)
dw 0x2992 ; i965q (i965g)
dw 0x29a2 ; i965g
dw 0x29b2 ; q35g
dw 0x29c2 ; g33g
dw 0x29d2 ; q33g
dw 0x2a02 ; i965gm
dw 0x2a12 ; i965gm
dw 0x2a42 ; gm45
dw 0x2e02 ; g45
dw 0x2e12 ; g45
dw 0x2e22 ; g45
dw 0x2e32 ; g45
dw 0x2e42 ; g45
dw 0x2e92 ; g45
dw 0xa001 ; pineview
dw 0xa011 ; pineview
ironlake_start = ($ - pciids) / 2
dw 0x0042 ; ironlake_d
dw 0x0046 ; ironlake_m
dw 0x0102 ; sandybridge_d
dw 0x0112 ; sandybridge_d
dw 0x0122 ; sandybridge_d
dw 0x0106 ; sandybridge_m
dw 0x0116 ; sandybridge_m
dw 0x0126 ; sandybridge_m
dw 0x010A ; sandybridge_d
dw 0x0042 ; ironlake_d
dw 0x0046 ; ironlake_m
dw 0x0102 ; sandybridge_d
dw 0x0112 ; sandybridge_d
dw 0x0122 ; sandybridge_d
dw 0x0106 ; sandybridge_m
dw 0x0116 ; sandybridge_m
dw 0x0126 ; sandybridge_m
dw 0x010A ; sandybridge_d
pciids_num = ($ - pciids) / 2
align 4
deviceType dd ?
edid rb 0x80
deviceType dd ?
edid rb 0x80

/kernel/branches/Kolibri-acpi/fs/ext2.inc
10,27 → 10,27
$Revision$
EXT2_BAD_INO = 1
EXT2_BAD_INO = 1
EXT2_ROOT_INO = 2
EXT2_ACL_IDX_INO = 3
EXT2_ACL_IDX_INO = 3
EXT2_ACL_DATA_INO = 4
EXT2_BOOT_LOADER_INO = 5
EXT2_UNDEL_DIR_INO = 6
EXT2_UNDEL_DIR_INO = 6
;флаги, указываемый в inode файла
EXT2_S_IFREG = 0x8000
EXT2_S_IFDIR = 0x4000
EXT2_S_IFREG = 0x8000
EXT2_S_IFDIR = 0x4000
EXT2_S_IFMT = 0xF000 ;маска для типа файла
;флаги, указываемые в linked list родительской папки
EXT2_FT_REG_FILE = 1 ;это файл, запись в родительском каталоге
EXT2_FT_DIR = 2 ;это папка
EXT2_FT_REG_FILE = 1 ;это файл, запись в родительском каталоге
EXT2_FT_DIR = 2 ;это папка
;флаги используемые KolibriOS
FS_FT_HIDDEN = 2
FS_FT_DIR = 0x10 ;это папка
FS_FT_ASCII = 0 ;имя в ascii
FS_FT_UNICODE = 1 ;имя в unicode
FS_FT_HIDDEN = 2
FS_FT_DIR = 0x10 ;это папка
FS_FT_ASCII = 0 ;имя в ascii
FS_FT_UNICODE = 1 ;имя в unicode
EXT2_FEATURE_INCOMPAT_FILETYPE = 0x0002 ;тип файла должен указываться в директории
EXT4_FEATURE_INCOMPAT_EXTENTS = 0x0040 ;экстенты
269,7 → 269,7
;==================================================================
;read ext2 block form FS to memory
;in: eax = i_block (address of block in ext2 terms)
; ebx = pointer to return memory
; ebx = pointer to return memory
;out: eax - error code (0 = no_error)
ext2_get_block:
push ebx ecx
370,7 → 370,7
;===================================================================
;получает адрес ext2 блока из inode с определнным номером
;in: ecx = номер блока в inode (0..)
