kolibrios-fun/kernel/trunk/const.inc
Jurgen 5eb750c289 1. Edit procedure check exception 12 (overflow stack)
2. Edit func 68,24
3. Add proc "control exception"
4. Add subfuncs func 51 (GetPriorityThread, SetPriorityThread,GetCurrentThreadId)
5. Add info in ReferenceFunc(rus)

git-svn-id: svn://kolibrios.org@10002 a494cfbc-eb01-0410-851d-a64ba20cac60
2024-03-23 19:19:24 +00:00

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2024. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
$Revision$
dpl0 = 10010000b ; data read dpl0
drw0 = 10010010b ; data read/write dpl0
drw3 = 11110010b ; data read/write dpl3
cpl0 = 10011010b ; code read dpl0
cpl3 = 11111010b ; code read dpl3
D32 = 01000000b ; 32bit segment
G32 = 10000000b ; page gran
;;;;;;;;;;; task manager errors ;;;;;;;;;;
TASKMAN_ERROR_OUT_OF_MEMORY = 30 ; 0x1E
TASKMAN_ERROR_NOT_A_EXECUTABLE = 31 ; 0x1F
TASKMAN_ERROR_TOO_MANY_PROCESSES = 32 ; 0x20
;;;;;;;;;;;;cpu_caps flags;;;;;;;;;;;;;;;;
CPU_386 = 3
CPU_486 = 4
CPU_PENTIUM = 5
CPU_P6 = 6
CPU_PENTIUM4 = 0x0F
CAPS_FPU = 00 ;on-chip x87 floating point unit
CAPS_VME = 01 ;virtual-mode enhancements
CAPS_DE = 02 ;debugging extensions
CAPS_PSE = 03 ;page-size extensions
CAPS_TSC = 04 ;time stamp counter
CAPS_MSR = 05 ;model-specific registers
CAPS_PAE = 06 ;physical-address extensions
CAPS_MCE = 07 ;machine check exception
CAPS_CX8 = 08 ;CMPXCHG8B instruction
CAPS_APIC = 09 ;on-chip advanced programmable
;interrupt controller
; 10 ;unused
CAPS_SEP = 11 ;SYSENTER and SYSEXIT instructions
CAPS_MTRR = 12 ;memory-type range registers
CAPS_PGE = 13 ;page global extension
CAPS_MCA = 14 ;machine check architecture
CAPS_CMOV = 15 ;conditional move instructions
CAPS_PAT = 16 ;page attribute table
CAPS_PSE36 = 17 ;page-size extensions
CAPS_PSN = 18 ;processor serial number
CAPS_CLFLUSH = 19 ;CLFUSH instruction
CAPS_DS = 21 ;debug store
CAPS_ACPI = 22 ;thermal monitor and software
;controlled clock supported
CAPS_MMX = 23 ;MMX instructions
CAPS_FXSR = 24 ;FXSAVE and FXRSTOR instructions
CAPS_SSE = 25 ;SSE instructions
CAPS_SSE2 = 26 ;SSE2 instructions
CAPS_SS = 27 ;self-snoop
CAPS_HTT = 28 ;hyper-threading technology
CAPS_TM = 29 ;thermal monitor supported
CAPS_IA64 = 30 ;IA64 capabilities
CAPS_PBE = 31 ;pending break enable
;ecx
CAPS_SSE3 = 32 ;SSE3 instructions
; 33
; 34
CAPS_MONITOR = 35 ;MONITOR/MWAIT instructions
CAPS_DS_CPL = 36 ;
CAPS_VMX = 37 ;virtual mode extensions
; 38 ;
CAPS_EST = 39 ;enhansed speed step
CAPS_TM2 = 40 ;thermal monitor2 supported
; 41
CAPS_CID = 42 ;
; 43
; 44
CAPS_CX16 = 45 ;CMPXCHG16B instruction
CAPS_xTPR = 46 ;
CAPS_XSAVE = 32 + 26 ; XSAVE and XRSTOR instructions
CAPS_OSXSAVE = 32 + 27
; A value of 1 indicates that the OS has set CR4.OSXSAVE[bit 18] to enable
; XSETBV/XGETBV instructions to access XCR0 and to support processor extended
; state management using XSAVE/XRSTOR.
