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1102 lines
34 KiB
1102 lines
34 KiB
page 80,132
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;***************************************************************************;
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;
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; STACK.ASM
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;
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; Copyright (c) Microsoft Corporation 1989, 1990. All rights reserved.
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;
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; This module contains a routine that calls a callback function on a
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; internal stack. This is designed to be used by MMSYSTEM drivers that
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; call user callback functions at async interupt time.
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;
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; Revision history:
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;
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; 07/30/90 First created by ToddLa (moved from SndBlst driver)
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; 04/24/91 MikeRo. Added stack usage stuff.
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; 07/07/91 CurtisP. New stack switcher code that allows user to
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; configure size and number of stacks. Default is 3
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; frames of 1.5kb each. This is the minimum that MCISEQ
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; needs in standard mode (running concurrent with wave).
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; [mmsystem]!stackframes= and !stacksize=. stackframes
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; mul stacksize can not be > 64k.
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; 07/24/91 ToddLa. even newer stack switcher code! export StackEnter
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; and StackLeave
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; 11/02/92 StephenE. Hacked the code to make it work on NT/WOW.
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;
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;***************************************************************************;
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ifdef MYDEBUG
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DEBUG_RETAIL equ 1
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endif
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?PLM=1 ; pascal call convention
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?WIN=0 ; NO! Windows prolog/epilog code
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.286p
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.xlist
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include wow.inc
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include wowmmcb.inc
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include wowmmed.inc
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include cmacros.inc
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; include windows.inc
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; include mmsystem.inc
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; include mmddk.inc
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; include wowmmcb.inc
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include vint.inc
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.list
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OFFSEL STRUC
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Off dw ?
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Sel dw ?
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OFFSEL ENDS
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LOHI STRUC
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Lo dw ?
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Hi dw ?
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LOHI ENDS
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DCB_NOSWITCH equ 0008h ; don't switch stacks for callback
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DCB_TYPEMASK equ 0007h ; callback type mask
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DCB_NULL equ 0000h ; unknown callback type
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; flags for wFlags parameter of DriverCallback()
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DCB_WINDOW equ 0001h ; dwCallback is a HWND
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DCB_TASK equ 0002h ; dwCallback is a HTASK
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DCB_FUNCTION equ 0003h ; dwCallback is a FARPROC
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externFP PostMessage ; in USER
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externFP PostAppMessage ; in USER
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externFP CALLPROC32W ; in Kernel
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externFP ThunkInit ; in init.c
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externFP WOW16Call ; in Kernel
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;******************************************************************************
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;
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; SEGMENTS
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;
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;******************************************************************************
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createSeg FIX, CodeFix, word, public, CODE
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createSeg INTDS, DataFix, byte, public, DATA
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;***************************************************************************;
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;
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; equates and structure definitions
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;
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;***************************************************************************;
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STACK_MAGIC equ 0BBADh
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;***************************************************************************;
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;
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; Local data segment
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;
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;***************************************************************************;
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sBegin DataFix
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;
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; This is the stack we will switch to whenever we are calling
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; a user call back
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;
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public gwStackSize
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public gwStackFrames
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public gwStackUse
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public gwStackSelector
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public hdrvDestroy
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public vpCallbackData
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public hGlobal
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public DoInterrupt
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public tid32Message
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public mmwow32Lib
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public CheckThunkInit
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gwStackSize dw 0
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gwStackFrames dw 0
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gwStackUse dw 0
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gwStackSelector dw 0
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hdrvDestroy dw -1 ; this handle is being closed
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vpCallbackData dd 0
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hGlobal dd 0
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tid32Message dd 0 ; timer driver entry point
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mmwow32Lib dd 0
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sEnd DataFix
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;-------------------------------------------------------------------------;
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;
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; debug support
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;
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;-------------------------------------------------------------------------;
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externFP OutputDebugString
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;--------------------------Private-Macro----------------------------------;
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; DOUT String - send a debug message to the debugger
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;
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; Entry:
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; String String to send to the COM port, does not need a CR,LF
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;
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; Registers Destroyed:
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; none
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;
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; NOTE no code is generated unless the MYDEBUG symbol is defined
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;
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; History:
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; Sun 31-Jul-1989 -by- ToddLa
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; Wrote it.