; ebp = адрес inode
; ebp = адрес inode
;out: ecx = адрес очередного блока
; eax - error code
ext2_get_inode_block:
430,7 → 430,7
jnz .fail
mov eax, ecx
@@:
@@:
xor edx, edx
div [ext2_data.count_pointer_in_block]
450,7 → 450,7
mov ebx, [ext2_data.ext2_temp_block]
call ext2_get_block
test eax, eax
jz @F ;если не было ошибки
jnz @F ;если не было ошибки
mov ecx, [ebx + ecx*4] ;заносим результат
@@:
464,8 → 464,8
;===================================================================
;get content inode by num
;in: eax = inode_num
; ebx = address of inode content
;in: eax = inode_num
; ebx = address of inode content
;out: eax - error code
ext2_get_inode:
pushad
496,7 → 496,7
mov ecx, [ext2_data.log_block_size]
shl eax, cl
add eax, [PARTITION_START] ; а старт раздела - в терминах hdd (512)
add eax, [PARTITION_START] ; а старт раздела - в терминах hdd (512)
;eax - указывает на таблицу inode-ов на hdd
mov esi, eax ;сохраним его пока в esi
565,7 → 565,7
rep movsd
pop ecx
@@:
cmp [ebp + EXT2_INODE_STRUC.i_blocks], 0 ;папка пуста
cmp [ebp + EXT2_INODE_STRUC.i_size], 0 ;папка пуста
je .error_empty_dir
push edx ;адрес результата [edi + 28]
580,7 → 580,7
mov edi, edx
mov ecx, 32/4
rep stosd ; fill header zero
mov edi, esp ; edi - указатель на локальные переменные
add edx, 32 ; edx = current mem for return
608,7 → 608,7
jz @F
inc dword [edi + 4] ; EXT2_files_in_folder
dec ecx
@@:
@@:
movzx ebx, [esi + EXT2_DIR_STRUC.rec_len]
cmp ebx, 12 ; минимальная длина записи
616,6 → 616,7
test ebx, 0x3 ; длина записи должна делиться на 4
jnz .error_bad_len
sub [ebp + EXT2_INODE_STRUC.i_size], ebx ;вычитаем напрямую из структуры inode
add esi, ebx ; к следующей записи
cmp esi, [edi + 24] ; сравниваем с концом блока
jb .find_wanted_start
622,8 → 623,7
push .find_wanted_start
.end_block: ;вылетели из цикла
mov ebx, [ext2_data.count_block_in_block]
sub [ebp + EXT2_INODE_STRUC.i_blocks], ebx ;вычитаем напрямую из структуры inode
cmp [ebp + EXT2_INODE_STRUC.i_size], 0
jle .end_dir
inc dword [edi] ;получаем новый блок
643,7 → 643,7
mov esi, ebx
add ebx, [ext2_data.block_size]
mov [edi + 24], ebx ;запомним конец блока
ret ; опять в цикл
ret ; опять в цикл
.wanted_end:
loop .find_wanted_cycle ; ecx 0 => -1 нужно посчитать сколько файлов
651,7 → 651,7
;дошли до первого "нужного" файла
.find_wanted_end:
mov ecx, [edi + 20]
.wanted_start: ; ищем first_wanted+count
.wanted_start: ; ищем first_wanted+count
jecxz .wanted_end
cmp [esi + EXT2_DIR_STRUC.inode], 0 ; if (inode = 0) => not used
jz .empty_rec
674,7 → 674,7
lea edi, [edx + 8]
mov eax, [ebx + EXT2_INODE_STRUC.i_ctime] ; переведем время в ntfs формат
mov eax, [ebx + EXT2_INODE_STRUC.i_ctime] ; переведем время в ntfs формат
xor edx, edx
add eax, 3054539008 ;(369 * 365 + 89) * 24 * 3600
adc edx, 2
693,18 → 693,18
call ntfs_datetime_to_bdfe.sec
pop edx ; пока достаем только буфер
test [ebx + EXT2_INODE_STRUC.i_mode], EXT2_S_IFDIR ; для папки размер
test [ebx + EXT2_INODE_STRUC.i_mode], EXT2_S_IFDIR ; для папки размер
jnz @F ; не возвращаем
mov eax, [ebx + EXT2_INODE_STRUC.i_size] ;low size
mov eax, [ebx + EXT2_INODE_STRUC.i_size] ;low size
stosd
mov eax, [ebx + EXT2_INODE_STRUC.i_dir_acl] ;high size
mov eax, [ebx + EXT2_INODE_STRUC.i_dir_acl] ;high size
stosd
xor dword [edx], FS_FT_DIR ;помечаем, что это файл(2 раза xor)
@@:
@@:
xor dword [edx], FS_FT_DIR ;помечаем, что это файл
;теперь скопируем имя, сконвертировав из UTF-8 в CP866
;теперь скопируем имя, сконвертировав из UTF-8 в CP866
push ecx ;edi и esi уже сохранены в стеке
movzx ecx, [esi + EXT2_DIR_STRUC.name_len]
lea edi, [edx + 40]
716,11 → 716,11
cmp byte [edx + 40], '.' ; в linux файл, начинающийся с точки - скрытый
jne @F
or dword [edx], FS_FT_HIDDEN
@@:
@@:
add edx, 40 + 264 ; go to next record
dec ecx ; если запись пустая ecx не надо уменьшать
.empty_rec:
.empty_rec:
movzx ebx, [esi + EXT2_DIR_STRUC.rec_len]
cmp ebx, 12 ; минимальная длина записи
jb .error_bad_len
727,6 → 727,7
test ebx, 0x3 ; длина записи должна делиться на 4
jnz .error_bad_len
sub [ebp + EXT2_INODE_STRUC.i_size], ebx ;вычитаем напрямую из структуры inode
add esi, ebx
cmp esi, [edi + 24] ;дошли ли до конца блока?
