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windows-server-2003/base/mvdm/dpmi/dxintr.asm

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PAGE ,132
TITLE DXINTR.ASM -- Dos Extender Interrupt Reflector
; Copyright (c) Microsoft Corporation 1988-1991. All Rights Reserved.
;****************************************************************
;* *
;* DXINTR.ASM - Dos Extender Interrupt Reflector *
;* *
;****************************************************************
;* *
;* Revision History: *
;* *
;* *
;* 09/13/90 earleh Fault handlers Ring 0 *
;* 09/06/90 earleh Fault handlers DPMI compliant *
;* PIC remapping no longer required *
;* 08/08/90 earleh DOSX and client privilege ring determined *
;* by equate in pmdefs.inc *
;* 05/09/90 jimmat Started VCPI changes. *
;* 04/02/90 jimmat Added PM Int 70h handler. *
;* 01/08/90 jimmat Don't allow nested PS/2 mouse interrupts *
;* (later removed!) *
;* 09/15/89 jimmat Support for 'Classic' HP Vectras which *
;* have 3 8259 interrupt controllers *
;* 07/28/89 jimmat Save A20 state when reflecting an int to *
;* protected mode, removed Int 30h handler *
;* that did code patch-ups, point debugger *
;* to faulting instruction, not Int 3. *
;* 07/13/89 jimmat Improved termination due to faults when *
;* not running under a debugger--also ifdef'd *
;* out code to dynamically fixup code seg *
;* references on GP faults *
;* 06/05/89 jimmat Ints 0h-1Fh are now vectored through a 2nd *
;* table. This allows Wdeb386 interaction *
;* more like Windows/386. *
;* 05/23/89 jimmat Added wParam & lParam to interrupt frame. *
;* 05/07/89 jimmat Added XMScontrol function to map protected *
;* mode XMS requests to real mode driver. *
;* 05/02/89 jimmat 8259 interrupt mask saved around changing *
;* of hardware interrupt base *
;* 04/24/89 jimmat Added support for PS/2 Int 15h/C2h/07 Set *
;* Pointing Device Handler Address function *
;* 04/12/89 jimmat Added PMIntr24 routine to support PM *
;* Critical Error Handlers *
;* 03/15/89 jimmat Added INT 31h LDT/heap interface a la *
;* Windows/386 *
;* 03/14/89 jimmat Changes to run child in ring 1 with LDT *
;* 02/24/89 (GeneA): fixed problem in IntEntryVideo and *
;* IntExitVideo for processing function 10h subfunction *
;* for reading and writing the VGA palette. *
;* 02/22/89 (GeneA): added handlers for Int 10h, Int 15h, and *
;* Int 33h. Added support for more general mechanism for *
;* handling interrupts require special servicing and *
;* allowing nesting of these interrupts. Allocation and *
;* deallocation of stack frames is supported to allow *
;* nested paths through the interrupt reflection code to *
;* a depth of 8. *
;* There is still a problem that if an interrupt handler *
;* is using a static buffer to transfer data, another *
;* interrupt that uses the same static buffer could come *
;* in and trash it. Solving the problem in a completely *
;* general way would require having a buffer allocation *
;* deallocation scheme for doing the transfers between *
;* real mode memory and protected mode memory. *
;* 02/14/89 (GeneA): added code in TrapGP to print error msg *
;* and quit when running a non-debugging version. *
;* 02/10/89 (GeneA): changed Dos Extender from small model to *
;* medium model. Added function LoaderTrap to handle *
;* loader interrupts when the program contains overlays. *
;* 11/20/88 (GeneA): changed both RM and PM interrupt reflector*
;* routines to pass the flags returned by the ISR back to *
;* the originator of the interrupt, rather than returning *
;* the original flags. *
;* 10/28/88 (GeneA): created *
; 18-Dec-1992 sudeepb Changed cli/sti to faster FCLI/FSTI
;* *
;****************************************************************
.286p
.287
; -------------------------------------------------------
; INCLUDE FILE DEFINITIONS
; -------------------------------------------------------
.xlist
.sall
include segdefs.inc
include gendefs.inc
include pmdefs.inc
include interupt.inc
ifdef WOW_x86
include vdmtib.inc
endif
.list
include intmac.inc
include stackchk.inc
include bop.inc
include dpmi.inc
; -------------------------------------------------------
; GENERAL SYMBOL DEFINITIONS
; -------------------------------------------------------
; -------------------------------------------------------
; EXTERNAL SYMBOL DEFINITIONS
; -------------------------------------------------------
extrn EnterRealMode:NEAR
extrn EnterProtectedMode:NEAR
extrn ParaToLinear:NEAR
externFP NSetSegmentDscr
ifdef NEC_98
extrn GetSegmentAddress:NEAR
endif ;NEC_98
extrn ParaToLDTSelector:NEAR
; -------------------------------------------------------
; DATA SEGMENT DEFINITIONS
; -------------------------------------------------------
DXDATA segment
extrn pmusrss:WORD
extrn pmusrsp:WORD
extrn npXfrBuf1:WORD
extrn rgbXfrBuf0:BYTE
extrn rgbXfrBuf1:BYTE
extrn lpfnXMSFunc:DWORD
extrn Int28Filter:WORD
extrn DpmiFlags:WORD
IFDEF WOW_x86
extrn FastBop:fword
ENDIF
;
; Variables used to store register values while mode switching.
public regUserSS, regUserSP, regUserFL, regUserAX, regUserDS
public regUserES
regUserSS dw ?
regUserSP dw ?
regUserCS dw ?
regUserIP dw ?
regUserFL dw ?
regUserAX dw ?
regUserDS dw ?
regUserES dw ?
pfnReturnAddr dw ?
Int28Count dw -1 ;Count of idle Int 28h's not reflected to RM
;
; Far pointer to the user's mouse callback function.
public lpfnUserMouseHandler
lpfnUserMouseHandler dd 0 ;Entry point to the users mouse handler
cbMouseState dw 0 ;size of mouse state buffer in bytes
; Far pointer to PS/2 Pointing device handler address
public lpfnUserPointingHandler
lpfnUserPointingHandler dd 0 ;Sel:Off to user's handler
align 2
if DEBUG
extrn StackGuard:WORD
endif
extrn pbReflStack:WORD
extrn bReflStack:WORD
;
; This buffer contains the original real mode interrupt vectors.
ifdef NEC_98
public rglpfnRmISR
endif ;NEC_98
align 2
rglpfnRmISR dd 256 dup (?)
; PMFaultVector is a table of selector:offsets for routines to process
; protected mode processor faults/traps/exceptions. If we don't handle
; the exception as an exception, we vector it through PMReservedEntryVector.
FltRtn macro off
dw DXPMCODE:off
dw 0
dw SEL_DXPMCODE or STD_RING
dw 0
endm
public PMFaultVector
align 4
PMFaultVector label DWORD
FltRtn PMFaultEntryVector+5*0h ; int 0
FltRtn PMFaultEntryVector+5*1h ; int 1
FltRtn PMFaultEntryVector+5*2h ; int 2
FltRtn PMFaultEntryVector+5*3h ; int 3
FltRtn PMFaultEntryVector+5*4h ; int 4
FltRtn PMFaultEntryVector+5*5h ; int 5
FltRtn PMFaultEntryVector+5*6h ; int 6
FltRtn PMFaultEntryVector+5*7h ; int 7
FltRtn PMFaultEntryVector+5*8h ; int 8
FltRtn PMFaultEntryVector+5*9h ; int 9
FltRtn PMFaultEntryVector+5*0Ah ; int a
FltRtn PMFaultEntryVector+5*0Bh ; int b
FltRtn PMFaultEntryVector+5*0Ch ; int c
FltRtn PMFaultEntryVector+5*0Dh ; int d
FltRtn PMFaultEntryVector+5*0Eh ; int e
FltRtn PMFaultEntryVector+5*0Fh ; int f
FltRtn PMFaultEntryVector+5*10h ; int 10h
FltRtn PMFaultEntryVector+5*11h ; int 11h
FltRtn PMFaultEntryVector+5*12h ; int 12h
FltRtn PMFaultEntryVector+5*13h ; int 13h
FltRtn PMFaultEntryVector+5*14h ; int 14h
FltRtn PMFaultEntryVector+5*15h ; int 15h
FltRtn PMFaultEntryVector+5*16h ; int 16h
FltRtn PMFaultEntryVector+5*17h ; int 17h
FltRtn PMFaultEntryVector+5*18h ; int 18h
FltRtn PMFaultEntryVector+5*19h ; int 19h
FltRtn PMFaultEntryVector+5*1Ah ; int 1ah
FltRtn PMFaultEntryVector+5*1Bh ; int 1bh
FltRtn PMFaultEntryVector+5*1Ch ; int 1ch
FltRtn PMFaultEntryVector+5*1Dh ; int 1Dh
FltRtn PMFaultEntryVector+5*1Eh ; int 1Eh
FltRtn PMFaultEntryVector+5*1Fh ; int 1Fh
extrn npEHStackLimit:word
extrn npEHStacklet:word
ifdef NEC_98
extrn fPCH98:BYTE
endif ;NEC_98
IFDEF WOW
public Wow16BitHandlers
Wow16BitHandlers dw 256 dup (0,0)
ENDIF
DXDATA ends
DXSTACK segment
public rgw0Stack, rgw2FStack
dw 64 dup (?) ; INT 2Fh handler stack
rgw2FStack label word
dw 64 dup (?) ; DOSX Ring -> Ring 0 transition stack
;
; Interrupts in the range 0-1fh cause a ring transition and leave
; an outer ring IRET frame right here.