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;-------------------------------------------------------------------------;
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DOUT macro text
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local string_buffer_stack
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ifdef MYDEBUG
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push cs
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push offset string_buffer_stack
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call OutputDebugString
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jmp @F
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string_buffer_stack label byte
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db "mmsystem: "
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db "&text&",13,10,0
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@@:
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endif
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endm
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;***************************************************************************;
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;
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; code segment
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;
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;***************************************************************************;
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sBegin CodeFix
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assumes cs, CodeFix
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assumes ds, nothing
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assumes es, nothing
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externA __WinFlags
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public CodeFixWinFlags
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public CodeFixDS
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CodeFixWinFlags dw __WinFlags
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CodeFixDS dw DataFixBASE
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;***************************************************************************;
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;
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; @doc DDK MMSYSTEM
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;
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; @asm StackEnter |
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;
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; This function switches to the next internal mmsystem interupt stack
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; available.
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;
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; if one is not available we stay on the current stack.
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;
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; the size and number of mmsystem stacks is controlable from SYSTEM.INI
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; (these are the defaults)
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;
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; [mmsystem]
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; StackSize = 1536
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; StackFrames = 3
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;
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; for every call to StackEnter a call to StackLeave *must* be made (even
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; if StackEnter fails!)
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;
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; this function is intended to be used as the first thing done by a ISR
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;
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; MyISR proc far
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;
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; call StackEnter ; switch to a safe stack
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;
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; pusha ; save registers we use
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;
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; <handle IRQ>
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;
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; popa ; restore registers
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;
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; call StackLeave ; return to interupt stack
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; iret ; done with ISR
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;
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; MyISR endp
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;
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; The old SS:SP is pushed onto the new stack, and the function returns.
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;
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; @rdesc NC ** succesfuly switced to a new stack
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; C ** you are hosed jack, no stacks left
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; (you remain on current stack)
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;
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; @uses flags
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;
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; @saves all
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;
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; @xref StackLeave, DriverCallback
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;
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;***************************************************************************;
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assumes ds, nothing
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assumes es, nothing
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cProc StackEnter, <FAR, PUBLIC>, <>
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cBegin nogen
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;
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; On WOW we only emulate Standard mode therefore I won't bother
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; with the test described below.
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;
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; if we are in 386 mode or better (ie *not* standard mode) then, just
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; get out.
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;
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; test cs:[CodeFixWinFlags],WF_WIN286
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; jz stack_enter_retf
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push ds
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mov ds,[CodeFixDS]
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assumes ds,DataFix
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cmp [gwStackUse], 0 ; are we out of stacks?
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jne stack_enter_have_stack_will_travel ; ..no go grab it
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;**********************************************************************-;
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;
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; We are out of internal stacks. To give us the greates chance
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; of coming out of this condition alive, we stay on the current
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; stack. This could fail miserably if we are on a very small
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; stack**but it is better than crashing outright.
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;
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;**********************************************************************-;
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ifdef DEBUG_RETAIL
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cmp [gwStackSelector], 0
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je stack_enter_stay_here
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DOUT <StackEnter: All stacks in use, increase StackFrames>
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int 3
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endif
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ifdef MYDEBUG
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call dump_stack_users
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endif
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stack_enter_stay_here:
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pop ds
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assumes ds,nothing
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push bp
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mov bp,sp
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push ax
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xor ax,ax
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xchg [bp+4],ax
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xchg [bp+2],ax
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xchg [bp],ax
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xchg [bp-2],ax
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pop bp
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stack_enter_retf:
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stc
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retf
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;**********************************************************************-;
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;
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; we have a stack to use, allocate stack FIRST, then muck with it
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; leave no window for interrupts to blast us.
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;
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; It does this by using the contents of the gwStackUse variable as
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; the new SP. This initially contains the address of the start (ie top)
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; of the internal stack area, and is subtracted from each time a StackEnter
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; occurs. It is of course added to again when StackLeave is called
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; freeing up that area of stack for the next use.