jb .wanted_start
895,15 → 896,13
jae .size_great_great
.size_great_less:
push 1
; or [EXT2_files_in_folder], 1 ;читаем по границе размера
push 1 ;читаем по границе размера
mov ecx, [ebp + EXT2_INODE_STRUC.i_size]
sub ecx, [esi] ;(размер - старт) = сколько читать
jmp @F
.size_great_great:
push 0
; and [EXT2_files_in_folder], 0 ;читаем столько сколько запросили
push 0 ;читаем столько сколько запросили
@@:
;здесь мы точно знаем сколько байт читать - ecx
919,8 → 918,8
mov eax, [esi]
div [ext2_data.block_size]
push eax ;номер блока запоминаем
push eax ;счетчик блоков ложим в стек
push ecx
mov ecx, eax
call ext2_get_inode_block
949,12 → 948,12
.zero_start:
mov eax, ecx
push 0 ;счетчик блоков
push 0 ;счетчик блоков ложим в стек
;теперь в eax кол-во оставшихся байт для чтения
.calc_blocks_count:
mov ebx, edi ;чтение блока прям в ->ebx
xor edx, edx
div [ext2_data.block_size] ;кол-во байт в последнем блоке (остаток) в edx
div [ext2_data.block_size] ;кол-во байт в последнем блоке (остаток) в edx
mov edi, eax ;кол-во целых блоков в edi
@@:
test edi, edi
982,7 → 981,7
inc ecx
call ext2_get_inode_block
test eax, eax
jz .error_at_finish_block
jnz .error_at_finish_block
mov edi, ebx
mov eax, ecx
991,12 → 990,16
test eax, eax
jnz .error_at_finish_block
mov ecx, edx
mov ecx, edx
mov esi, ebx
rep movsb ;кусок last блока
jmp @F
.end_read:
pop ebx
pop eax
pop ecx ;счетчик блоков, который хранился в стеке
@@:
pop ebx ;количество считанных байт
pop eax ; 1 или 0 - достигли ли конца файла
test eax, eax
jz @F
1009,7 → 1012,6
.only_one_block:
mov esi, ebx
rep movsb ;кусок last блока
pop eax
jmp .end_read
.error_at_first_block:
1094,23 → 1096,24
push [ebp + EXT2_INODE_STRUC.i_blocks]
xor ecx, ecx
.folder_block_cycle:
push ecx
call ext2_get_inode_block
test eax, eax
jnz .error_get_inode_block
mov eax, ecx
mov ebx, [ext2_data.ext2_save_block] ;ebx = cur dir record
call ext2_get_block
test eax, eax
jnz .error_get_block
push esi
call ext2_test_block_by_name
pop edi
pop edi ecx
cmp edi, esi ;нашли имя?
je .next_folder_block ;не нашли -> к след. блоку
cmp byte [esi], 0 ;дошли до "конца" пути -> возваращаемся
jz .get_inode_ret
1132,11 → 1135,11
sub eax, [ext2_data.count_block_in_block]
jle .not_found
push eax
inc ecx
jmp .folder_block_cycle
.not_found:
pop ebx
mov eax, ERROR_FILE_NOT_FOUND
ret
1152,6 → 1155,7
.error_get_inode_block:
.error_get_block:
pop ecx
.error_get_inode:
pop ebx
.error_empty_root:

/kernel/branches/Kolibri-acpi/fs/fat12.inc
2257,15 → 2257,17
popa
; delete FAT chain
pop eax
test eax, eax
jz .done
@@:
cmp eax, 2
jb .done
cmp eax, 0xFF8
jae .done
lea eax, [FLOPPY_FAT + eax*2]
push dword [eax]
and word [eax], 0
pop eax
and eax, 0xFFF
jnz @b
jmp @b
.done:
call save_flp_fat
pop edi

/kernel/branches/Kolibri-acpi/fs/fs-sp.inc
0,0 → 1,13
dir0:
db 'DISCO DURO '
db 'UNIDAD RAM '
db 'DISQUETE '
db 0
dir1:
db 'PRIMERO '
db 'SEGUNDO '
db 'TERCERO '
db 'CUARTO '
db 0

/kernel/branches/Kolibri-acpi/fs/fs.inc
21,6 → 21,10
iglobal
if lang eq sp
include 'fs/fs-sp.inc'
else
dir0:
db 'HARDDISK '
db 'RAMDISK '
33,6 → 37,7
db 'THIRD '
db 'FOURTH '
db 0
end if
not_select_IDE db 0

/kernel/branches/Kolibri-acpi/fs/fs_lfn.inc
103,6 → 103,17
dd 0
endg
file_system_lfn_protected:
pushad
call protect_from_terminate
call file_system_lfn
call unprotect_from_terminate
popad
mov [image_of_eax], eax
mov [image_of_ebx], ebx
ret
file_system_lfn:
; in: ebx->fileinfo block
; operation codes:

/kernel/branches/Kolibri-acpi/gui/char2_sp.mt
Cannot display: file marked as a binary type.
