kolibrios-gitea/kernel/branches/Kolibri-F/const.inc

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2021. 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
;;;;;;;;;;;;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
DRIVE_DATA_SIZE = 16
OS_BASE = 0x80000000
window_data = OS_BASE + 0x0001000
TASK_TABLE = OS_BASE + 0x0003000
;CURRENT_TASK = OS_BASE + 0x0003000
;TASK_COUNT = OS_BASE + 0x0003004
TASK_BASE = OS_BASE + 0x0003010
TASK_DATA = OS_BASE + 0x0003020
;TASK_EVENT = OS_BASE + 0x0003020
CDDataBuf = OS_BASE + 0x0005000
;unused 0x6000 - 0x8fff
BOOT_VARS = 0x9000
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 = 0x007CC00
sys_proc = OS_BASE + 0x007E000
SLOT_BASE = OS_BASE + 0x0080000
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
new_app_base = 0;
twdw = TASK_TABLE - window_data
std_application_base_address = new_app_base
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
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 ?
_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
; Fields, marked as R now not used, but will be used soon,
; when legacy TASKDATA structure will be deleted
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
cursor 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
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 ; R stores event types allowed for task
tid dd ? ;+112 ; R thread id
draw_bgr_x dd ? ;+116
draw_bgr_y dd ? ;+120
state db ? ;+124 ; R thread state
db ? ;+125
dw ? ;+126
wnd_shape dd ? ;+128
wnd_shape_scale dd ? ;+132
mem_start dd ? ;+136 ; R
counter_sum dd ? ;+140 ; R
saved_box BOX ;+144
ipc_start dd ? ;+160
ipc_size dd ? ;+164
occurred_events dd ? ;+168 ; mask which accumulates occurred events
debugger_slot dd ? ;+172
terminate_protection dd ? ;+176
keyboard_mode db ? ;+180
captionEncoding db ?
rb 2
exec_params dd ? ;+184
dbg_event_mem dd ? ;+188
dbg_regs DBG_REGS ;+192
wnd_caption dd ? ;+212
wnd_clientbox BOX ;+216
priority dd ? ;+232
in_schedule LHEAD ;+236
counter_add dd ? ;+244 ; R
cpu_usage dd ? ;+248 ; R
dd ? ;+252
ends
assert sizeof.APPDATA = 256
APP_OBJ_OFFSET = 48
APP_EV_OFFSET = 40
; Note: in future TASKDATA will be merged into APPDATA
struct TASKDATA
event_mask dd ? ;+0 mask which stores event types allowed for task
pid dd ? ;+4
dw ? ;+8
state db ? ;+10
db ? ;+11
dw ? ;+12
wnd_number db ? ;+14
db ? ;+15
mem_start dd ? ;+16
counter_sum dd ? ;+20
counter_add dd ? ;+24
cpu_usage dd ? ;+28
ends
; 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_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!
; 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 ?
ends
label WDATA.fl_wstyle byte at WDATA.cl_workarea + 3
assert sizeof.WDATA = 32
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
lo dd ?
hi dd ?
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_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 rb 8
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 ?
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