CAPS_AVX = 32 + 28 ; not AVX2
;
;reserved
;
;ext edx /ecx
CAPS_SYSCAL = 64 ;
CAPS_XD = 65 ;execution disable
CAPS_FFXSR = 66 ;
CAPS_RDTSCP = 67 ;
CAPS_X64 = 68 ;
CAPS_3DNOW = 69 ;
CAPS_3DNOWEXT = 70 ;
CAPS_LAHF = 71 ;
CAPS_CMP_LEG = 72 ;
CAPS_SVM = 73 ;secure virual machine
CAPS_ALTMOVCR8 = 74 ;
; CPU MSR names
MSR_SYSENTER_CS = 0x174
MSR_SYSENTER_ESP = 0x175
MSR_SYSENTER_EIP = 0x176
MSR_CR_PAT = 0x277
MSR_MTRR_DEF_TYPE = 0x2FF
MSR_AMD_EFER = 0xC0000080 ; Extended Feature Enable Register
MSR_AMD_STAR = 0xC0000081 ; SYSCALL/SYSRET Target Address Register
CR0_PE = 0x00000001 ;protected mode
CR0_MP = 0x00000002 ;monitor fpu
CR0_EM = 0x00000004 ;fpu emulation
CR0_TS = 0x00000008 ;task switch
CR0_ET = 0x00000010 ;extension type hardcoded to 1
CR0_NE = 0x00000020 ;numeric error
CR0_WP = 0x00010000 ;write protect
CR0_AM = 0x00040000 ;alignment check
CR0_NW = 0x20000000 ;not write-through
CR0_CD = 0x40000000 ;cache disable
CR0_PG = 0x80000000 ;paging
CR4_VME = 0x000001
CR4_PVI = 0x000002
CR4_TSD = 0x000004
CR4_DE = 0x000008
CR4_PSE = 0x000010
CR4_PAE = 0x000020
CR4_MCE = 0x000040
CR4_PGE = 0x000080
CR4_PCE = 0x000100
CR4_OSFXSR = 0x000200
CR4_OSXMMEXPT = 0x000400
CR4_OSXSAVE = 0x040000
XCR0_FPU_MMX = 0x0001
XCR0_SSE = 0x0002
XCR0_AVX = 0x0004
XCR0_MPX = 0x0018
XCR0_AVX512 = 0x00e0
MXCSR_IE = 0x0001
MXCSR_DE = 0x0002
MXCSR_ZE = 0x0004
MXCSR_OE = 0x0008
MXCSR_UE = 0x0010
MXCSR_PE = 0x0020
MXCSR_DAZ = 0x0040
MXCSR_IM = 0x0080
MXCSR_DM = 0x0100
MXCSR_ZM = 0x0200
MXCSR_OM = 0x0400
MXCSR_UM = 0x0800
MXCSR_PM = 0x1000
MXCSR_FZ = 0x8000
MXCSR_INIT = MXCSR_IM + MXCSR_DM + MXCSR_ZM + MXCSR_OM + MXCSR_UM + MXCSR_PM
EFLAGS_CF = 0x000001 ; carry flag
EFLAGS_PF = 0x000004 ; parity flag
EFLAGS_AF = 0x000010 ; auxiliary flag
EFLAGS_ZF = 0x000040 ; zero flag
EFLAGS_SF = 0x000080 ; sign flag
EFLAGS_TF = 0x000100 ; trap flag
EFLAGS_IF = 0x000200 ; interrupt flag
EFLAGS_DF = 0x000400 ; direction flag
EFLAGS_OF = 0x000800 ; overflow flag
EFLAGS_IOPL = 0x003000 ; i/o priviledge level
EFLAGS_NT = 0x004000 ; nested task flag
EFLAGS_RF = 0x010000 ; resume flag
EFLAGS_VM = 0x020000 ; virtual 8086 mode flag
EFLAGS_AC = 0x040000 ; alignment check flag
EFLAGS_VIF = 0x080000 ; virtual interrupt flag
EFLAGS_VIP = 0x100000 ; virtual interrupt pending
EFLAGS_ID = 0x200000 ; id flag
IRQ_PIC = 0
IRQ_APIC = 1
struct TSS
_back rw 2
_esp0 rd 1
_ss0 rw 2
_esp1 rd 1
_ss1 rw 2
_esp2 rd 1
_ss2 rw 2
_cr3 rd 1
_eip rd 1
_eflags rd 1
_eax rd 1
_ecx rd 1
_edx rd 1
_ebx rd 1
_esp rd 1
_ebp rd 1
_esi rd 1
_edi rd 1
_es rw 2
_cs rw 2
_ss rw 2
_ds rw 2
_fs rw 2
_gs rw 2
_ldt rw 2
_trap rw 1
_io rw 1
rb 24
_io_map_0 rb 4096
_io_map_1 rb 4096
ends
struct kernel_header
jump rb 3 ; jmp start_of_code
signature rb 10 ; 'KolibriOS '
version rb 19 ; ASCII string
b32_offset dd ? ; offset of the 32-bit entry point in kernel binary
; uefi4kos adds the kernel's load address to the offset above and jumps directly
; to 32-bit entry point, skipping the real mode code part. This way the same
; KERNEL.MNT file can be booted on BIOS as well as on UEFI.