svn:mime-type = application/octet-stream
Property changes:
Added: svn:mime-type
+application/octet-stream
\ No newline at end of property

/kernel/branches/Kolibri-acpi/gui/char_sp.mt
Cannot display: file marked as a binary type.
svn:mime-type = application/octet-stream
Property changes:
Added: svn:mime-type
+application/octet-stream
\ No newline at end of property

/kernel/branches/Kolibri-acpi/gui/event.inc
165,6 → 165,7
; esi - event data (=0 => skip)
;scratched: ebx,ecx,esi,edi
call NotDummyTest ; not returned for fail !!!
mov [check_idle_semaphore], 5
or esi, esi
jz @f
lea edi, [ebx+EVENT.code]
307,6 → 308,23
jmp wait_finish
;-----------------------------------------------------------------------------
align 4
wait_event_timeout:
;param:
; eax - event
; ebx - uid (for Dummy testing)
; ecx - timeout in timer ticks
;retval:
; eax - EVENT handle or 0 if timeout
call DummyTest
mov ebx, ecx
mov ecx, eax ; wait_param
mov edx, get_event_alone ; wait_test
call Wait_events_ex
test eax, eax
jnz wait_finish
ret
;-----------------------------------------------------------------------------
align 4
get_event_ex: ;; f68:14
;info:
; Îæèäàíèå ëþáîãî ñîáûòèÿ â î÷åðåäè EventList òåêóùåãî ñëîòà
441,7 → 459,7
;--------------------------------------
align 4
.result:
setae byte[esp+32] ;ñ÷èòàåì, ÷òî èñõîäíî: dword[esp+32]==72
setae byte[esp+32+4] ;ñ÷èòàåì, ÷òî èñõîäíî: dword[esp+32+4]==72
;--------------------------------------
align 4
.retf:
467,9 → 485,11
;--------------------------------------
align 4
sys_wait_event_timeout: ;; f23
call unprotect_from_terminate
mov edx, get_event_for_app; wait_test
call Wait_events_ex ; ebx - timeout
mov [esp+32], eax
call protect_from_terminate
ret
;-----------------------------------------------------------------------------
align 4
593,4 → 613,4
jb @b
jmp .loop
;end.
