kolibrios/kernel/branches/kolibri_pe/const.inc
Sergey Semyonov (Serge) a20b1c888d kolibri_pe: the latest 32-bit version
git-svn-id: svn://kolibrios.org@2971 a494cfbc-eb01-0410-851d-a64ba20cac60
2012-09-04 22:16:57 +00:00

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2007. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
$Revision$
dpl0 equ 10010000b ; data read dpl0
drw0 equ 10010010b ; data read/write dpl0
drw1 equ 10110010b ; data read/write dpl1
drw3 equ 11110010b ; data read/write dpl3
cpl0 equ 10011010b ; code read dpl0
cpl1 equ 10111010b ; code read dpl1
cpl3 equ 11111010b ; code read dpl3
D32 equ 01000000b ; 32bit segment
G32 equ 10000000b ; page gran
;;;;;;;;;;;;cpu_caps flags;;;;;;;;;;;;;;;;
CPU_386 equ 3
CPU_486 equ 4
CPU_PENTIUM equ 5
CPU_P6 equ 6
CPU_PENTIUM4 equ 0x0F
CAPS_FPU equ 00 ;on-chip x87 floating point unit
CAPS_VME equ 01 ;virtual-mode enhancements
CAPS_DE equ 02 ;debugging extensions
CAPS_PSE equ 03 ;page-size extensions
CAPS_TSC equ 04 ;time stamp counter
CAPS_MSR equ 05 ;model-specific registers
CAPS_PAE equ 06 ;physical-address extensions
CAPS_MCE equ 07 ;machine check exception
CAPS_CX8 equ 08 ;CMPXCHG8B instruction
CAPS_APIC equ 09 ;on-chip advanced programmable
; interrupt controller
; 10 ;unused
CAPS_SEP equ 11 ;SYSENTER and SYSEXIT instructions
CAPS_MTRR equ 12 ;memory-type range registers
CAPS_PGE equ 13 ;page global extension
CAPS_MCA equ 14 ;machine check architecture
CAPS_CMOV equ 15 ;conditional move instructions
CAPS_PAT equ 16 ;page attribute table
CAPS_PSE36 equ 17 ;page-size extensions
CAPS_PSN equ 18 ;processor serial number
CAPS_CLFLUSH equ 19 ;CLFUSH instruction
CAPS_DS equ 21 ;debug store
CAPS_ACPI equ 22 ;thermal monitor and software
;controlled clock supported
CAPS_MMX equ 23 ;MMX instructions
CAPS_FXSR equ 24 ;FXSAVE and FXRSTOR instructions
CAPS_SSE equ 25 ;SSE instructions
CAPS_SSE2 equ 26 ;SSE2 instructions
CAPS_SS equ 27 ;self-snoop
CAPS_HTT equ 28 ;hyper-threading technology
CAPS_TM equ 29 ;thermal monitor supported
CAPS_IA64 equ 30 ;IA64 capabilities
CAPS_PBE equ 31 ;pending break enable
;ecx
CAPS_SSE3 equ 32 ;SSE3 instructions
; 33
; 34
CAPS_MONITOR equ 35 ;MONITOR/MWAIT instructions
CAPS_DS_CPL equ 36 ;
CAPS_VMX equ 37 ;virtual mode extensions
; 38 ;
CAPS_EST equ 39 ;enhansed speed step
CAPS_TM2 equ 40 ;thermal monitor2 supported
; 41
CAPS_CID equ 42 ;
; 43
; 44
CAPS_CX16 equ 45 ;CMPXCHG16B instruction
CAPS_xTPR equ 46 ;
;
;reserved
;
;ext edx /ecx
CAPS_SYSCAL equ 64 ;
CAPS_XD equ 65 ;execution disable
CAPS_FFXSR equ 66 ;
CAPS_RDTSCP equ 67 ;
CAPS_X64 equ 68 ;
CAPS_3DNOW equ 69 ;
CAPS_3DNOWEXT equ 70 ;
CAPS_LAHF equ 71 ;
CAPS_CMP_LEG equ 72 ;
CAPS_SVM equ 73 ;secure virual machine
CAPS_ALTMOVCR8 equ 74 ;