ends
DRIVE_DATA_SIZE = 16
OS_BASE = 0x80000000
window_data = OS_BASE + 0x0001000
background_window = window_data + sizeof.WDATA
BOOT_VARS = 0x9000
KERNEL_BASE = 0x10000
RAMDISK_BASE = 0x100000
idts = OS_BASE + 0x000B100
WIN_STACK = OS_BASE + 0x000C000
WIN_POS = OS_BASE + 0x000C400
FDD_BUFF = OS_BASE + 0x000D000 ;512
WIN_TEMP_XY = OS_BASE + 0x000F300
KEY_COUNT = OS_BASE + 0x000F400
KEY_BUFF = OS_BASE + 0x000F401 ; 120*2 + 2*2 = 244 bytes, actually 255 bytes
BTN_COUNT = OS_BASE + 0x000F500
BTN_BUFF = OS_BASE + 0x000F501
BTN_ADDR = OS_BASE + 0x000FE88
MEM_AMOUNT = OS_BASE + 0x000FE8C
SYS_SHUTDOWN = OS_BASE + 0x000FF00
TMP_STACK_TOP = 0x008CC00
sys_proc = OS_BASE + 0x008E000
SLOT_BASE = OS_BASE + 0x0090000
VGABasePtr = OS_BASE + 0x00A0000
virtual at OS_BASE + 0x05FFF80
tss TSS
end virtual
HEAP_BASE = OS_BASE + 0x0800000
HEAP_MIN_SIZE = 0x01000000
page_tabs = 0xFDC00000
app_page_tabs = 0xFDC00000
kernel_tabs = page_tabs + (OS_BASE shr 10) ;0xFDE00000
master_tab = page_tabs + (page_tabs shr 10) ;0xFDFF70000
LFB_BASE = 0xFE000000
std_application_base_address = 0
RING0_STACK_SIZE = 0x2000
REG_SS = RING0_STACK_SIZE - 4
REG_APP_ESP = RING0_STACK_SIZE - 8
REG_EFLAGS = RING0_STACK_SIZE - 12
REG_CS = RING0_STACK_SIZE - 16
REG_EIP = RING0_STACK_SIZE - 20
REG_EAX = RING0_STACK_SIZE - 24
REG_ECX = RING0_STACK_SIZE - 28
REG_EDX = RING0_STACK_SIZE - 32
REG_EBX = RING0_STACK_SIZE - 36
REG_ESP = RING0_STACK_SIZE - 40 ;RING0_STACK_SIZE-20
REG_EBP = RING0_STACK_SIZE - 44
REG_ESI = RING0_STACK_SIZE - 48
REG_EDI = RING0_STACK_SIZE - 52
REG_RET = RING0_STACK_SIZE - 56 ;irq0.return
PAGE_SIZE = 4096
PG_UNMAP = 0x000
PG_READ = 0x001
PG_WRITE = 0x002
PG_USER = 0x004
PG_PCD = 0x008
PG_PWT = 0x010
PG_ACCESSED = 0x020
PG_DIRTY = 0x040
PG_PAT = 0x080
PG_GLOBAL = 0x100
PG_SHARED = 0x200
PG_SWR = 0x003 ; PG_WRITE + PG_READ
PG_UR = 0x005 ; PG_USER + PG_READ
PG_UWR = 0x007 ; PG_USER + PG_WRITE + PG_READ
PG_NOCACHE = 0x018 ; PG_PCD + PG_PWT
PDE_LARGE = 0x080
MEM_WB = 6 ; write-back memory
MEM_WC = 1 ; write combined memory