;-----------------------------------------------------------------------------
;-----------------------------------------------------------------------------

/kernel/branches/Kolibri-acpi/gui/font.inc
7,6 → 7,8
$Revision$
include "lang.inc"
;------------------------------------------------------------------------------
align 4
dtext_asciiz_esi: ; for skins title out
231,9 → 233,17
;------------------------------------------------------------------------------
align 4
FONT_I:
if lang eq sp
file 'char_sp.mt'
else
file 'char.mt'
end if
;------------------------------------------------------------------------------
align 4
FONT_II:
if lang eq sp
file 'char2_sp.mt'
else
file 'char2.mt'
;------------------------------------------------------------------------------
end if
;------------------------------------------------------------------------------

/kernel/branches/Kolibri-acpi/gui/window.inc
381,6 → 381,16
push esi edx ecx ebx
mov eax, esp
mov bl, [edi + WDATA.fl_wstate]
;--------------------------------------
align 4
@@:
cmp [REDRAW_BACKGROUND], byte 0
jz @f
call change_task
jmp @b
;--------------------------------------
align 4
@@:
call window._.set_window_box
add esp, sizeof.BOX

/kernel/branches/Kolibri-acpi/hid/keyboard.inc
17,6 → 17,8
VKEY_CAPSLOCK = 0000000001000000b
VKEY_NUMLOCK = 0000000010000000b
VKEY_SCRLOCK = 0000000100000000b
VKEY_LWIN = 0000001000000000b
VKEY_RWIN = 0000010000000000b
VKEY_SHIFT = 0000000000000011b
VKEY_CONTROL = 0000000000001100b
224,7 → 226,30
xchg cl, [ext_code]
and al, 0x7F
mov bh, 1
;--------------------------------------
@@:
cmp al, 0x5B
jne @f
cmp cl, 0xE0
jne @f
mov eax, VKEY_LWIN
mov bh, 0
jmp .modifier
;--------------------------------------
@@:
cmp al, 0x5C
jne @f
cmp cl, 0xE0
jne @f
mov eax, VKEY_RWIN
mov bh, 0
jmp .modifier
;--------------------------------------
@@:
cmp al, 0x2A
jne @f
359,9 → 384,6
xor [kb_state], eax
xor [kb_lights], bl
push ecx
call set_lights
pop ecx
.writekey:
pushad
; test for system hotkeys
495,10 → 517,12
ret
ps2_set_lights:
stdcall disable_irq, 1
mov al, 0xED
call kb_write
mov al, [esp+8]
call kb_write
stdcall enable_irq, 1
ret 8
;// mike.dld ]

/kernel/branches/Kolibri-acpi/kernel.asm
66,6 → 66,8
;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
format binary as "mnt"
include 'macros.inc'
include 'struct.inc'
131,13 → 133,19
org 0x0
jmp start_of_code
if lang eq sp
include "kernelsp.inc" ; spanish kernel messages
else
version db 'Kolibri OS version 0.7.7.0+ ',13,10,13,10,0
end if
include "boot/bootstr.inc" ; language-independent boot messages
include "boot/preboot.inc"
if lang eq en
include "boot/booteng.inc" ; english system boot messages
if lang eq ge
include "boot/bootge.inc" ; german system boot messages
else if lang eq sp
include "boot/bootsp.inc" ; spanish system boot messages
else if lang eq ru
include "boot/bootru.inc" ; russian system boot messages
include "boot/ru.inc" ; Russian font
145,7 → 153,7
include "boot/bootet.inc" ; estonian system boot messages
include "boot/et.inc" ; Estonian font
else
include "boot/bootge.inc" ; german system boot messages
include "boot/booten.inc" ; english system boot messages
end if
include "boot/bootcode.inc" ; 16 bit system boot code
161,8 → 169,6
; CR0 Flags - Protected mode and Paging
align 16
mov ecx, CR0_PE
; Enabling 32 bit protected mode
200,20 → 206,6
mov cr0, eax
jmp pword os_code:B32 ; jmp to enable 32 bit mode
include "boot/shutdown.inc" ; shutdown or restart
include "data16.inc"
align 4096
__ap_start_16:
cli
lgdt [cs:(tmp_gdt-__ap_start_16)] ; Load GDT
mov eax, cr0 ; protected mode
or eax, CR0_PE
and eax, 10011111b *65536*256 + 0xffffff ; caching enabled
mov cr0, eax
jmp pword os_code:__ap_start_32 ; jmp to enable 32 bit mode
align 8
tmp_gdt:
233,37 → 225,11
dw 11011111b *256 +10010010b
db 0x00
include "data16.inc"
use32
org $+0x10000
align 16
__ap_start_32:
mov ax, os_stack ; Selector for os
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
mov ss, ax
bt [cpu_caps-OS_BASE], CAPS_PSE
jnc .no_PSE
mov ebx, cr4
or ebx, CR4_PSE
mov eax, PG_LARGE+PG_SW
mov cr4, ebx
.no_PSE:
mov eax, sys_pgdir-OS_BASE
mov cr3, eax
mov eax, cr0
or eax, CR0_PG+CR0_WP
mov cr0, eax
lgdt [gdts]
jmp pword os_code:ap_entry
align 4
B32:
mov ax, os_stack ; Selector for os
325,6 → 291,11
bios32_entry dd ?
tmp_page_tabs dd ?