; CPU MSR names
MSR_SYSENTER_CS equ 0x174
MSR_SYSENTER_ESP equ 0x175
MSR_SYSENTER_EIP equ 0x176
MSR_AMD_EFER equ 0xC0000080 ; Extended Feature Enable Register
MSR_AMD_STAR equ 0xC0000081 ; SYSCALL/SYSRET Target Address Register
CR0_PE equ 0x00000001 ;protected mode
CR0_MP equ 0x00000002 ;monitor fpu
CR0_EM equ 0x00000004 ;fpu emulation
CR0_TS equ 0x00000008 ;task switch
CR0_ET equ 0x00000010 ;extension type hardcoded to 1
CR0_NE equ 0x00000020 ;numeric error
CR0_WP equ 0x00010000 ;write protect
CR0_AM equ 0x00040000 ;alignment check
CR0_NW equ 0x20000000 ;not write-through
CR0_CD equ 0x40000000 ;cache disable
CR0_PG equ 0x80000000 ;paging
CR4_VME equ 0x0001
CR4_PVI equ 0x0002
CR4_TSD equ 0x0004
CR4_DE equ 0x0008
CR4_PSE equ 0x0010
CR4_PAE equ 0x0020
CR4_MCE equ 0x0040
CR4_PGE equ 0x0080
CR4_PCE equ 0x0100
CR4_OSFXSR equ 0x0200
CR4_OSXMMEXPT equ 0x0400
SSE_IE equ 0x0001
SSE_DE equ 0x0002
SSE_ZE equ 0x0004
SSE_OE equ 0x0008
SSE_UE equ 0x0010
SSE_PE equ 0x0020
SSE_DAZ equ 0x0040
SSE_IM equ 0x0080
SSE_DM equ 0x0100
SSE_ZM equ 0x0200
SSE_OM equ 0x0400
SSE_UM equ 0x0800
SSE_PM equ 0x1000
SSE_FZ equ 0x8000
SSE_INIT equ (SSE_IM+SSE_DM+SSE_ZM+SSE_OM+SSE_UM+SSE_PM)
struc 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
}
virtual at 0
TSS TSS
end virtual
TSS_SIZE equ (128+8192)
page_tabs equ 0xFF800000
;app_page_tabs equ 0xDD800000
;shared_tabs equ 0xDDC00000
;heap_tabs equ (page_tabs+ (HEAP_BASE shr 9))
kernel_tabs equ page_tabs)
master_tab equ (page_tabs+ (page_tabs shr 9))
_16BIT_BASE equ 0x00010000
LOAD_BASE equ 0x00100000
IMAGE_BASE equ LOAD_BASE
LAST_PAGE equ 0x01CB000
NCPU equ 8
RING0_STACK_SIZE equ (0x2000 - 512) ;512 <EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> FPU
REG_SS equ (RING0_STACK_SIZE-4)
REG_APP_ESP equ (RING0_STACK_SIZE-8)
REG_EFLAGS equ (RING0_STACK_SIZE-12)
REG_CS equ (RING0_STACK_SIZE-16)
REG_EIP equ (RING0_STACK_SIZE-20)
REG_EAX equ (RING0_STACK_SIZE-24)
REG_ECX equ (RING0_STACK_SIZE-28)
REG_EDX equ (RING0_STACK_SIZE-32)
REG_EBX equ (RING0_STACK_SIZE-36)
REG_ESP equ (RING0_STACK_SIZE-40) ;RING0_STACK_SIZE-20
REG_EBP equ (RING0_STACK_SIZE-44)
REG_ESI equ (RING0_STACK_SIZE-48)
REG_EDI equ (RING0_STACK_SIZE-52)
REG_RET equ (RING0_STACK_SIZE-56) ;irq0.return
REG_USTACK equ (RING0_STACK_SIZE-56)
REG_CSTACK equ (RING0_STACK_SIZE-60)
REG_RAW equ (RING0_STACK_SIZE-64)
REG_RESTART equ (RING0_STACK_SIZE-68)
REG_ENTRY equ (RING0_STACK_SIZE-72)
PG_UNMAP equ 0x000
PG_MAP equ 0x001
PG_WRITE equ 0x002
PG_SW equ 0x003
PG_USER equ 0x005
PG_UW equ 0x007
PG_NOCACHE equ 0x018
PG_LARGE equ 0x080
PG_GLOBAL equ 0x100
PG_SHARED equ 0x200
;;;;;;;;;;;boot time variables
;BOOT_BPP equ 0x9000 ;byte bits per pixel
BOOT_SCANLINE equ 0x9001 ;word scanline length