;
Ring0_EH_DS dw ? ; place to put user DS
Ring0_EH_AX dw ? ; place to put user AX
Ring0_EH_BX dw ? ; place to put user BX
Ring0_EH_CX dw ? ; place to put user CX
Ring0_EH_BP dw ? ; place to put user BP
Ring0_EH_PEC dw ? ; lsw of error code for 386 page fault
; also near return to PMFaultEntryVector
Ring0_EH_EC dw ? ; error code passed to EH
Ring0_EH_IP dw ? ; interrupted code IP
Ring0_EH_EIP dw ? ; high half eip
Ring0_EH_CS dw ? ; interrupted code CS
dw ? ; high half of cs
Ring0_EH_Flags dw ? ; interrupted code flags
Ring0_EH_EFlags dw ? ; high half of flags
Ring0_EH_SP dw ? ; interrupted code SP
Rin0_EH_ESP dw ? ; high half of esp
Ring0_EH_SS dw ? ; interrupted code SS
dw ? ; high half of ss
rgw0Stack label word
dw 64 dup (?) ; stack for switching to ring0
public ResetStack
ResetStack label word
ifdef WOW_x86
dw 64 dup (?) ; wow stack for initial int field
public rgwWowStack
rgwWowStack label word
endif
DXSTACK ends
; -------------------------------------------------------
; CODE SEGMENT VARIABLES
; -------------------------------------------------------
DXCODE segment
extrn selDgroup:WORD
DXCODE ends
DXPMCODE segment
extrn selDgroupPM:WORD
extrn segDXCodePM:WORD
extrn RZCall:NEAR
extrn segDXDataPM:WORD
DXPMCODE ends
; -------------------------------------------------------
page
subttl Protected Mode Interrupt Reflector
; -------------------------------------------------------
; PROTECTED MODE INTERRUPT REFLECTOR
; -------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
; -------------------------------------------------------
; PMIntrEntryVector -- This table contains a vector of
; near jump instructions to the protected mode interrupt
; reflector. The protected mode interrupt descriptor
; table is initialized so that all interrupts jump to
; locations in this table, which transfers control to
; the interrupt reflection code for reflecting the
; interrupt to real mode.
StartBopTable macro
?intr = 0
endm
PMIntrBop macro
DPMIBOP ReflectIntrToV86
db ?intr
?intr = ?intr+1
endm
public PMIntrEntryVector
PMIntrEntryVector:
StartBopTable
rept 256
PMIntrBop
endm
FaultBop macro
DPMIBOP DpmiUnhandledException
db ?intr
?intr = ?intr+1
endm
public PMFaultEntryVector
; -------------------------------------------------------
; PMFaultEntryVector -- This table contains a vector of
; near jump instructions to the protected mode fault
; analyzer.
;
PMFaultEntryVector:
StartBopTable
rept 32
FaultBop
endm
assume ds:nothing,es:nothing,ss:nothing
public PMFaultHandlerIRET
PMFaultHandlerIRET:
DPMIBOP FaultHandlerIret
public PMFaultHandlerIRETD
PMFaultHandlerIRETD:
DPMIBOP FaultHandlerIretd
public PMIntHandlerIRET
PMIntHandlerIRET:
DPMIBOP IntHandlerIret
public PMIntHandlerIRETD
PMIntHandlerIRETD:
DPMIBOP IntHandlerIretd
public PMDosxIret
PMDosxIret:
iret
public PMDosxIretd
PMDosxIretd:
db 66h
iret
public HungAppExit
HungAppExit:
mov ax,4CFFh
int 21h
; -------------------------------------------------------
DXPMCODE ends
; -------------------------------------------------------
subttl Real Mode Interrupt Reflector
page
; -------------------------------------------------------
; REAL MODE INTERRUPT REFLECTOR
; -------------------------------------------------------
DXCODE segment
assume cs:DXCODE
; -------------------------------------------------------
; RMIntrEntryVector -- This table contains a vector of
; near jump instructions to the real mode interrupt
; reflector. Real mode interrupts that have been hooked
; by the protected mode application have their vector
; set to entry the real mode reflector through this table.
public RMtoPMReflector
RMtoPMReflector:
DPMIBOP ReflectIntrToPM
public RMCallBackBop
RMCallBackBop proc far
DPMIBOP RMCallBackCall
ret ;finished!
RMCallBackBop endp
DXCODE ends
; -------------------------------------------------------
subttl INT 24h Critical Error Mapper
page
; -------------------------------------------------------
; DOS CRITICAL ERROR MAPPER
; -------------------------------------------------------
DXCODE segment
; -------------------------------------------------------
; RMDefaultInt24Handler -- Default action for a DOS critical
; error is to fail the call.
;
public RMDefaultInt24Handler
RMDefaultInt24Handler proc far
mov al,3
iret
RMDefaultInt24Handler endp
DXCODE ends
; -------------------------------------------------------
subttl INT 28h Idle Handler
page
; -------------------------------------------------------
; INT 28H IDLE HANDLER
; -------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
; -------------------------------------------------------
; PMIntr28 -- Protected mode handler for Idle Int 28h calls.
; The purpose of this routine is simply to cut down on the
; number of protected mode to real mode switches by ignoring
; many of the Int 28h idle calls made by the Windows PM
; kernel.
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntr28
PMIntr28 proc near
cld
push ds ;address our DGROUP
mov ds,selDgroupPM
assume ds:DGROUP
cmp Int28Filter,0 ;are we passing any through?
jz @f
inc Int28Count ;should this one be reflected?
jz i28_reflect
@@:
pop ds
iret ; no, just ignore it
i28_reflect: ; yes, reset count and
push ax ; reflecto to real mode
mov ax,Int28Filter
neg ax
mov Int28Count,ax
pop ax
pop ds
assume ds:NOTHING
jmp PMIntrEntryVector + 5*28h
PMIntr28 endp
; -------------------------------------------------------
; PMIntr31 -- Service routine for the Protect Mode INT 31h
; services. These functions duplicate the
; Windows/386 VMM INT 31h services for protected
; mode applications. They were implemented to
; support a protect mode version of Windows/286.
;
; Input: Various registers
; Output: Various registers
; Errors:
; Uses: All registers preserved, other than return values
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntr31
PMIntr31 proc near
push ds
push ax
mov ax,SEL_DXDATA OR STD_RING
mov ds,ax
assume ds:DGROUP
pop ax
FBOP BOP_DPMI,Int31Entry,FastBop
int 3
; This BOP does an implicit IRET
PMIntr31 endp
; -------------------------------------------------------
subttl Ignore Interrupt Handlers
page
; -------------------------------------------------------
; IGNORE INTERRUPT HANDLER
; -------------------------------------------------------
; PMIntrIgnore -- Service routine for protected mode interrupts
; that should be ignored, and not reflected to real mode.
; Currently used for:
;
; Int 30h - used to be Win/386 Virtualize I/O, now
; unused but no int handler in real mode
; Int 41h - Wdeb386 interface, no int handler in
; real mode
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrIgnore
PMIntrIgnore proc near
iret
PMIntrIgnore endp
; -------------------------------------------------------
public PMIntr19
PMIntr19 proc near
push offset DXPMCODE:Reboot
call RZCall
bpRebootIDT df 0
Reboot:
mov ax,40h
mov es,ax
mov word ptr es:[0072h],1234h
lidt bpRebootIDT
int 3
PMIntr19 endp
DXPMCODE ends
; -------------------------------------------------------
subttl XMS Driver Interface
page
; -------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
; -------------------------------------------------------
; XMScontrol - This function implements a protected mode
; interface to a real mode XMS driver. Unlike other
; routines in this module, this routine is called by
; the user, not invoked via an INT instruction.
;
; Input: User's regs for XMS driver
; Output: regs from XMS driver
; Uses: none
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public XMScontrol
XMScontrol proc far
jmp short XMSentry ;'standard' XMS control function
nop ; just to be consistant
nop
nop
XMSentry:
; Modify the stack so it looks like we got here via an INT (except that
; we may still have interrupts enabled)
pushf
cld
push bp
mov bp,sp ;bp -> [BP] [FL] [IP] [CS]
push ax
push bx
mov ax,[bp+4]
mov bx,[bp+6]
xchg ax,[bp+2]
mov [bp+4],bx
mov [bp+6],ax ;bp -> [BP] [IP] [CS] [FL]
pop bx
pop ax
pop bp
; We don't support XMS function 0Bh (Move Extended Memory Block) because
; it requires mapping of data between hi/low memory. Maybe someday...
cmp ah,0Bh
jnz xms_2
xms_deny:
xor ax,ax ;if function 0Bh, return failure
mov bl,80h ; (ax = 0, bl = 80h-not implemented)
jmp short XMSret
xms_2:
; We are not really an Int handler, but close enough...
call EnterIntHandler ;build an interrupt stack frame
assume ds:DGROUP,es:DGROUP ; also sets up addressability
SwitchToRealMode
pop es ;load regs for driver
pop ds
assume ds:NOTHING,es:NOTHING,ss:DGROUP
popa
npopf
call lpfnXMSFunc ;call real mode driver
pushf ;rebuild stack frame
FCLI
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
call LeaveIntHandler
assume ds:NOTHING,es:NOTHING,ss:NOTHING
XMSret:
riret
XMScontrol endp
; -------------------------------------------------------
DXPMCODE ends
; -------------------------------------------------------
subttl Special Interrupt Handler Routines
page
; -------------------------------------------------------
;
; The following sets of routines handle interrupts that
; are function call interfaces and require special servicing
; by the Dos Extender. These interrupts are such things as
; the mouse driver function call interrupt, various PC BIOS
; function call interrupts, etc. Note that INT 21h (the Dos
; function call interrupt) is not handled here. These
; interrupts typically require that register values be modified
; and parameter data be copied between real mode memory and
; extended memory. The following conventions are used for these
; interrupt function handler routines.
;
; A stack is allocated from the interrupt reflector stack for these
; routines to use. This allows nested servicing of interrupts.
; A stack frame is built in the allocated stack which contains the
; following information:
; original caller's stack address
; caller's original flags and general registers (in pusha form)
; caller's original segment registers (DS & ES)
; flags and general registers to be passed to interrupt routine
; (initially the same as caller's original values)
; segment registers (DS & ES) to be passed to interrupt routine
; (initially set to the Dos Extender data segment address)
; This stack frame is built by the routine EnterIntHandler, and its
; format is defined by the structure INTRSTACK. The stack frame is
; destroyed and the processor registers set up for return to the user
; by the function LeaveIntHandler.
;
; For each interrupt, there is an entry function and an exit function.
; The entry function performs any modifications to parameter values and
; data buffering necessary before the interrupt service routine is called.
; The exit function performs any data buffering and register value
; modifications after return from the interrupt service routine.