MEM_UC = 0 ; uncached memory
PAT_WB = 0x000
PAT_WC = 0x008
PAT_UCM = 0x010
PAT_UC = 0x018
PAT_TYPE_UC = 0
PAT_TYPE_WC = 1
PAT_TYPE_WB = 6
PAT_TYPE_UCM = 7
PAT_VALUE = 0x00070106; (UC<<24)|(UCM<<16)|(WC<<8)|WB
MAX_MEMMAP_BLOCKS = 32
EVENT_REDRAW = 0x00000001
EVENT_KEY = 0x00000002
EVENT_BUTTON = 0x00000004
EVENT_BACKGROUND = 0x00000010
EVENT_MOUSE = 0x00000020
EVENT_IPC = 0x00000040
EVENT_NETWORK = 0x00000080
EVENT_DEBUG = 0x00000100
EVENT_NETWORK2 = 0x00000200
EVENT_EXTENDED = 0x00000400
EVM_MOUSE_FILTER = 0x80000000 ; see in macros.inc for apps
EVM_CURSOR_FILTER = 0x40000000
EV_INTR = 1
STDIN_FILENO = 0
STDOUT_FILENO = 1
STDERR_FILENO = 2
SYSTEM_SHUTDOWN = 2
SYSTEM_REBOOT = 3
SYSTEM_RESTART = 4
BLIT_CLIENT_RELATIVE = 0x20000000
struct SYSCALL_STACK
eip dd ? ; +0
edi dd ? ; +4
esi dd ? ; +8
ebp dd ? ; +12
esp dd ? ; +16
ebx dd ? ; +20
edx dd ? ; +24
ecx dd ? ; +28
eax dd ? ; +32
ends
struct LHEAD
next dd ? ;next object in list
prev dd ? ;prev object in list
ends
struct MUTEX_WAITER
list LHEAD
task dd ?
type dd ?
ends
struct MUTEX
wait_list LHEAD
count dd ?
ends
struct RWSEM
wait_list LHEAD
count dd ?
ends
struct FUTEX
list LHEAD
magic dd ?
handle dd ?
destroy dd ?
wait_list LHEAD
pointer dd ?
flags dd ?
ends
FUTEX_INIT = 0
FUTEX_DESTROY = 1
FUTEX_WAIT = 2
FUTEX_WAKE = 3
struct FILED
list LHEAD
magic rd 1
handle rd 1
destroy rd 1
mode rd 1
file rd 1
ends
struct PIPE
pipe_ops rd 1
buffer rd 1
readers rd 1
writers rd 1
pipe_lock MUTEX
count rd 1
read_end rd 1
write_end rd 1
rlist LHEAD
wlist LHEAD
ends
struct PROC
list LHEAD
thr_list LHEAD
heap_lock MUTEX
heap_base rd 1
heap_top rd 1
mem_used rd 1
dlls_list_ptr rd 1
pdt_0_phys rd 1
pdt_1_phys rd 1
io_map_0 rd 1
io_map_1 rd 1
ht_lock rd 1
ht_free rd 1 ;htab[0] stdin
ht_next rd 1 ;htab[1] stdout
htab rd 1024-PROC.htab/4 ;htab[2] stderr
pdt_0 rd 1024
ends
struct DBG_REGS
dr0 dd ?
dr1 dd ?
dr2 dd ?
dr3 dd ?
dr7 dd ?
ends
struct POINT
x dd ?
y dd ?
ends
struct RECT
left dd ?
top dd ?
right dd ?
bottom dd ?
ends
struct BOX
left dd ?
top dd ?
width dd ?
height dd ?