use16
org $-0x10000
include "boot/shutdown.inc" ; shutdown or restart
org $+0x10000
use32
__DEBUG__ fix 1
__DEBUG_LEVEL__ fix 1
334,37 → 305,6
include 'fdo.inc'
ap_entry:
bt [cpu_caps], CAPS_PGE
jnc @F
mov ebx, cr4
or ebx, CR4_PGE
mov cr4, ebx
@@:
mov esi, [LAPIC_BASE]
xor ebp, ebp
.1:
mov ebx, [esi+0x20] ;apic_id
shr ebx, 24
shl ebx, 6+2
add ebx, LFB_BASE
mov edx, 32
.2:
mov ecx, 32
mov edi, ebx
mov eax, [_display.width]
lea ebx, [ebx+eax*4]
mov eax, ebp
rep stosd
dec edx
jnz .2
dec ebp
jmp .1
hlt
jmp ap_entry
align 4
high_code:
mov ax, os_stack
387,12 → 327,12
or ebx, CR4_PGE
mov cr4, ebx
@@:
; xor eax, eax
; mov dword [sys_pgdir], eax
; mov dword [sys_pgdir+4], eax
xor eax, eax
mov dword [sys_pgdir], eax
mov dword [sys_pgdir+4], eax
; mov eax, cr3
; mov cr3, eax ; flush TLB
mov eax, cr3
mov cr3, eax ; flush TLB
mov ecx, pg_data.mutex
call mutex_init
674,6 → 614,52
mov [mem_BACKGROUND], 4
mov [img_background], static_background_data
; SET UP OS TASK
mov esi, boot_setostask
call boot_log
xor eax, eax
mov dword [SLOT_BASE+APPDATA.fpu_state], fpu_data
mov dword [SLOT_BASE+APPDATA.exc_handler], eax
mov dword [SLOT_BASE+APPDATA.except_mask], eax
; 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_seg]
mov dword [SLOT_BASE+256+APPDATA.pl0_stack], edi
add edi, 0x2000-512
mov dword [SLOT_BASE+256+APPDATA.fpu_state], edi
mov dword [SLOT_BASE+256+APPDATA.saved_esp0], edi; just for case
mov dword [SLOT_BASE+256+APPDATA.terminate_protection], 80000001h
mov esi, fpu_data
mov ecx, 512/4
cld
rep movsd
mov dword [SLOT_BASE+256+APPDATA.exc_handler], eax
mov dword [SLOT_BASE+256+APPDATA.except_mask], eax
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
mov dword [SLOT_BASE+256+APPDATA.cur_dir], sysdir_path
mov dword [SLOT_BASE+256+APPDATA.tls_base], eax
; task list
mov dword [TASK_DATA+TASKDATA.mem_start], eax; process base address
inc eax
mov dword [CURRENT_TASK], eax
mov dword [TASK_COUNT], eax
mov [current_slot], SLOT_BASE+256
mov [TASK_BASE], dword TASK_DATA
mov byte[TASK_DATA+TASKDATA.wnd_number], al ; on screen number
mov dword [TASK_DATA+TASKDATA.pid], eax ; process id number
mov [SLOT_BASE + 256 + APPDATA.dir_table], sys_pgdir - OS_BASE
stdcall kernel_alloc, 0x10000/8
707,11 → 693,8
; Try to Initialize APIC
call APIC_init
call LAPIC_init
; mov eax, 1
; call start_ap
mov esi, boot_enableirq
call boot_log
; Enable timer IRQ (IRQ0) and hard drives IRQs (IRQ14, IRQ15)
; they are used: when partitions are scanned, hd_read relies on timer
call unmask_timer
794,6 → 777,8
movzx ecx, word [boot_y]
if lang eq ru
or ecx, (10+30*6) shl 16
else if lang eq sp
or ecx, (10+33*6) shl 16
else
or ecx, (10+29*6) shl 16
end if
814,8 → 799,8
; call boot_log
mov [pci_access_enabled], 1
call pci_enum
; SET PRELIMINARY WINDOW STACK AND POSITIONS
mov esi, boot_windefs
835,52 → 820,6
call boot_log
call reserve_irqs_ports
; SET UP OS TASK
mov esi, boot_setostask
call boot_log
xor eax, eax
mov dword [SLOT_BASE+APPDATA.fpu_state], fpu_data
mov dword [SLOT_BASE+APPDATA.exc_handler], eax
mov dword [SLOT_BASE+APPDATA.except_mask], eax
; 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_seg]
mov dword [SLOT_BASE+256+APPDATA.pl0_stack], edi
add edi, 0x2000-512
mov dword [SLOT_BASE+256+APPDATA.fpu_state], edi
mov dword [SLOT_BASE+256+APPDATA.saved_esp0], edi; just for case