;
; There are two sets of general registers and two sets of segment
; registers (DS & ES) on the stack frame. One set of register values
; has member names of the form intUserXX. The values in these stack
; frame members will be passed to the interrupt service routine when
; it is called, and will be loaded with the register values returned
; by the interrupt service routine. The other set of registers values
; has member names of the form pmUserXX. These stack frame members
; contain the original values in the registers on entry from the
; user program that called the interrupt.
;
; When we return to the original caller, we want to pass back the
; general registers as returned by the interrupt routine (and possibly
; modified by the exit handler), and the same segment registers as
; on entry, unless the interrupt routine returns a value in a segment
; register. (in this case, there must be some code in the exit routine
; to handle this). This means that when we return to the caller, we
; return the general register values from the intUserXX set of stack
; frame members, but we return the segment registers from the pmUserXX
; set of frame members. By doing it this way, we don't have to do
; any work for the case where the interrupt subfuntion doesn't require
; any parameter manipulation. NOTE however, this means that when
; manipulating register values to be returned to the user, the segment
; registers are treated opposite to the way the general registers are
; treated. For general registers, to return a value to the user,
; store it in a intUserXX stack frame member. To return a segment
; value to the user, store it in a pmUserXX stack frame member.
;
; -------------------------------------------------------
subttl BIOS Video Interrupt (Int 10h) Service Routine
page
; -------------------------------------------------------
; BIOS VIDEO INTERRUPT (INT 10h) SERVICE ROUTINE
; -------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
; -------------------------------------------------------
; PMIntrVideo - Entry point into interrupt reflector code
; for IBM PC Bios video (int 10h) calls.
;
; Input: normal registers for Bios calls
; Output: normal register returns for Bios calls
; Errors: normal Bios errors
; Uses: as per Bios calls
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrVideo
PMIntrVideo:
ifdef NEC_98
cmp ah,40h
jb CRT_bios
cmp ah,4Fh ;4Bh-4Fh = Reserve
ja CRT_bios
jmp PMIntrGBIO
CRT_bios:
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntryVideo
@@:
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
call rglpfnRmISR[4*18h] ;execute the real mode interrupt routine
pushf
cli
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
;; test fPCH98,0FFh
;; jz NotNPCVideoExit ;for PC-H98 modelxx
;; call IntExitVideoNPC ; "
;; jmp @f ; "
;;NotNPCVideoExit: ; "
call IntExitVideo
@@:
;
; And return to the original caller.
call LeaveIntHandler
iret
;/////////////////////////////////////////////////////////////////////////
; Nmode GRAPH BIOS
;/////////////////////////////////////////////////////////////////////////
; -------------------------------------------------------
; PMIntrGBIO
;--------------------------------------------------------
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrGBIO
PMIntrGBIO:
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
push ax
mov ax,[bp].pmUserDS
call GetSegmentAddress
shr dx,4
shl bx,12
or bx,dx ;bx now = seg of parent psp
mov [bp].intUserDS,bx
pop ax
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
call rglpfnRmISR[4*18h] ;execute the real mode interrupt routine
pushf
cli
cld
pusha
push ds
push es
mov ax,ss
mov ds,ax
mov es,ax
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
push ax
mov ax,[bp].pmUserDS
mov [bp].intUserDS,ax
pop ax
;
; And return to the original caller.
call LeaveIntHandler
iret
else ;!NEC_98
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntryVideo
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
sub sp,8 ; make room for stack frame
push bp
mov bp,sp
push es
push ax
xor ax,ax
mov es,ax
mov [bp + 8],cs
mov word ptr [bp + 6],offset piv_10
mov ax,es:[10h*4]
mov [bp + 2],ax
mov ax,es:[10h*4 + 2]
mov [bp + 4],ax
pop ax
pop es
pop bp
retf
piv_10: pushf
FCLI
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
call IntExitVideo
;
; And return to the original caller.
call LeaveIntHandler
riret
endif ;!NEC_98
; -------------------------------------------------------
; IntEntryVideo -- This routine performs any register
; fixups and data copying needed on entry to the
; PC BIOS video interrupt (Int 10h)
;
; Input: register values on stack frame
; Output: register values on stack frame
; Errors: none
; Uses: any registers modified,
; possibly modifies buffers rgbXfrBuf0 or rgbXfrBuf1
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntEntryVideo
IntEntryVideo:
ifdef NEC_98
;video mode
cmp ah,0Fh
jnz ienv10
mov cx,16
jmp ienv70
ienv10:
cmp ah,14h
jnz ienv20
jmp ienv80
ienv20:
cmp ah,1Fh
jnz ienv30
jmp ienv110
ienv30:
cmp ah,1Ah
jnz ienv40
test fPCH98,0FFh
jnz H98_FontWrite_N
mov cx,34
jmp ienv70
ienv40:
cmp ah,20h
jnz ienv90
test fPCH98,0FFh
jnz @f
mov cx,72
jmp ienv100
@@:
jmp H98_FontWrite_H
ienv70:
push ds
mov si,[bp].pmUserCX ;offset address
mov ds,[bp].pmUserBX ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
ienv80:
push ax
mov ax,segDXDataPM
mov [bp].intUserBX,ax ;segment address
pop ax
mov [bp].intUserCX,offset DGROUP:rgbXfrBuf1
ienv90:
ret
ienv100:
push ds
mov si,[bp].pmUserBX ;offset address
mov ds,[bp].pmUserDS ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
ienv110:
push ax
mov ax,segDXDataPM
mov [bp].intUserDS,ax ;segment address
pop ax
mov [bp].intUserBX,offset DGROUP:rgbXfrBuf1
ienv120:
ret
H98_FontWrite_N:
cmp dx,7601h
jb @f
cmp dx,767Fh
jna WUSKZEN
cmp dx,7701h
jb @f
cmp dx,777Fh
jna WUSKZEN
cmp dx,7801h
jb @f
cmp dx,783Fh
;;;;;;;; ja ienv35
jna WUSKZEN
jmp ienv35
WUSKZEN:
mov cx,34
jmp ienv70
@@:
jmp ienv40
ienv35:
cmp dx,7840h
jb @b
cmp dx,787Fh
jna WUSKHAN
cmp dx,7D01h
jb @b
cmp dx,7D7Fh
jna WUSKHAN
cmp dx,7E01h
jb @b
cmp dx,7E7Fh
;;;;;;;; ja @b
jna WUSKHAN
jmp @b
WUSKHAN:
mov cx,18
jmp ienv70
H98_FontWrite_H:
cmp dx,7601h
jb @f
cmp dx,767Fh
jna HWUSKZEN
cmp dx,7701h
jb @f
cmp dx,777Fh
jna HWUSKZEN
cmp dx,7801h
jb @f
cmp dx,783Fh
;;;;;;;; ja @f
jna HWUSKZEN
jmp ienv45
HWUSKZEN:
;;;;;;;; mov cx,74
mov cx,72
jmp ienv100
@@:
jmp ienv90
ienv45:
cmp dx,7840h
jb @f
cmp dx,787Fh
jna HWUSKHAN
cmp dx,7D01h
jb @f
cmp dx,7D7Fh
jna HWUSKHAN
cmp dx,7E01h
jb @f
cmp dx,7E7Fh
;;;;;;;; ja @f
jna HWUSKHAN
jmp @f
HWUSKHAN:
;;;;;;;; mov cx,50
mov cx,48
jmp ienv100
@@:
ret
else ;!NEC_98
cmp ah,10h
jnz ienv20
;
; Video palette control function. Check for subfunctions that require
; special actions.
ienv10: cmp al,2 ;update all palette registers?
jnz @F
mov cx,17 ;palette data is 17 bytes long
jmp short ienv70 ;go copy the data
;
@@: cmp al,9 ;read all palette registers
jz ienv72
;
cmp al,12h ;update video DAC color registers
jnz @F
mov cx,[bp].pmUserCX ;count of table entries is in caller CX
add cx,cx ;each entry is 3 bytes long
add cx,[bp].pmUserCX
jmp short ienv70 ;go copy the data down
@@: cmp al,17h ;read a block of video DAC registers
jz ienv72
;
jmp short ienv90
;
;
ienv20: cmp ah,11h
jnz ienv30
;
; Character generator interface function.
; NOTE: a number of subfunctions of function 11h need to have munging
; and data buffering performed. However, function 30h is the only
; one used by Codeview, so this is the only one currently implemented.
; For this one, nothing needs to be done on entry, only on exit.
jmp short ienv90
;
;
ienv30: cmp ah,1Bh
jnz ienv40
;
; Video BIOS functionality/state information.
; On entry, we need to fix up ES:DI to point to our buffer.
mov [bp].intUserDI,offset DGROUP:rgbXfrBuf0
jmp short ienv90
;
;
ienv40:
jmp short ienv90
;
; Copy the buffer from the user ES:DX to our transfer buffer and set
; the value to DX passed to the interrupt routine to point to our buffer.
ienv70: cld
jcxz ienv90
push ds
mov si,[bp].pmUserDX
mov ds,[bp].pmUserES
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
;
ienv72: mov [bp].intUserDX,offset DGROUP:rgbXfrBuf1
jmp short ienv90
;
; All done
ienv90:
ret
endif ;!NEC_98
; -------------------------------------------------------
; IntExitVideo: This routine performs any register
; fixups and data copying needed on exit from the
; PC BIOS video interrupt (Int 10h).