ends
struct process_information
cpu_usage dd ? ; +0
window_stack_position dw ? ; +4
window_stack_value dw ? ; +6
dw ? ; +8
process_name rb 12 ; +10
memory_start dd ? ; +22
used_memory dd ? ; +26
PID dd ? ; +30
box BOX ; +34
slot_state dw ? ; +50
dw ? ; +52
client_box BOX ; +54
wnd_state db ? ; +70
ends
struct APPDATA
app_name rb 11
rb 5
list LHEAD ;+16
process dd ? ;+24
fpu_state dd ? ;+28
exc_handler dd ? ;+32
except_mask dd ? ;+36
pl0_stack dd ? ;+40
exc_reserve_stack dd ? ;+44
fd_ev dd ? ;+48
bk_ev dd ? ;+52
fd_obj dd ? ;+56
bk_obj dd ? ;+60
saved_esp dd ? ;+64
io_map rd 2 ;+68
dbg_state dd ? ;+76
cur_dir dd ? ;+80 ; directory this thread
wait_timeout dd ? ;+84
saved_esp0 dd ? ;+88
wait_begin dd ? ;+92 +++
wait_test dd ? ;+96 +++
wait_param dd ? ;+100 +++
tls_base dd ? ;+104
event_mask dd ? ;+108 stores event types allowed for task
tid dd ? ;+112 thread id
def_priority db ? ;+116
cur_priority db ? ;+117
dw ? ;+118
dd ? ;+120
state db ? ;+124 thread state
wnd_number db ? ;+125
dw ? ;+126
window dd ? ;+128 ptr WDATA
dd ? ;+132
dd ? ;+136
counter_sum dd ? ;+140
rd 4 ;+144
ipc_start dd ? ;+160
ipc_size dd ? ;+164
occurred_events dd ? ;+168 ; mask which accumulates occurred events
debugger_slot dd ? ;+172 ; index in SLOT_BASE array
terminate_protection dd ? ;+176
keyboard_mode db ? ;+180
rb 3
exec_params dd ? ;+184
dbg_event_mem dd ? ;+188
dbg_regs DBG_REGS ;+192
dd ? ;+212
rd 4 ;+216
priority dd ? ;+232
in_schedule LHEAD ;+236
counter_add dd ? ;+244
cpu_usage dd ? ;+248
dd ? ;+252 ; temporary place to save cursor
ends
assert sizeof.APPDATA = 256
APP_OBJ_OFFSET = 48
APP_EV_OFFSET = 40
; Thread states:
TSTATE_RUNNING = 0
TSTATE_RUN_SUSPENDED = 1
TSTATE_WAIT_SUSPENDED = 2
TSTATE_ZOMBIE = 3
TSTATE_TERMINATING = 4
TSTATE_WAITING = 5
TSTATE_FREE = 9
; Window constants:
WSTATE_NORMAL = 00000000b
WSTATE_MAXIMIZED = 00000001b
WSTATE_MINIMIZED = 00000010b
WSTATE_ROLLEDUP = 00000100b
WSTATE_USED = 10000000b
; fl_redraw
WSTATE_REDRAW = 00000001b
WSTATE_WNDDRAWN = 00000010b
WSTYLE_HASCAPTION = 00010000b
WSTYLE_CLIENTRELATIVE = 00100000b
ZPOS_DESKTOP = -2
ZPOS_ALWAYS_BACK = -1
ZPOS_NORMAL = 0
ZPOS_ALWAYS_TOP = 1 ;ZPOS_ALWAYS_TOP is always last and has max number!
CONTROL_EXCEPTION = 'EXPT'
; Window structure:
struct WDATA
box BOX
cl_workarea dd ?
cl_titlebar dd ?
cl_frames dd ?
z_modif db ?
fl_wstate db ?
fl_wdrawn db ?
fl_redraw db ?
clientbox BOX
shape dd ?
shape_scale dd ?
caption dd ?
captionEncoding db ?
rb 3
saved_box BOX
cursor dd ?
temp_cursor dd ?
draw_bgr_x dd ?
draw_bgr_y dd ?
draw_data RECT
thread dd ? ; ptr APPDATA
rb 12
ends
label WDATA.fl_wstyle byte at WDATA.cl_workarea + 3
assert sizeof.WDATA = 128
struct SYS_VARS
bpp dd ?
scanline dd ?
vesa_mode dd ?
x_res dd ?
y_res dd ?