BOOT_VESA_MODE equ 0x9008 ;word vesa video mode
;;BOOT_X_RES equ 0x900A ;word X res
;;BOOT_Y_RES equ 0x900C ;word Y res
BOOT_BANK_SW equ 0x9014 ;dword Vesa 1.2 pm bank switch
BOOT_LFB equ 0x9018 ;dword Vesa 2.0 LFB address
BOOT_MTRR equ 0x901C ;byte 0 or 1 : enable MTRR graphics acceleration
BOOT_LOG equ 0x901D ;byte not used anymore (0 or 1 : enable system log display)
BOOT_DIRECT_LFB equ 0x901E ;byte 0 or 1 : enable direct lfb write, paging disabled
BOOT_PCI_DATA equ 0x9020 ;8bytes pci data
BOOT_VRR equ 0x9030 ;byte VRR start enabled 1, 2-no
BOOT_IDE_BASE_ADDR equ 0x9031 ;word IDEContrRegsBaseAddr
BOOT_MEM_AMOUNT equ 0x9034 ;dword memory amount
TMP_FILE_NAME equ 0
TMP_CMD_LINE equ 1024
TMP_ICON_OFFS equ 1280
EVENT_REDRAW equ 0x00000001
EVENT_KEY equ 0x00000002
EVENT_BUTTON equ 0x00000004
EVENT_BACKGROUND equ 0x00000010
EVENT_MOUSE equ 0x00000020
EVENT_IPC equ 0x00000040
EVENT_NETWORK equ 0x00000080
EVENT_DEBUG equ 0x00000100
EVENT_EXTENDED equ 0x00000200
EV_INTR equ 1
struc THR_DATA
{
rb (8192-512)
.pl0_stack:
.fpu_state rb 512
.tls_page rb 4096
.pdbr rb 4096
}
THR_DATA_SIZE equ 4096*4
virtual at (OS_BASE-THR_DATA_SIZE)
thr_data THR_DATA
end virtual
struc SYS_VARS
{ .bpp dd ?
.scanline dd ?
.vesa_mode dd ?
.x_res dd ?
.y_res dd ?
}
struc APPOBJ ;common object header
{
.magic dd ? ;
.destroy dd ? ;internal destructor
.fd dd ? ;next object in list
.bk dd ? ;prev object in list
.pid dd ? ;owner id
};
virtual at 0
APPOBJ APPOBJ
end virtual
APP_OBJ_OFFSET equ 48
APP_EV_OFFSET equ 40
struc CURSOR
{;common object header
.magic dd ? ;'CURS'
.destroy dd ? ;internal destructor
.fd dd ? ;next object in list
.bk dd ? ;prev object in list
.pid dd ? ;owner id
;cursor data
.base dd ? ;allocated memory
.hot_x dd ? ;hotspot coords
.hot_y dd ?
}
virtual at 0
CURSOR CURSOR
end virtual
CURSOR_SIZE equ 32
struc EVENT
{
.magic dd ? ;'EVNT'
.destroy dd ? ;internal destructor
.fd dd ? ;next object in list
.bk dd ? ;prev object in list
.pid dd ? ;owner id
.id dd ? ;event uid
.state dd ? ;internal flags
.code dd ?
rd 5
}
EVENT_SIZE equ 52
virtual at 0
EVENT EVENT
end virtual
struc SMEM
{
.bk dd ?
.fd dd ? ;+4
.base dd ? ;+8
.size dd ? ;+12
.access dd ? ;+16
.refcount dd ? ;+20
.name rb 32 ;+24
.sizeof:
}
struc SMAP
{
.magic dd ? ; SMAP
.destroy dd ? ;internal destructor
.fd dd ? ;next object in list
.bk dd ? ;prev object in list
.pid dd ? ;owner id
.base dd ? ;mapped base
.parent dd ? ;SMEM
.sizeof:
}
virtual at 0
SMEM SMEM
end virtual
virtual at 0
SMAP SMAP
end virtual
struc HEAP_DATA
{
.mutex rd 1
.refcount rd 1
.heap_base rd 1
.heap_top rd 1
.app_mem rd 1
}
HEAP_DATA_SIZE equ 20
virtual at 0
HEAP_DATA HEAP_DATA
end virtual
struc BOOT_DATA
{ .bpp dd ?
.scanline dd ?
.vesa_mode dd ?
.x_res dd ?