;
; Input: register values on stack frame
; Output: register values on stack frame
; Errors: none
; Uses: any registers modified
; possibly modifies buffers rgbXfrBuf0 or rgbXfrBuf1
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitVideo
IntExitVideo:
ifdef NEC_98
;video mode
cmp ah,0Fh
jnz iexv10
jmp iexv80
iexv10:
cmp ah,14h
jnz iexv20
cmp dh,00h
jnz iexv11
mov cx,10
jmp iexv70
iexv11:
cmp dh,80h ;ANK(7*13)
jnz iexv12
mov cx,18
jmp iexv70
iexv12:
test fPCH98,0FFh
jnz @f
cmp dx,2920h
jb iexv13
cmp dx,297dh
ja iexvhan1
mov cx,18
jmp iexv70
iexvhan1:
cmp dx,2a20h
jb iexv13
cmp dx,2a5fh
ja iexv13
mov cx,18
jmp iexv70
@@:
jmp H98_FontRead_N
iexv13:
mov cx,34
jmp iexv70
iexv20:
cmp ah,1Fh
jnz iexv30
cmp dh,00h
jnz iexv21
mov cx,48
jmp iexv100
iexv21:
test fPCH98,0FFh
jnz @f
cmp dx,2920h
jb Hmode_han1
cmp dx,297dh
ja Hmode_han1
mov cx,48
jmp iexv100
Hmode_han1:
cmp dx,2a20h
jb iexv22
cmp dx,2a5fh
ja iexv22
mov cx,48
jmp iexv100
@@:
jmp H98_FontRead_H
iexv22:
mov cx,72
jmp iexv100
iexv30:
cmp ah,1Ah
jnz iexv40
jmp iexv80
iexv40:
cmp ah,20h
jnz iexv90
jmp iexv110
iexv70:
cld
push es
mov di,[bp].pmUserCX
mov es,[bp].pmUserBX
mov si,offset DGROUP:rgbXfrBuf1
rep movsb
pop es
;
; Restore the caller's CX
iexv80:
push ax
mov ax,[bp].pmUserBX ;BX regster restor
mov [bp].intUserBX,ax
;------------------------------------------------------------
mov ax,[bp].pmUserCX
mov [bp].intUserCX,ax
pop ax
iexv90:
ret
iexv100:
cld
push es
mov di,[bp].pmUserBX
mov es,[bp].pmUserDS
mov si,offset DGROUP:rgbXfrBuf1
rep movsb
pop es
;
; Restore the caller's CX
iexv110:
push ax
mov ax,[bp].pmUserDS ;BX regster restor
mov [bp].intUserDS,ax
;------------------------------------------------------------
mov ax,[bp].pmUserBX
mov [bp].intUserBX,ax
pop ax
iexv120:
ret
H98_FontRead_N:
cmp dx,2920h
jb iexvN15
cmp dx,297fh
jna iexvNhan
cmp dx,2a20h
jb iexvN15
cmp dx,2a7fh
jna iexvNhan
cmp dx,2b20h
jb iexvN15
cmp dx,2b7fh
jna iexvNhan
cmp dx,7840h
jb iexvN15
cmp dx,787fh
jna iexvNhan
cmp dx,7d01h
jb iexvN15
cmp dx,7d7fh
jna iexvNhan
cmp dx,7e01h
jb iexvN15
cmp dx,7e7fh
ja iexvN15
iexvNhan:
mov cx,18 ;16byte+2=18 ; jmp iexv70
iexvN15:
mov cx,34 ;32byte+2=34
jmp iexv70
H98_FontRead_H:
cmp dx,2920h
jb iexvN25
cmp dx,297fh
jna HiexvNhan
cmp dx,2a20h
jb iexvN25
cmp dx,2a7fh
jna HiexvNhan
cmp dx,2b20h
jb iexvN25
cmp dx,2b7fh
jna HiexvNhan
cmp dx,7840h
jb iexvN25
cmp dx,787fh
jna HiexvNhan
cmp dx,7d01h
jb iexvN25
cmp dx,7d7fh
jna HiexvNhan
cmp dx,7e01h
jb iexvN25
cmp dx,7e7fh
ja iexvN25
HiexvNhan:
;;;;;;;; mov cx,50 ;48byte+2=50
mov cx,48 ;48byte
;;;;;;;; jmp iexv70
jmp iexv100
iexvN25:
;;;;;;;; mov cx,74 ;72byte+2=74
mov cx,72 ;72byte
;;;;;;;; jmp iexv70
jmp iexv100
else ;!NEC_98
cmp ah,10h
jnz iexv20
;
; Palette control function.
cmp al,9 ;read palette data function
jnz @F
mov cx,17
jmp short iexv70
;
@@: cmp al,17h ;read video DAC registers
jnz @F
mov cx,[bp].pmUserCX ;each entry in table is 3 bytes long
add cx,cx
add cx,[bp].pmUserCX
jmp short iexv70
;
@@: jmp short iexv72
;
;
iexv20: cmp ah,11h
jnz iexv30
;
; Character generator interface function.
; NOTE: a number of subfunctions of function 11h need to have munging
; and data buffering performed. However, function 30h is the only
; one used by Codeview, so this is the only one currently implemented
cmp al,30h
jnz @F
mov ax,[bp].intUserES ;get the paragraph address returned by BIOS
mov bx,STD_DATA
call ParaToLDTSelector ;get a selector for that address
mov [bp].pmUserES,ax ;store the selector so that it will be
; returned to the caller
@@: jmp short iexv90
;
;
iexv30: cmp ah,1Bh
jnz iexv40
;
; Video BIOS functionality/state information.
; On exit, we need to fix up the pointer at the beginning of the
; data put in our buffer by the BIOS, and then transfer the buffer up
; to the user.
mov ax,word ptr rgbXfrBuf0[2] ;get segment of pointer to
; 'static functionallity table'
mov bx,STD_DATA
call ParaToLDTSelector ;convert paragraph to selector
mov word ptr rgbXfrBuf0[2],ax ;store back into table
push es
mov si,offset rgbXfrBuf0 ;pointer to our copy of the table
mov di,[bp].pmUserDI ;where the user wants it
mov [bp].intUserDi,di ;restore the DI returned to the user
mov es,[bp].pmUserES
mov cx,64 ;the table is 64 bytes long
cld
rep movsb ;copy the table to the user's buffer
pop es
jmp short iexv90
;
;
iexv40:
jmp short iexv90
;
; Copy data from our buffer to the caller's buffer pointed to by ES:DX
iexv70: cld
push es
mov di,[bp].pmUserDX
mov es,[bp].pmUserES
mov si,offset DGROUP:rgbXfrBuf1
rep movsb
pop es
;
; Restore the caller's DX
iexv72: mov ax,[bp].pmUserDX
mov [bp].intUserDX,ax
;
; All done
iexv90:
ret
endif ;!NEC_98
; -------------------------------------------------------
DXPMCODE ends
; -------------------------------------------------------
subttl BIOS Misc. Interrupt (Int 15h) Service Routine
page
; -------------------------------------------------------
; BIOS MISC. INTERRUPT (INT 15h) SERVICE ROUTINE
; -------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
; -------------------------------------------------------
; PMIntrMisc -- Entry point into the interrupt processing code
; for the BIOS misc functions interrupt (INT 15h).
;
; Input: normal registers for Bios calls
; Output: normal register returns for Bios calls
; Errors: normal Bios errors
; Uses: as per Bios calls
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrMisc
PMIntrMisc:
;
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntryMisc
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
sub sp,8 ; make room for stack frame
push bp
mov bp,sp
push es
push ax
xor ax,ax
mov es,ax
mov [bp + 8],cs
mov word ptr [bp + 6],offset pim_10
mov ax,es:[15h*4]
mov [bp + 2],ax
mov ax,es:[15h*4 + 2]
mov [bp + 4],ax
pop ax
pop es
pop bp
retf
pim_10: pushf
FCLI
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
call IntExitMisc
;
; And return to the original caller.
call LeaveIntHandler
riret
; -------------------------------------------------------
; MISC INTERRUPT SUPPORT ROUTINES
; -------------------------------------------------------
;
; IntEntryMisc -- This function performs data transfer
; and register translation on entry to the BIOS Misc.
; functions interrupt. (INT 15h).
;
; Input: AX - BIOS function being performed
; Output:
; Errors:
; Uses: All registers preserved
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntEntryMisc
IntEntryMisc:
ifdef NEC_98
push cx
cmp ah,90h ;SYSTEM BIOS BLOCK MOVE
jnz iemDMA1 ;yes = jmp
jmp iem70
iemDMA1:
cmp ah,0D5h ;DMA BIOS DMA
jnz iemDMA2 ;yes = jmp
mov cx,8 ;DMA_CBIOS
jmp iem70
iemDMA2:
cmp ah,0D6h ;DMA BIOS DMA
jnz iemROM1 ;yes = jmp
jmp iem80 ;Read JMP
iemROM1:
cmp ah,0D8h ;ROM
jnz iemROM2 ;yes = jmp
mov cx,4
jmp iem70
iemROM2:
cmp ah,0D9h ;ROM
jnz iem90 ;yes = jmp
mov cx,8 ;ROM BIOS
iem70:
push ds
mov si,[bp].pmUserBX ;offset address
mov ds,[bp].pmUserES ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
iem80:
push ax
mov ax,segDXDataPM
mov [bp].intUserES,ax ;segment address
pop ax
mov [bp].intUserBX,offset DGROUP:rgbXfrBuf1
iem90:
pop cx
ret
else ;!NEC_98
; Map requests to set the PS/2 Pointing Device Handler Address
cmp ax,0C207h ;PS/2 Set Pointing Device Handler adr?
jnz iem90
mov ax,[bp].pmUserBX ;User's ES:BX -> handler
mov word ptr lpfnUserPointingHandler,ax
mov ax,[bp].pmUserES
mov word ptr [lpfnUserPointingHandler+2],ax
mov ax,segDXCodePM ;pass BIOS address of our handler
mov [bp].intUserES,ax
mov ax,offset PointDeviceHandler
mov [bp].intUserBX,ax
iem90:
ret
endif ;!NEC_98
; -------------------------------------------------------
; IntExitMisc -- This function performs data transfer
; and register translation on exit from the BIOS Misc.
; Functions interrupt (INT 15h).