ends
struct 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
ends
struct CURSOR APPOBJ
base dd ? ;allocated memory
hot_x dd ? ;hotspot coords
hot_y dd ?
list_next dd ? ;next cursor in cursor list
list_prev dd ? ;prev cursor in cursor list
dev_obj dd ? ;device depended data
ends
struct EVENT APPOBJ
id dd ? ;event uid
state dd ? ;internal flags
code dd ?
rd 5
ends
struct SMEM
bk dd ?
fd dd ? ;+4
base dd ? ;+8
size dd ? ;+12
access dd ? ;+16
refcount dd ? ;+20
name rb 32 ;+24
ends
struct SMAP APPOBJ
base dd ? ;mapped base
parent dd ? ;SMEM
ends
struct DLLDESCR
bk dd ?
fd dd ? ;+4
data dd ? ;+8
size dd ? ;+12
timestamp dq ?
refcount dd ?
defaultbase dd ?
coff_hdr dd ?
symbols_ptr dd ?
symbols_num dd ?
symbols_lim dd ?
exports dd ? ;export table
name rb 260
ends
struct HDLL
fd dd ? ;next object in list
bk dd ? ;prev object in list
pid dd ? ;owner id
base dd ? ;mapped base
size dd ? ;mapped size
refcount dd ? ;reference counter for this process and this lib
parent dd ? ;DLLDESCR
ends
struct DQ
union
lo dd ?
hi_be dd ? ; big endian
ends
union
hi dd ?
lo_be dd ?
ends
ends
struct e820entry
addr DQ ?
size DQ ?
type dd ?
ends
RD_LOAD_FROM_FLOPPY = 1
RD_LOAD_FROM_HD = 2
RD_LOAD_FROM_MEMORY = 3
RD_LOAD_FROM_FORMAT = 4
RD_LOAD_FROM_NONE = 5
struct boot_pci_data
access_mechanism db ?
last_bus db ?
version dw ? ; bcd minor, then major
pm_entry dd ? ; physical address of protected-mode entry point
ends
struct boot_data
bpp db ? ; bits per pixel
pitch dw ? ; scanline length
db ?
dd ?
vesa_mode dw ?
x_res dw ?
y_res dw ?
dw ?
dd ?
bank_switch dd ? ; Vesa 1.2 pm bank switch
lfb dd ? ; Vesa 2.0 LFB address
mtrr db ? ; 0 or 1: enable MTRR graphics acceleration
launcher_start db ? ; 0 or 1: start the first app (right now it's
; LAUNCHER) after kernel is loaded
debug_print db ? ; if nonzero, duplicates debug output to the screen
dma db ? ; DMA write: 1=yes, 2=no
pci_data boot_pci_data
rb 8
shutdown_type db ? ; see sysfn 18.9
rb 15
apm_entry dd ? ; entry point of APM BIOS
apm_version dw ? ; BCD
apm_flags dw ?
rb 8
apm_code_32 dw ?
apm_code_16 dw ?
apm_data_16 dw ?
rd_load_from db ? ; Device to load ramdisk from, RD_LOAD_FROM_*
db ?
kernel_restart dw ?
sys_disk dw ? ; Device to mount on /sys/, see loader_doc.txt for details
acpi_rsdp dd ?
syspath rb 0x17
devicesdat_data dd ?
devicesdat_size dd ?
bios_hd_cnt db ? ; number of BIOS hard disks
bios_hd rb 0x80 ; BIOS hard disks
memmap_block_cnt dd ? ; available physical memory map: number of blocks
memmap_blocks e820entry
rb sizeof.e820entry * (MAX_MEMMAP_BLOCKS - 1)
ends
virtual at BOOT_VARS
BOOT_LO boot_data
end virtual
virtual at OS_BASE + BOOT_VARS
BOOT boot_data
end virtual
MAX_SCREEN_WIDTH = 3840
MAX_SCREEN_HEIGHT = 2160
struct display_t
x dd ?
y dd ?
width dd ?
height dd ?
bits_per_pixel dd ?
vrefresh dd ?
current_lfb dd ?
lfb_pitch dd ?
win_map_lock RWSEM
win_map dd ?
win_map_pitch dd ?
win_map_size dd ?
modes dd ?
ddev dd ?
connector dd ?
crtc dd ?
cr_list.next dd ?