.y_res dd ?
.mouse_port dd ?
.bank_switch dd ?
.lfb dd ?
.vesa_mem dd ?
.log dd ?
.direct_lfb dd ?
.pci_data dd ?
; dd ?
.vrr dd ?
.ide_base dd ?
.mem_amount dd ?
.pages_count dd ?
.pagemap_size dd ?
.kernel_max dd ?
.kernel_pages dd ?
.kernel_tables dd ?
.cpu_vendor dd ?
dd ?
dd ?
.cpu_sign dd ?
.cpu_info dd ?
.cpu_caps dd ?
dd ?
dd ?
}
virtual at 0
BOOT_DATA BOOT_DATA
end virtual
struc MEM_STATE
{ .mutex rd 1
.smallmap rd 1
.treemap rd 1
.topsize rd 1
.top rd 1
.smallbins rd 4*32
.treebins rd 32
}
struc PG_DATA
{ .mem_amount dd ?
.vesa_mem dd ?
.pages_faults dd ?
.pagemap_size dd ?
.kernel_pages dd ?
.kernel_tables dd ?
.sys_page_dir dd ?
.pg_mutex dd ?
}
struc SRV
{ .srv_name rb 16 ;ASCIIZ string
.magic dd ? ;+0x10 ;'SRV '
.size dd ? ;+0x14 ;size of structure SRV
.fd dd ? ;+0x18 ;next SRV descriptor
.bk dd ? ;+0x1C ;prev SRV descriptor
.base dd ? ;+0x20 ;service base address
.entry dd ? ;+0x24 ;service START function
.srv_proc dd ? ;+0x28 ;main service handler
}
SRV_FD_OFFSET equ 0x18
SRV_SIZE equ 44
DRV_ENTRY equ 1
DRV_EXIT equ -1
struc COFF_HEADER
{ .machine dw ?
.nSections dw ?
.DataTime dd ?
.pSymTable dd ?
.nSymbols dd ?
.optHeader dw ?
.flags dw ?
};
struc COFF_SECTION
{ .Name rb 8
.VirtualSize dd ?
.VirtualAddress dd ?
.SizeOfRawData dd ?
.PtrRawData dd ?
.PtrReloc dd ?
.PtrLinenumbers dd ?
.NumReloc dw ?
.NumLinenum dw ?
.Characteristics dd ?
}
COFF_SECTION_SIZE equ 40
struc COFF_RELOC
{ .VirtualAddress dd ?
.SymIndex dd ?
.Type dw ?
}
struc COFF_SYM
{ .Name rb 8
.Value dd ?
.SectionNumber dw ?
.Type dw ?
.StorageClass db ?
.NumAuxSymbols db ?
}
CSYM_SIZE equ 18
struc IOCTL
{ .handle dd ?
.io_code dd ?
.input dd ?
.inp_size dd ?
.output dd ?
.out_size dd ?
}
virtual at 0
IOCTL IOCTL
end virtual
;virtual at 0
; LIB LIB
;end virtual
virtual at 0
SRV SRV
end virtual
virtual at 0
CFH COFF_HEADER
end virtual
virtual at 0
CFS COFF_SECTION
end virtual
virtual at 0
CRELOC COFF_RELOC
end virtual
virtual at 0
CSYM COFF_SYM
end virtual
struc THR
{
.edi rd 1 ; 0x00
.esi rd 1 ; 0x04
.ebp rd 1 ; 0x08
rd 1 ; 0x0C ;esp
.ebx rd 1 ; 0x10
.edx rd 1 ; 0x14
.ecx rd 1 ; 0x18
.eax rd 1 ; 0x1C
.retaddr rd 1 ; 0x20 ;<EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
.eip rd 1 ; 0x24
.cs rd 1 ; 0x28
.eflags rd 1 ; 0x2C
.esp rd 1 ; 0x30
.ss rd 1 ; 0x34
.pl0_stack:
.tid rd 1 ; ; number of this process (for fast access)
.slot rd 1 ; ; number of this process (for fast access)
.pdir rd 1 ; ;
.thr_flags rd 1 ; ; process is runnable only if zero
.ticks_left rd 1 ; ; number of scheduling ticks left
.quantum_size rd 1 ; ; quantum size in ticks
.user_time rd 1 ; ; user time in ticks
.sys_time rd 1 ; ; sys time in ticks
}
virtual at 0
THR THR
end virtual