;
; Input: AX - BIOS function being performed
; Output:
; Errors:
; Uses: All registers preserved
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitMisc
IntExitMisc:
ifdef NEC_98
push cx
cmp ah,90h ;SYSTEM BIOS BLOCK MOVE
jnz ixmDMA1 ;yes = jmp
jmp ixm70
ixmDMA1:
cmp ah,0D5h ;DMA BIOS
jnz ixmDMA2 ;yes = jmp
jmp ixm70
ixmDMA2:
cmp ah,0D6h ;DMA BIOS DMA
jnz ixmROM1 ;yes = jmp
mov cx,16
jmp ixm80
ixmROM1:
cmp ah,0D8h ; ROM
jnz ixmROM2 ;yes = jmp
jmp ixm70
ixmROM2:
cmp ah,0D9h ; ROM
jnz ixm90
ixm70:
cld
push es
mov di,[bp].pmUserBX
mov es,[bp].pmUserES
mov si,offset DGROUP:rgbXfrBuf1
rep movsb
pop es
;
; Restore the caller's ES,BX
ixm80:
push ax
mov ax,[bp].pmUserES
mov [bp].intUserES,ax
mov ax,[bp].pmUserBX
mov [bp].intUserBX,ax
pop ax
ixm90:
pop cx
ret
else ;!NEC_98
push ax
push bx
push cx
push dx
;
; Check for function 0C0h - Return System Configuration Parameters
cmp ah,0C0h
jnz ixmi30
test [bp].intUserFL,1 ;check if the bios call returned an error
jnz ixmi90 ;(carry flag set in returned flags)
;
; The BIOS call succeeded. This means that ES:BX points to a configuration
; vector. We need to fix up the segment to be a selector.
mov dx,[bp].intUserES
cmp dx,0F000h ;does it point to normal BIOS segment
jnz ixmi22
mov ax,SEL_BIOSCODE or STD_RING
jmp short ixmi24
ixmi22: call ParaToLinear
mov cx,0FFFFh
mov ax,SEL_USERSCR or STD_TBL_RING
cCall NSetSegmentDscr,<ax,bx,dx,0,cx,STD_DATA>
ixmi24: mov [bp].pmUserES,ax
jmp short ixmi90
; Chack for function 0C207h - PS/2 Set Pointing Device Handler Address
ixmi30:
cmp ax,0C207h
jne ixmi90
mov ax,[bp].pmUserBX ;restore user's BX
mov [bp].intUserBX,ax
; All done
ixmi90:
pop dx
pop cx
pop bx
pop ax
ret
endif ;!NEC_98
; -------------------------------------------------------
DXPMCODE ends
; -------------------------------------------------------
subttl Mouse Function Interrupt (Int 33h) Service Routine
page
; -------------------------------------------------------
; MOUSE FUNCTION INTERRUPT (INT 33h) SERVICE ROUTINE
; -------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
; -------------------------------------------------------
; PMIntrMouse - Entry point into interrupt reflector code
; for mouse driver (int 33h) calls.
;
; Input: normal registers for mouse calls
; Output: normal register returns for mouse calls
; Errors: normal mouse errors
; Uses: as per mouse calls
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrMouse
PMIntrMouse:
;
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntryMouse
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
sub sp,8 ; make room for stack frame
push bp
mov bp,sp
push es
push ax
xor ax,ax
mov es,ax
mov [bp + 8],cs
mov word ptr [bp + 6],offset pimo_10
mov ax,es:[33h*4]
mov [bp + 2],ax
mov ax,es:[33h*4 + 2]
mov [bp + 4],ax
pop ax
pop es
pop bp
retf
pimo_10: pushf
FCLI
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
call IntExitMouse
;
; And return to the original caller.
call LeaveIntHandler
riret
; -------------------------------------------------------
; MOUSE SUPPORT ROUTINES
; -------------------------------------------------------
; IntEntryMouse -- This function performs data transfer and
; register translation on entry to mouse driver functions.
; (INT 33h)
;
; Input: AX - mouse function being performed
; Output:
; Errors:
; Uses: NOTHING
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntEntryMouse
IntEntryMouse:
cld
push ax
push cx
push si
push di
;
cmp al,9 ;Set graphics cursor block?
jnz ment10
;
; The user is setting a graphics cursor. We need to copy the masks
; down to low memory so that the mouse driver can get at them and then
; fix up the pointer in DX.
mov cx,32
jmp short ment92
;
; Mouse interrupt handler establishment
ment10: cmp al,12 ;Set user defined interrupt subroutine ?
jnz ment20
;
; This command has the effect of causing a call to the address es:ds
; Whenever an event of one of the types specified by the mask in cx.
; The address es:dx must be saved in lpfnUserMouseHandler and the
; real mode address of MouseInterruptHandler substituted.
mov ax,[bp].pmUserDX ; Load users handler offset
mov word ptr lpfnUserMouseHandler,ax ; Store for future use
mov ax,[bp].pmUserES ; Load users handler segment value
mov word ptr lpfnUserMouseHandler + 2,ax ; Store for future use
mov ax,segDXCodePM ; Load real mode code segment value
mov [bp].intUserES,ax ; Store in real mode es register image
mov ax,offset MouseInterruptHandler ; Load handler offset
mov [bp].intUserDX,ax ; Store in real mode dx register image
jmp short ment99 ;Return
;
ment20: cmp al,20
jc ment99
jnz ment30
;
; This is the swap interrupt subroutine function. Not currently implemented
jmp short ment99
;
ment30: cmp al,22 ;Save mouse driver state?
jnz ment40
;
; This is the save mouse driver state function. We need to pass a pointer
; to the transer buffer down to the mouse driver.
mov ax,npXfrBuf1
mov [bp].intUserDX,ax
jmp short ment99
ment40: cmp al,23 ;Restore mouse driver state?
jnz ment99
;
; This is the restore mouse driver state function. We need to copy the
; mouse state buffer from the pm user location to the transfer buffer,
; and then pass the pointer to the transfer buffer on to the mouse driver.
mov cx,cbMouseState
jcxz ment99
;
; Transfer the data pointed to by the user ES:DX to the scratch buffer, and
; fix up the pointer that is passed on to the mouse driver.
ment92: mov si,[bp].pmUserDX
mov di,npXfrBuf1
mov [bp].intUserDX,di
push ds
mov ds,[bp].pmUserES
cld
rep movs word ptr [di],word ptr [si]
pop ds
;
ment99: pop di
pop si
pop cx
pop ax
ret
; -------------------------------------------------------
; IntExitMouse -- This function performs data transfer and
; register translation on exit from mouse driver functions.
; (INT 33h)
;
; Input: AX - mouse function being performed
; Output:
; Errors:
; Uses:
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitMouse
IntExitMouse:
cld
cmp al,21 ;get state buffer size?
jnz mxit20
;
; We need to remember the state buffer size, so that later we will know
; how many bytes to transfer when we do the save/restore state fucntions.
mov ax,[bp].intUserBX
mov cbMouseState,ax
return
;
mxit20: cmp al,22 ;Save mouse driver state?
jnz mxit30
;
; We need to restore the original values of ES:DX and transfer the mouse
; state data from the real mode buffer to the user's protected mode buffer.
mov cx,cbMouseState
jcxz mxit28
push es
mov si,npXfrBuf1
mov di,[bp].pmUserDX
mov [bp].intUserDX,di
mov es,[bp].pmUserES
rep movs byte ptr [di],byte ptr [si]
pop es
mxit28: return
;
mxit30: cmp al,23 ;Restore mouse driver state?
jnz mxit99
mov ax,[bp].pmUserDX
mov [bp].intUserDX,ax
;
mxit99: ret
; -------------------------------------------------------
DXPMCODE ends
; -------------------------------------------------------
subttl PM Interrupt Support Routines
page
; -------------------------------------------------------
; PM INTERRUPT SUPPORT ROUTINES
; -------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
; -------------------------------------------------------
; EnterIntHandler -- This routine will allocate a stack
; frame on the interrupt reflector stack and make
; a copy of the registers on the allocated stack.
;
; Note: This routine expects the current stack to contain a near
; return address and a normal [IP] [CS] [FL] interrupt stack
; frame. Don't have anything else on the stack before calling
; this routine!
;
; Note: This routine disables interrupts, and leaves them disabled.
; Most callers already have them disabled, so it doesn't
; really make a difference, except that this routine
; requires that they be disabled.
;
; Input: none
; Output: stack frame set up
; Errors: none
; Uses: all registers preserved
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public EnterIntHandler
EnterIntHandler proc near
FCLI ;we really want int's disabled (and
; XMScontrol doesn't do that)
push ds
mov ds,selDgroupPM ;save user's DS and address our DGROUP
assume ds:DGROUP
pop regUserDS
push bp
mov bp,sp ;bp -> [BP] [IP] [IP] [CS] [FL]
push word ptr [bp+8]
pop regUserFL ;user's flags before doing INT
pop bp
pop pfnReturnAddr ;near return to our immediate caller
mov regUserSS,ss ;save caller's stack address
mov regUserSP,sp
ASSERT_REFLSTK_OK
mov ss,selDgroupPM ;switch to interrupt reflector stack
mov sp,pbReflStack
sub pbReflStack,CB_STKFRAME ;adjust pointer to next stack frame
FIX_STACK
; Build the stack frame. The stack frame contains the following:
; dword & word parameter locations
; original caller's stack address
; caller's original flags and general registers (in pusha form)
; caller's original segment registers (DS & ES)
; flags and general registers to be passed to interrupt routine
; (initially the same as caller's original values)
; segment registers (DS & ES) to be passed to interrupt routine
; (initially set to the Dos Extender data segment address)
;
; The parameter words and then the caller's original register values go on top.
sub sp,8 ;space for a dd & 2 dw's
push regUserSP
push regUserSS
push regUserFL
pusha
push regUserDS
push es
; Now, put all of the general registers, and values for the segment
; registers to be passed to the interrupt service routine. We pass
; the Dos Extender data segment address to the interrupt routine.
push regUserFL
pusha
push segDXDataPM
push segDXDataPM
; And we are done.
mov bp,sp ;set up frame pointer
mov es,selDgroupPM
jmp pfnReturnAddr ;return to the caller.
EnterIntHandler endp
; -------------------------------------------------------
; LeaveIntHandler -- This routine will restore the user registers,
; release the stack frame, and restore the original user's stack
; for exit from an interrupt reflector routine.
;
; Note: Interrupts must be off when this routine is called.