; [SLOT_BASE+256+APPDATA.io_map] was set earlier
mov esi, fpu_data
mov ecx, 512/4
cld
rep movsd
mov dword [SLOT_BASE+256+APPDATA.exc_handler], eax
mov dword [SLOT_BASE+256+APPDATA.except_mask], eax
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
mov dword [SLOT_BASE+256+APPDATA.cur_dir], sysdir_path
mov dword [SLOT_BASE+256+APPDATA.tls_base], eax
; task list
mov dword [TASK_DATA+TASKDATA.mem_start], eax; process base address
inc eax
mov dword [CURRENT_TASK], eax
mov dword [TASK_COUNT], eax
mov [current_slot], SLOT_BASE+256
mov [TASK_BASE], dword TASK_DATA
mov byte[TASK_DATA+TASKDATA.wnd_number], al ; on screen number
mov dword [TASK_DATA+TASKDATA.pid], eax ; process id number
call init_display
mov eax, [def_cursor]
mov [SLOT_BASE+APPDATA.cursor], eax
898,17 → 837,11
rdtsc ;call _rdtsc
sti
sub eax, ecx
xor edx, edx
shld edx, eax, 2
shl eax, 2
mov [CPU_FREQ], eax ; save tsc / sec
; mov ebx, 1000000
; div ebx
; ¢®®¡é¥-â® ¯à®¨§¢®¤¨â¥«ì­®áâì ¢ ¤ ­­®¬ ª®­ªà¥â­®¬ ¬¥áâ¥
; ᮢ¥à襭­® ­¥ªà¨â¨ç­ , ­® çâ®¡ë § âª­ãâì «î¡¨â¥«¥©
; ®¯â¨¬¨§¨àãîé¨å ª®¬¯¨«ïâ®à®¢ Ÿ‚“...
mov edx, 2251799814
mul edx
shr edx, 19
mov [stall_mcs], edx
mov dword [cpu_freq], eax
mov dword [cpu_freq+4], edx
; PRINT CPU FREQUENCY
mov esi, boot_cpufreq
call boot_log
917,6 → 850,8
movzx ecx, word [boot_y]
if lang eq ru
add ecx, (10+19*6) shl 16 - 10 ; 'Determining amount of memory'
else if lang eq sp
add ecx, (10+25*6) shl 16 - 10 ; 'Determining amount of memory'
else
add ecx, (10+17*6) shl 16 - 10 ; 'Determining amount of memory'
end if
992,8 → 927,8
call fs_execute_from_sysdir
; cmp eax,2 ; continue if a process has been loaded
sub eax, 2
jz first_app_found
test eax, eax
jns first_app_found
mov esi, boot_failed
call boot_log
1099,6 → 1034,8
end if
mov eax, [version_inf.rev]
DEBUGF 1, "K : kernel SVN r%d\n", eax
mov eax, [cpu_count]
test eax, eax
1107,7 → 1044,7
@@:
DEBUGF 1, "K : %d CPU detected\n", eax
call print_mem
; call print_mem
; START MULTITASKING
1240,7 → 1177,7
mov [eax+16], ecx
mov [eax+16+4], dword 0
mov [eax+16+4], dword 0x2D
mov [eax+16+8], dword 0x2D
mov [eax+32], ecx
mov [eax+32+4], dword 0x30
1248,7 → 1185,7
mov [eax+48], ecx
mov [eax+48+4], dword 0x50
mov [eax+28+8], dword 0xDF
mov [eax+48+8], dword 0xDF
mov [eax+64], ecx
mov [eax+64+4], dword 0xE5
2099,8 → 2036,6
@@:
mov [redrawmouse_unconditional], 1
popfd
; call [draw_pointer]
call __sys_draw_pointer
ret
;------------------------------------------------------------------------------
iglobal
2173,6 → 2108,12
add ecx, CURRENT_TASK+TASKDATA.state
cmp byte [ecx], 9
jz noprocessterminate
push ecx edx
lea edx, [(ecx-(CURRENT_TASK and 1FFFFFFFh)-TASKDATA.state)*8+SLOT_BASE]
call request_terminate
pop edx ecx
test eax, eax
jz noprocessterminate
;--------------------------------------
cmp [_display.select_cursor], 0
je .restore_end
2254,13 → 2195,24
call syscall_display_settings._.redraw_whole_screen
.nowindowdeactivate:
ret
;------------------------------------------------------------------------------
;------------------------------------------------------------------------------
sysfn_activate: ; 18.3 = ACTIVATE WINDOW
cmp ecx, 2
jb .nowindowactivate
cmp ecx, [TASK_COUNT]
ja .nowindowactivate
;-------------------------------------
@@:
; If the window is captured and moved by the user,
; then you can't change the position in window stack!!!