cr_list.prev dd ?
cursor dd ?
init_cursor dd ?
select_cursor dd ?
show_cursor dd ?
move_cursor dd ?
restore_cursor dd ?
disable_mouse dd ?
mask_seqno dd ?
check_mouse dd ?
check_m_pixel dd ?
bytes_per_pixel dd ?
put_pixel dd ?
put_rect dd ?
put_image dd ?
put_line dd ?
get_pixel dd ?
get_rect dd ?
get_image dd ?
get_line dd ?
ends
struct DISPMODE
width dw ?
height dw ?
bpp dw ?
freq dw ?
ends
struct PCIDEV
bk dd ?
fd dd ?
vendor_device_id dd ?
class dd ?
devfn db ?
bus db ?
rb 2
owner dd ? ; pointer to SRV or 0
ends
struct IDE_DATA
ProgrammingInterface dd ?
Interrupt dw ?
RegsBaseAddres dw ?
BAR0_val dw ?
BAR1_val dw ?
BAR2_val dw ?
BAR3_val dw ?
dma_hdd_channel_1 db ?
dma_hdd_channel_2 db ?
pcidev dd ? ; pointer to corresponding PCIDEV structure
ends
struct IDE_CACHE
pointer dd ?
size dd ? ; not use
data_pointer dd ?
system_data_size dd ? ; not use
appl_data_size dd ? ; not use
system_data dd ?
appl_data dd ?
system_sad_size dd ?
appl_sad_size dd ?
search_start dd ?
appl_search_start dd ?
ends
struct IDE_DEVICE
UDMA_possible_modes db ?
UDMA_set_mode 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 ?
treemap dd ?
topsize dd ?
top dd ?
smallbins rd 4*32
treebins rd 32
ends
struct PG_DATA
mem_amount dd ?
vesa_mem dd ?
pages_count dd ?
pages_free dd ?
pages_faults dd ?
pagemap_size dd ?
kernel_pages dd ?
kernel_tables dd ?
sys_page_dir dd ?
mutex MUTEX
ends
struct 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 ;user mode service handler
srv_proc_ex dd ? ;+0x2C ;kernel mode service handler
ends
struct USBSRV
srv SRV
usb_func dd ?
ends
struct USBFUNC
strucsize dd ?
add_device dd ?
device_disconnect dd ?
ends
DRV_ENTRY = 1
DRV_EXIT = -1
struct COFF_HEADER
machine dw ?
nSections dw ?
DataTime dd ?
pSymTable dd ?
nSymbols dd ?
optHeader dw ?
flags dw ?
ends
struct COFF_SECTION
Name rb 8
VirtualSize dd ?
VirtualAddress dd ?
SizeOfRawData dd ?
PtrRawData dd ?
PtrReloc dd ?
PtrLinenumbers dd ?
NumReloc dw ?
NumLinenum dw ?
Characteristics dd ?
ends
struct COFF_RELOC
VirtualAddress dd ?
SymIndex dd ?
Type dw ?
ends
struct COFF_SYM
Name rb 8
Value dd ?
SectionNumber dw ?
Type dw ?
StorageClass db ?
NumAuxSymbols db ?
ends
struct STRIPPED_PE_HEADER
Signature dw ?
Characteristics dw ?
AddressOfEntryPoint dd ?
ImageBase dd ?
SectionAlignmentLog db ?
FileAlignmentLog db ?
MajorOSVersion db ?
MinorOSVersion db ?
SizeOfImage dd ?
SizeOfStackReserve dd ?
SizeOfHeapReserve dd ?
SizeOfHeaders dd ?
Subsystem db ?
NumberOfRvaAndSizes db ?
NumberOfSections dw ?
ends
STRIPPED_PE_SIGNATURE = 0x4503 ; 'PE' xor 'S'
SPE_DIRECTORY_IMPORT = 0
SPE_DIRECTORY_EXPORT = 1
SPE_DIRECTORY_BASERELOC = 2
struct IOCTL
handle dd ?
io_code dd ?
input dd ?
inp_size dd ?
output dd ?
out_size dd ?
ends
struct IRQH
list LHEAD
handler dd ? ;handler roututine
data dd ? ;user-specific data
num_ints dd ? ;how many times handled
ends