;
; Input: none
; Output: none
; Errors: none
; Uses: All registers modified
assume ds:DGROUP,es:NOTHING,ss:NOTHING
public LeaveIntHandler
LeaveIntHandler proc near
FCLI
pop pfnReturnAddr
; The copy of the register values returned from the interrupt routine
; (and then possibly modified by the exit handler for the particular
; interrupt) are what gets returned to the caller. We discard the original
; register values saved on entry. (They were there so that the exit
; routine could refer to them if necessary)
add sp,4 ;skip over interrupt service routine's
; segment register values
popa ;restore general register values
pop regUserFL ;flags returned by interrupt routine
pop es ;get segment registers from pmUserES
pop regUserDS ; and pmUserDS
add sp,18 ;skip over the original user registers
; and flags
pop regUserSS ;original interrupted routine's stack
pop regUserSP
mov regUserAX,ax
; Switch back to the original user's stack.
ASSERT_REFLSTK_OK
ASSERT_CLI
CHECK_STACK
mov ss,regUserSS
mov sp,regUserSP
add pbReflStack,CB_STKFRAME
ASSERT_REFLSTK_OK
; We need to replace the image of the flags in the original int return
; address on the user's stack with the new flags returned from the interrupt
; service routine.
push bp
mov bp,sp ;stack -> BP IP CS FL
mov ax,regUserFL ;flags returned by interrupt service routine
and ax,0BFFFh ;clear the nested task flag
and [bp+6],0300h ;clear all but the interrupt and trace flags
; in the caller's original flags
or [bp+6],ax ;combine in the flags returned by the
; interrupt service routine. This will cause
; us to return to the original routine with
; interrupts on if they were on when the
; interrupt occured, or if the ISR returned
; with them on.
pop bp
; And now, return to the caller.
push pfnReturnAddr
mov ax,regUserAX
mov ds,regUserDS
assume ds:NOTHING
ret
LeaveIntHandler endp
; -------------------------------------------------------
DXPMCODE ends
; -------------------------------------------------------
subttl Mouse Interrupt Callback Function Handler
page
; -------------------------------------------------------
; MOUSE INTERRUPT CALLBACK FUNCTION HANDLER
; -------------------------------------------------------
DXCODE segment
assume cs:DXCODE
; -------------------------------------------------------
; MouseInterruptHandler -- This routine is the entry point for
; user requested mouse event interrupts. It switches the
; processor to protected mode and transfers control to the
; user protected mode mouse handling routine. When that
; completes, it switches back to real mode and returns control
; to the mouse driver.
; Entry to this routine will have been requested by an
; INT 33H code 12 with the real address of this routine
; substituted for the users entry point.
; The address of the user specified mouse handler as specified
; in the original INT 33H is stored in the variable
; lpfnUserMouseHandler.
;
; Input: none
; Output: none
; Errors: none
; Uses: The segment registers are explicitly preserved by
; this routine. Other registers are as preserved or
; modified by the users mouse handler.
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public MouseInterruptHandler
MouseInterruptHandler proc far
;
; On entry, the stack layout is:
; [2] CS - System mouse handler code segment
; [0] IP - System mouse handler return offset
;
push es
push ds
pushf
FCLI
cld
mov ds,selDgroup
assume ds:DGROUP
pop regUserFL
;
; Allocate a new stack frame, and then switch to the local stack
; frame.
mov regUserSP,sp ;save entry stack pointer so we can restore it
mov regUSerSS,ss ;save segment too
mov ss,selDgroup ;switch to our own stack frame
ASSERT_REFLSTK_OK
mov sp,pbReflStack
sub pbReflStack,CB_STKFRAME ;adjust pointer to next stack frame
FIX_STACK
;
; We are now running on our own stack, so we can switch into protected mode.
push ax ;preserve caller's AX
SwitchToProtectedMode
pop ax
;
; Build a far return frame on the stack so that the user's
; routine will return to us when it is finished.
push regUserSS ; save system mouse handler stack address
push regUserSP ; so we can restore it later
push ds
push cs
push offset mih50
;
; Build an IRET frame on the stack to use to transfer control to the
; user's protected mode routine
push regUserFL
push word ptr lpfnUserMouseHandler+2 ;push segment of user routine
push word ptr lpfnUserMouseHandler ;push offset of user routine
;
; At this point the interrupt reflector stack looks like this:
;
; [14] stack segment of original stack
; [12] stack pointer of original stack
; [10] real mode dos extender data segment
; [8] segment of return address back to here
; [6] offset of return address back here
; [4] Users flags
; [2] segment of user routine
; [0] offset of user routine
;
; Execute the users mouse handler
iret
;
; The users handler will return here after it is finsished.
mih50: FCLI
cld
pop ds
pop regUserSP
pop regUserSS
;
; Switch back to real mode.
push ax ;preserve AX
SwitchToRealMode
pop ax
CHECK_STACK
;
; Switch back to the original stack.
mov ss,regUserSS
mov sp,regUserSP
ASSERT_REFLSTK_OK
;
; Deallocate the stack frame that we are using.
add pbReflStack,CB_STKFRAME
ASSERT_REFLSTK_OK
;
; And return to the original interrupted program.
pop ds
pop es
ret
MouseInterruptHandler endp
; -------------------------------------------------------
DXCODE ends
; -------------------------------------------------------
subttl PS/2 Pointing Device Handler
page
; -------------------------------------------------------
; PS/2 POINTING DEVICE HANDLER
; -------------------------------------------------------
DXCODE segment
assume cs:DXCODE
ifndef NEC_98
; -------------------------------------------------------
; PointDeviceHandler -- This routine is the entry point for
; the PS/2 Pointing Device Handler. It switches the
; processor to protected mode and transfers control to the
; user pointing device handler. When that completes,
; it switches back to real mode and returns control to
; the PS/2 BIOS.
;
; Note: The BIOS calls us with interrutps enabled!
; Input: none
; Output: none
; Errors: none
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PointDeviceHandler
PointDeviceHandler proc far
; On entry, the stack layout is:
;
; [10] status
; [8] X coordinate
; [6] Y coordinate
; [4] Z coordinate
; [2] CS - PS/2 BIOS code segment
; [0] IP - PS/2 BIOS return offset
cld
push es ;save PS/2 BIOS ds/es on it's stack
push ds
mov ds,selDgroup ;addressability to DOSX DGROUP
push ds
pop es
assume ds:DGROUP,es:DGROUP
FCLI ;protect global regUserXX vars
; Allocate a new stack frame, and then switch to the local stack
; frame.
mov regUserSP,sp ;save entry stack pointer so we can restore it
mov regUSerSS,ss ;save segment too
ASSERT_REFLSTK_OK
mov ss,selDgroup ;switch to our own stack frame
mov sp,pbReflStack
sub pbReflStack,CB_STKFRAME ;adjust pointer to next stack frame
FIX_STACK
push regUserSS ;save PS/2 BIOS stack address
push regUserSP ; so we can restore it later
push SEL_DXDATA or STD_RING ;DOSX DS to be poped in PM
sub sp,4*2 ;temp save the general regs further down the
pusha ; stack, they'll get poped in a little while
; Copy PS/2 pointing device stack info to our (soon to be) protected mode stack
mov si,regUserSP ;PS/2 stack pointer
mov ds,regUserSS ;PS/2 stack segment
assume ds:NOTHING
FSTI ;no more references to global regUserXX vars
add si,4*2 ;skip over es,ds,cs,ip
mov di,sp ;loc for pointing device
add di,8*2 ; data on our stack
mov cx,4
cld
rep movsw
push es ;restore ds = DGROUP
pop ds
assume ds:DGROUP
; We are now running on our own stack, so we can switch into protected mode.
SwitchToProtectedMode ;disables interrupts again
FSTI ; but we don't want them disabled
popa ;restore general registers
; At this point the stack looks like this:
;
; [12] stack segment of original stack
; [10] stack pointer of original stack
; [8] protect mode dos extender data segment
; [6] status
; [4] X coordinate
; [2] Y coordinate
; [0] Z coordinate
; Execute the user's pointing device handler
call [lpfnUserPointingHandler]
; The users handler will return here after it is finsished.
pdh50:
cld
add sp,4*2 ;discard pointing device info
pop ds
FCLI ;protect global regUserXX vars
pop regUserSP
pop regUserSS
; Switch back to real mode.
push ax ;preserve AX
SwitchToRealMode
pop ax
; Switch back to the original stack.
CHECK_STACK
mov ss,regUserSS
mov sp,regUserSP
; Deallocate the stack frame that we are using.
ASSERT_REFLSTK_OK
add pbReflStack,CB_STKFRAME
ASSERT_REFLSTK_OK
; And return to the PS/2 BIOS
FSTI ;we came in with ints enabled
pop ds
pop es
ret
PointDeviceHandler endp
; -------------------------------------------------------
endif ;!NEC_98
;
; -------------------------------------------------------
subttl Utility Function Definitions
page
; -------------------------------------------------------
; UTILITY FUNCTION DEFINITIONS
; -------------------------------------------------------
;
; SaveRMIntrVectors -- This routine copies the current
; real mode interrupt vector table to the shadow
; vector table used by the interrupt reflector.
;
; Input: none
; Output: none
; Errors: none
; Uses; all registers preserved
;
; NOTE: This routine can only be called in REAL MODE.
assume ds:DGROUP,es:NOTHING,ss:NOTHING
public SaveRMIntrVectors
SaveRMIntrVectors:
push cx
push si
push di
push ds
push es
;
cld
push ds
pop es
xor cx,cx
mov si,cx
mov ds,cx
mov di,offset DGROUP:rglpfnRmISR
mov cx,2*256
rep movs word ptr [di],word ptr [si]
;
pop es
pop ds
pop di
pop si
pop cx
ret
; -------------------------------------------------------
; RestoreRMIntrVectors -- This routine copies the
; interrupt vectors from the real mode interrupt
; vector shadow table back down to the real interrupt
; vectors.