mov al, [mouse.active_sys_window.action]
and al, WINDOW_MOVE_AND_RESIZE_FLAGS
test al, al
jz @f
call change_task
jmp @b
@@:
;-------------------------------------
mov [window_minimize], 2; restore window if minimized
movzx esi, word [WIN_STACK + ecx*2]
2282,10 → 2234,14
ret
;------------------------------------------------------------------------------
sysfn_getcpuclock: ; 18.5 = GET TSC/SEC
mov eax, [CPU_FREQ]
mov eax, dword [cpu_freq]
mov [esp+32], eax
ret
;------------------------------------------------------------------------------
get_cpu_freq:
mov eax, dword [cpu_freq]
mov edx, dword [cpu_freq+4]
ret
; SAVE ramdisk to /hd/1/menuet.img
;!!!!!!!!!!!!!!!!!!!!!!!!
include 'blkdev/rdsave.inc'
2535,7 → 2491,7
version_inf:
db 0,7,7,0 ; version 0.7.7.0
db 0
dd __REV__
.rev dd __REV__
version_end:
endg
;------------------------------------------------------------------------------
3544,15 → 3500,31
mov edx, [shutdown_processes]
cmp [SYS_SHUTDOWN], dl
jne no_mark_system_shutdown
jne noshutdown
lea ecx, [edx-1]
mov edx, OS_BASE+0x3040
jecxz @f
jecxz no_mark_system_shutdown
;--------------------------------------
align 4
markz:
push ecx edx
cmp [edx+TASKDATA.state], 9
jz .nokill
lea edx, [(edx-(CURRENT_TASK and 1FFFFFFFh))*8+SLOT_BASE]
cmp [edx+APPDATA.dir_table], sys_pgdir - OS_BASE
jz .nokill
call request_terminate
jmp .common
.nokill:
dec byte [SYS_SHUTDOWN]
xor eax, eax
.common:
pop edx ecx
test eax, eax
jz @f
mov [edx+TASKDATA.state], byte 3
@@:
add edx, 0x20
loop markz
;--------------------------------------
3572,11 → 3544,27
newct:
mov cl, [ebx]
cmp cl, byte 3
jz terminate
jz .terminate
cmp cl, byte 4
jz terminate
jnz .noterminate
.terminate:
pushad
mov ecx, eax
shl ecx, 8
add ecx, SLOT_BASE
call restore_default_cursor_before_killing
popad
pushad
call terminate
popad
cmp byte [SYS_SHUTDOWN], 0
jz .noterminate
dec byte [SYS_SHUTDOWN]
je system_shutdown
.noterminate:
add ebx, 0x20
inc esi
dec eax
3786,6 → 3774,15
mov [esp+32], eax ; return old mask value
ret
;-----------------------------------------------------------------------------
; this is for syscall
proc delay_hs_unprotected
call unprotect_from_terminate
call delay_hs
call protect_from_terminate
ret
endp
align 4
delay_hs: ; delay in 1/100 secs
; ebx = delay time
4638,9 → 4635,10
popad
ret
msg_board_data_size = 65536 ; Must be power of two
uglobal
msg_board_data:
times 4096 db 0
msg_board_data rb msg_board_data_size
msg_board_count dd 0x0
endg
4673,7 → 4671,7
mov [msg_board_data+ecx], bl
inc ecx
and ecx, 4095
and ecx, msg_board_data_size - 1
mov [msg_board_count], ecx
mov [check_idle_semaphore], 5
ret
4766,7 → 4764,8
mov [eax], edx
mov [ecx], eax
mov [eax+12], ecx
jecxz @f
test edx, edx
jz @f
mov [edx+12], eax
@@:
and dword [esp+32], 0
4918,7 → 4917,11
add ebp, [eax-twdw+WDATA.box.top]
add bp, word[esi+APPDATA.wnd_clientbox.top]
pop esi
test ecx, 0x08000000 ; redirect the output to the user area
jnz @f
add ebx, ebp
align 4
@@:
mov eax, edi
test ecx, 0x08000000 ; redirect the output to the user area
jnz dtext
5698,4 → 5701,6
__REV__ = __REV
uglobals_size = $ - endofcode
if ~ lang eq sp
diff16 "end of kernel code",0,$
end if

/kernel/branches/Kolibri-acpi/kernel32.inc
137,7 → 137,7
ipc_size dd ?
event_mask dd ?
debugger_slot dd ?
dd ?
terminate_protection dd ?
keyboard_mode db ?
rb 3
dir_table dd ?

/kernel/branches/Kolibri-acpi/kernelsp.inc
0,0 → 1,4
; ste archivo debe ser editado con codificaci¢n CP866
version db 'Kolibri OS versi¢n 0.7.7.0+ ',13,10,13,10,0
diff16 "fin del c¢digo del kernel",0,$