;
; Input: none
; Output: none
; Errors: none
; Uses; all registers preserved
;
; NOTE: This routine can only be called in REAL MODE.
assume ds:DGROUP,es:NOTHING,ss:NOTHING
public RestoreRMIntrVectors
RestoreRMIntrVectors:
push cx
push si
push di
push ds
push es
;
FCLI
cld
xor cx,cx
mov di,cx
mov es,cx
mov si,offset DGROUP:rglpfnRmISR
mov cx,2*256
rep movs word ptr [di],word ptr [si]
FSTI
;
pop es
pop ds
pop di
pop si
pop cx
ret
; -------------------------------------------------------
DXCODE ends
ifdef NEC_98
;
; -------------------------------------------------------
subttl INT D2h SOUND BIOS HANDRER
page
; -------------------------------------------------------
; PMIntrSound
;--------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrSound
PMIntrSound:
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntrySD
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
call rglpfnRmISR[4*0D2h] ;execute the real mode interrupt routine
pushf
cli
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
call IntExitSD
;
; And return to the original caller.
call LeaveIntHandler
iret
;--------------------------------------------------------
; IntEntrySD
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntEntrySD
IntEntrySD:
cmp ah,0 ;BIOS(INITIALIZE)
jnz ienSD10
mov bx,0 ;BIOS
mov si,bx
mov cx,2FFh ;(256) (512)
jmp ienSD50
ienSD10:
cmp ah,1 ;(PLAY)
jnz ienSD20
mov si,[bp].pmUserBX
mov cx,28
jmp ienSD50
ienSD20:
cmp ah,16h ;(SET PARA BLOCK)
jnz ienSD90
mov si,[bp].pmUserBX
cmp dl,0 ;00=WORD/01=BYTE?
jnz ienSD21 ;not 0 = JMP
mov cx,100 ;100
jmp ienSD50
ienSD21:
mov cx,51 ;51
ienSD50:
push ds
;;;; mov si,[bp].pmUserBX ;
mov ds,[bp].pmUserES ;
mov di,offset DGROUP:rgbXfrBuf1
rep movsb
pop ds
push ax
mov ax,segDXDataPM
mov [bp].intUserES,ax ;segment address
pop ax
;------------------------------------------------------------
mov [bp].intUserBX,offset DGROUP:rgbXfrBuf1
ienSD90:
ret
;--------------------------------------------------------
; IntExitSD
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitSD
IntExitSD:
cmp ah,0 ;BIOS (INITIALIZE)
jnz iexSD10
jmp iexSD50
iexSD10:
cmp ah,1 ;(PLAY)
jnz iexSD20
jmp iexSD50
iexSD20:
cmp ah,16h ;(SET PARA BLOCK)
jnz iexSD90
iexSD50:
push ax
mov ax,[bp].pmUserES
mov [bp].intUserES,ax
;------------------------------------------------------------
mov ax,[bp].pmUserBX
mov [bp].intUserBX,ax
pop ax
iexSD90:
ret
DXPMCODE ends
; -------------------------------------------------------
subttl INT 1Ah PRINTER BIOS HANDRER
page
; 30h( ) 2K
; -------------------------------------------------------
; PMIntrPrinter
;--------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrPrinter
PMIntrPrinter:
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntryPR
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
call rglpfnRmISR[4*1Ah] ;execute the real mode interrupt routine
pushf
cli
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
call IntExitPR
;
; And return to the original caller.
call LeaveIntHandler
iret
;--------------------------------------------------------
; IntEntryPR
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntEntryPR
IntEntryPR:
cmp ah,30h ;
jnz ienPR20 ;90/08/24
mov cx,[bp].pmUserCX ;
cmp cx,2048 ;2K
jbe ienPR10 ;NO = jmp
mov cx,2048
mov [bp].intUserCX,cx
ienPR10:
push ds
mov si,[bp].pmUserBX ;offset address
mov ds,[bp].pmUserES ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
push ax
mov ax,segDXDataPM
mov [bp].intUserES,ax ;segment address
pop ax
;------------------------------------------------------------
mov [bp].intUserBX,offset DGROUP:rgbXfrBuf1
ienPR20:
ret
;--------------------------------------------------------
; IntExitPR
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitPR
IntExitPR:
cmp ah,30h
jnz iexPR20
mov cx,[bp].pmUserCX
cmp cx,2048
ja iexPR10 ;YES = jmp
push ax
mov ax,[bp].pmUserES
mov [bp].intUserES,ax
;------------------------------------------------------------
mov ax,[bp].pmUserBX ;offset address
mov [bp].intUserBX,ax
pop ax
ret
iexPR10:
push ax
mov ax,[bp].pmUserES
mov [bp].intUserES,ax
;------------------------------------------------------------
mov cx,2048
sub [bp].pmUserCX,cx
mov ax,[bp].pmUserCX
mov [bp].intUserCX,ax
pop ax
push bx
add [bp].pmUserBX,cx
mov bx,[bp].pmUserBX
mov [bp].intUserBX,bx
pop bx
iexPR20:
ret
;////////////////////////////////////////////////////////////
if 0
;////////////////////////////////////////////////////////////
IntEntryPR:
cmp ah,30h
jnz ienPR10
mov cx,[bp].pmUserCX
cmp cx,2048
ja ienPR10 ;YES = jmp
push ds
mov si,[bp].pmUserBX ;offset address
mov ds,[bp].pmUserES ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
push ax
mov ax,segDXDataPM
mov [bp].intUserES,ax ;segment address
pop ax
;------------------------------------------------------------
mov [bp].intUserBX,offset DGROUP:rgbXfrBuf1
ret
ienPR10:
push ds
mov si,[bp].pmUserBX ;offset address
mov ds,[bp].pmUserES ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
push ax
mov ax,segDXDataPM
mov [bp].intUserES,ax ;segment address
pop ax
;------------------------------------------------------------
push bx
mov bx,offset DGROUP:rgbXfrBuf1 ;
add bx,cx ;DGROUP:rgbXfrBuf1
mov [bp].intUserBX,bx ;
pop bx
ret
; push ds
; mov [bp].intUserES,ds ;segment address
; pop ds
;;------------------------------------------------------------
; mov bx,offset DGROUP:rgbXfrBuf1 ;
; add bx,cx ;
; mov [bp].intUserBX,bx ;
; ret
;
;--------------------------------------------------------
; IntExitPR
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitPR
IntExitPR:
cmp ah,30h
jnz iexPR10
mov ax,[bp].pmUserES
mov [bp].intUserES,ax
;------------------------------------------------------------
mov ax,[bp].pmUserBX ;
mov [bp].intUserBX,ax
iexPR10:
ret
;////////////////////////////////////////////////////////////
endif
;////////////////////////////////////////////////////////////
DXPMCODE ends
; -------------------------------------------------------
subttl INT 1Ch CALENDER/TIMER HANDRER
page
; -------------------------------------------------------
; PMIntrCalTi
;--------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrCalTi
PMIntrCalTi:
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntryCT
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
call rglpfnRmISR[4*1Ch] ;execute the real mode interrupt routine
pushf
cli
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
call IntExitCT
;
; And return to the original caller.
call LeaveIntHandler
iret
;--------------------------------------------------------
; IntEntryCT
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntEntryCT
IntEntryCT:
cmp ah,0 ;
jnz ienCT10
jmp ienCT80
ienCT10:
cmp ah,1 ;
jnz ienCT20
mov cx,6 ;
jmp ienCT70
ienCT20:
ienCT50:
push es
push ax
mov ax,40h
mov es,ax
; test byte ptr es:[501h],8h ;if Hmode
test byte ptr es:[101h],8h ;if Hmode
jz ienCT90
;; test fNHmode,0FFh
;; jz ienCT90 ;0=Nmode --->jmp
;--------------------- Hmode ----------------------
cmp ah,3
jnz ienCT30
mov cx,4
jmp ienCT70
ienCT30:
cmp ah,4
jnz ienCT40
mov cx,12
jmp ienCT70
ienCT40:
cmp ah,5
jnz ienCT90
mov cx,12
;--------------------- Hmode ----------------------
ienCT70:
push ds
mov si,[bp].pmUserBX ;offset address
mov ds,[bp].pmUserES ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
ienCT80:
push ax
mov ax,segDXDataPM
mov [bp].intUserES,ax ;segment address
pop ax
;------------------------------------------------------------
mov [bp].intUserBX,offset DGROUP:rgbXfrBuf1
ienCT90:
ret
;--------------------------------------------------------
; IntExitCT
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitCT
IntExitCT:
cmp ah,0
jnz iexCT10
mov cx,6
jmp iexCT70
iexCT10:
cmp ah,1
jnz iexCT20
jmp iexCT80
iexCT20:
iexCT50:
push es
push ax
mov ax,40h
mov es,ax
; test byte ptr es:[501h],8h ;if Hmode
test byte ptr es:[101h],8h ;if Hmode
jz iexCT90
;; test fNHmode,0FFh
;; jz iexCT90 ;0=Nmode --->jmp
;--------------------- Hmode ----------------------
cmp ah,3
jnz iexCT30
jmp iexCT80
iexCT30:
cmp ah,4
jnz iexCT40
jmp iexCT80
iexCT40:
cmp ah,5
jnz iexCT90
jmp iexCT80
;--------------------- Hmode ----------------------
iexCT70:
push es
mov di,[bp].pmUserBX ;offset address
mov es,[bp].pmUserES ;segment address
mov si,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop es
iexCT80:
push ax
mov ax,[bp].pmUserES
mov [bp].intUserES,ax
;------------------------------------------------------------
mov ax,[bp].pmUserBX
mov [bp].intUserBX,ax
pop ax
iexCT90:
ret
DXPMCODE ends
; -------------------------------------------------------
subttl INT DCh extended DOS HANDRER
page
; -------------------------------------------------------
; PMIntrExDos
;--------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrExDos
PMIntrExDos:
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
call IntEntryED
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
call rglpfnRmISR[4*0DCh] ;execute the real mode interrupt routine
pushf
cli
cld
pusha
push ds
push es
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
; mov ax,[bp].pmUserAX ;get original function code
mov cx,[bp].pmUserCX ;get original function code
call IntExitED
;
; And return to the original caller.
call LeaveIntHandler
iret
;--------------------------------------------------------
; IntEntryED
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntEntryED
IntEntryED:
cmp cl,0Ch
jnz ienED10
jmp ienED80
ienED10:
;;; push cx
cmp cl,0Dh
jz ienED
jmp ienED20
ienED:
push cx
cmp ax,0
jnz ienED11
mov cx,386 ;386byte
jmp ienED70
ienED11:
cmp ax,0FFh
jnz ienED12
mov cx,786 ;786byte
jmp ienED70
ienED12:
cmp ax,1
jb ienED13
cmp ax,0Ah
ja ienED13
mov cx,160 ;16*10=160byte
jmp ienED70
ienED13:
cmp ax,0Bh
jb ienED14
cmp ax,14h
ja ienED14
mov cx,160 ;16*10=160byte
jmp ienED70
ienED14:
cmp ax,15h
jb ienED15
cmp ax,1Fh
ja ienED15
mov cx,66 ;6*11=66byte
jmp ienED70
ienED15:
cmp ax,20h
jb ienED16
cmp ax,24h
ja ienED16
mov cx,80 ;16*5=80byte
jmp ienED70
ienED16:
cmp ax,25h
jb ienED17
cmp ax,29h
ja ienED17
mov cx,80 ;16*5=80byte
jmp ienED70
ienED17:
cmp ax,2Ah
jb ienED18
cmp ax,38h
ja ienED18
mov cx,240 ;16*15=240byte
jmp ienED70
ienED18:
cmp ax,100h
jnz ienED20
mov cx,514 ;2+512=514byte
jmp ienED70
ienED20:
cmp cl,10h
jnz ienED90
cmp ah,1
jnz ienED90
moji_out:
mov si,dx
cmp byte ptr ds:[si],'$'
;;;;;;;; cmp byte ptr ds:[dx],'$'
jz ienED90
push ds
mov si,[bp].pmUserDX ;offset address
mov ds,[bp].pmUserDS ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
movsb
pop ds
jmp moji_out
ienED70:
push ds
mov si,[bp].pmUserDX ;offset address
mov ds,[bp].pmUserDS ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
pop cx
ienED80:
;-----------
push ax
mov ax,segDXDataPM
mov [bp].intUserES,ax ;segment address
pop ax
;------------------------------------------------------------
mov [bp].intUserDX,offset DGROUP:rgbXfrBuf1
ienED90:
ret
;--------------------------------------------------------
; IntExitED
;--------------------------------------------------------
assume ds:DGROUP,es:DGROUP,ss:NOTHING
public IntExitED
IntExitED:
cmp cl,0Ch
jz iexED
jmp iexED10
iexED:
push cx
cmp ax,0
jnz iexED1
mov cx,386 ;386byte
jmp iexED70
iexED1:
cmp ax,0FFh
jnz iexED2
mov cx,786 ;786byte
jmp iexED70
iexED2:
cmp ax,1
jb iexED3
cmp ax,0Ah
ja iexED3
mov cx,160 ;16*10=160byte
jmp iexED70
iexED3:
cmp ax,0Bh
jb iexED4
cmp ax,14h
ja iexED4
mov cx,160 ;16*10=160byte
jmp iexED70
iexED4:
cmp ax,15h
jb iexED5
cmp ax,1Fh
ja iexED5
mov cx,66 ;6*11=66byte
jmp iexED70
iexED5:
cmp ax,20h
jb iexED6
cmp ax,24h
ja iexED6
mov cx,80 ;16*5=80byte
jmp iexED70
iexED6:
cmp ax,25h
jb iexED7
cmp ax,29h
ja iexED7
mov cx,80 ;16*5=80byte
jmp iexED70
iexED7:
cmp ax,2Ah
jb iexED8
cmp ax,38h
ja iexED8
mov cx,240 ;16*15=240byte
jmp iexED70
iexED8:
cmp ax,100h
jnz iexED10
mov cx,514 ;2+512=514byte
jmp iexED70
iexED10:
cmp cl,0Dh
jnz iexED20
jmp iexED80
iexED20:
cmp cl,10h
jnz iexED90
cmp ah,1
jnz iexED90
jmp iexED80
iexED70:
push ds
mov si,[bp].pmUserDX ;offset address
mov ds,[bp].pmUserDS ;segment address
mov di,offset DGROUP:rgbXfrBuf1
cld
rep movsb
pop ds
pop cx
iexED80:
push ax
;-----------
mov ax,[bp].pmUserDS
mov [bp].intUserDS,ax
;------------------------------------------------------------
mov ax,[bp].pmUserDX
mov [bp].intUserDX,ax
pop ax
iexED90:
ret
DXPMCODE ends
;/////////////////////////////////////////////////////////////////////////
; Hmode no GRAPH ha INT 1Dh(Graph BIOS) niyori byouga sareru.
; DOSX deha,
;/////////////////////////////////////////////////////////////////////////
; -------------------------------------------------------
; PMIntr GRAPH BIOS
;--------------------------------------------------------
DXPMCODE segment
assume cs:DXPMCODE
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntrGraph
;///////////////////////////////////////////////////////////////////////
;; extrn fNHmode:BYTE ;NHmode
;///////////////////////////////////////////////////////////////////////
PMIntrGraph:
;; test fNHmode,0FFh
;; jz GBios_Nmode
call EnterIntHandler ;build a stack frame and fix up the
cld ; return address so that the interrupt
;service routine will return to us.
;
; Perform fixups on the entry register values
push ax
mov ax,[bp].pmUserDS
call GetSegmentAddress
shr dx,4
shl bx,12
or bx,dx ;bx now = seg of parent psp
mov [bp].intUserDS,bx
pop ax
;
; Execute the interrupt service routine
SwitchToRealMode
assume ss:DGROUP
pop es
pop ds
assume ds:NOTHING,es:NOTHING
popa
call rglpfnRmISR[4*1Dh] ;execute the real mode interrupt routine
pushf
cli
cld
pusha
push ds
push es
mov ax,ss
mov ds,ax
mov es,ax
mov bp,sp ;restore stack frame pointer
SwitchToProtectedMode
assume ds:DGROUP,es:DGROUP
;
; Perform fixups on the return register values.
mov ax,[bp].pmUserAX ;get original function code
;/////////////
push ax
mov ax,[bp].pmUserDS
mov [bp].intUserDS,ax
pop ax
;/////////////
;
; And return to the original caller.
call LeaveIntHandler
iret
DXPMCODE ends
DXPMCODE segment
assume cs:DXPMCODE
assume ds:NOTHING,es:NOTHING,ss:NOTHING
public PMIntr11dummy
PMIntr11dummy proc near
and ax,0FFFDh
iret
PMIntr11dummy endp
DXPMCODE ends
endif ;NEC_98
DXPMCODE segment
assume cs:DXPMCODE
IFDEF WOW
public Wow32IntrRefl
Wow32IntrRefl label word
??intnum = 0
rept 256
push word ptr ??intnum
jmp Wow32Intr16Reflector
??intnum = ??intnum + 1
endm
;--------------------------------------------------------
;
; Wow32Intr16Reflector -- This routine reflects a 32 bit
; interrupt to a 16 bit handler. It switches to the
; dos extender stack to do so.
;
; Inputs: none
; Outputs: none
;
assume ds:nothing,es:nothing,ss:nothing
public Wow32Intr16Reflector
Wow32Intr16Reflector proc
.386p
push ebp
mov ebp,esp
push ds
push eax
push ebx
push edi
mov ax,ss
movzx eax,ax
lar eax,eax
test eax,(AB_BIG SHL 8)
jnz w32i16r10
movzx ebp,bp
w32i16r10:
;
; Get a frame on the dosx stack.
;
mov ax,selDgroupPM
mov ds,ax
assume ds:DGROUP
movzx ebx,pbReflStack
sub pbReflStack,CB_STKFRAME
;
; Build a frame on the stack
;
sub bx,30
mov eax, [ebp+6] ; eip
mov [bx+20], eax
mov eax, [ebp+10] ; cs
mov [bx+24], eax
mov [bx + 18],ss ; ss for stack switch back
mov eax,ebp
add eax,6 ; ebp, int number
mov [bx + 14],eax ; esp for stack switch back
mov ax,[ebp + 14] ; get flags
mov [bx + 12],ax
mov ax,cs
mov [bx + 10],ax
mov [bx + 8],offset DXPMCODE:w3216r30
mov eax,[ebp]
mov [bx],eax ; put ebp on other stack for pop
;
; Get handler
;
mov di,[ebp + 4] ; int number
shl di,2 ; al * 4
add di,offset DGROUP:Wow16BitHandlers
mov ax,[di]
mov [bx + 4],ax ; handler ip
mov ax,[di + 2]
mov [bx + 6],ax ; handler cs
;
; Set up for stack switch
;
push ds
push ebx
;
; Restore registers
;
mov ax,[ebp - 2]
mov ds,ax
mov eax,[ebp - 6]
mov ebx,[ebp - 10]
mov edi,[ebp - 14]
;
; Switch stacks, restore ebp, and call handler
;
lss esp,[ebp - 20]
pop ebp
retf
;
; N.B. i31_RMCall looks on the stack to get the original user stack pointer.
; if you change the stack frame the is passed to the 16 bit int
; handlers, that WILL break.
;
w3216r30:
;
; Switch stacks, deallocate frame from dosx stack and return
;
push ebx
push eax
push ds
lds ebx,[esp+10] ;get ss:esp
mov eax,[esp+16]
mov [ebx],eax ;eip
mov eax,[esp+20]
mov [ebx+4],eax ;cs
pop ds
pop eax
pop ebx
lss esp,[esp]
push ebx
pushfd
push eax
mov ax,ss
movzx eax,ax
lar eax,eax
test eax,(AB_BIG SHL 8) ; is the stack big?
jnz w32i16r40 ; jif yes, use 32bit operations
pop eax ; restore regs
popfd
rpushfd ; save flags, set virtual int bit
pop ebx
push ebp
movzx ebp, sp
mov [ebp + 16],ebx ; put flags on iret frame
pop ebp
push ds
mov bx,selDgroupPM
mov ds,bx
add pbReflStack,CB_STKFRAME
pop ds
pop ebx
riretd
w32i16r40: ; stack is big
pop eax ; restore regs
popfd
rpushfd32
pop ebx
mov [esp + 12],ebx
push ds
mov bx,selDgroupPM
mov ds,bx
add pbReflStack,CB_STKFRAME
pop ds
pop ebx
riretd32
.286p
Wow32Intr16Reflector endp
ENDIF
DXPMCODE ends
;
;****************************************************************
end