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;
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; Note that the stack usage counter is modified before anything is
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; is pushed onto the new stack. If an interrupt occurs after the stack
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; switch, but before the usage is set, it will be fine.
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;
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;**********************************************************************-;
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assumes ds,DataFix
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stack_enter_have_stack_will_travel:
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push ax
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push bx
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mov bx,sp
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mov ax, [gwStackSize]
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sub [gwStackUse], ax ; reserve stack before using
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add ax, [gwStackUse] ; get current value and hang onto it
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;**********************************************************************-;
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;
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; debug code, in the debug version we do crazy things like filling
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; the stack with magic numbers.
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;
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;**********************************************************************-;
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ifdef MYDEBUG
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; ** This code will fill the stack with the magic cookie**this
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; ** is used to see how much stack space is being used at any
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; ** time.
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push es
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push di
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push ax
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push cx
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mov di, ax ; es:di -> top of stack
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mov es, [gwStackSelector]
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mov cx, [gwStackSize] ; get size to fill
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sub di, cx ; es:di -> bottom of stack
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shr cx, 1 ; in words
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mov ax, STACK_MAGIC ; what to fill with
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cld ; bottom up
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rep stosw
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pop cx ; restore munged regs
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pop ax
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pop di
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pop es
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endif
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ifdef DEBUG_RETAIL
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; ** This code puts a single magic cookie at the end of the stack.
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; ** This is used by the stack leave routine to check for overflow.
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; ** If the above code (the fill) is running, then this code is
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; ** redundant.
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push es
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push bx
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mov es,[gwStackSelector]
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mov bx,[gwStackUse] ; new stack
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mov es:[bx], STACK_MAGIC
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pop bx
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pop es
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endif
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;**********************************************************************-;
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;
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; time to switch to the *new* stack, [gwStackSelector]:AX contains
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; the new SS:SP, but first save the *old* SS:SP and restore
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; the registers we nuked to get here
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;
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;**********************************************************************-;
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push [gwStackSelector] ; push *new* ss
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push ss ; save current ss in ds
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pop ds
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assumes ds, nothing
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pop ss ; switch to new stack
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mov sp, ax ; ints off until after this on >= 286
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;**********************************************************************-;
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;
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; now that we are on the new stack, copy some important info from
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; the old stack to this one. note DS:[BX] points to the old stack
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;
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; [BX+0] ==> saved BX
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; [BX+2] ==> saved AX
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; [BX+4] ==> saved DS
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; [BX+6] ==> return IP
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; [BX+8] ==> return CS
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;
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; in the MYDEBUG version we save the callers CS:IP on the stack so we
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; can (in dump_stack_users) walk all the stacks
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;
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;**********************************************************************-;
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ifdef MYDEBUG
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push [bx+8] ; push a CS:IP for dumping stack users
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push [bx+6]
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endif
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add bx,10 ; 10 = ax+bx+dx+retf
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push ds ; save old SS:SP (SP = BX+N)
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push bx
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sub bx,10
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push [bx+8] ; push return addr
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push [bx+6]
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push [bx+4] ; push saved DS
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push [bx] ; push saved BX
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mov ax,[bx+2] ; restore ax
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pop bx ; restore bx
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pop ds ; restore ds
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clc ; show success
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stack_leave_retf:
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retf ; return to caller
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cEnd nogen
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;***************************************************************************;
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;
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; @doc DDK MMSYSTEM
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;
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; @asm StackLeave |
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;
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; This function returns the stack to the original stack saved by StackEnter
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;
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; @uses flags
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;
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; @saves all
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;
|
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; @xref StackEnter, DriverCallback
|
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;
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;***************************************************************************;
|
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assumes ds, nothing
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assumes es, nothing
|
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|
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cProc StackLeave, <FAR, PUBLIC>, <>
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cBegin nogen
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;
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; if we are in 386 mode or better (ie *not* standard mode) then, just
|
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; get out.
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;
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; test cs:[CodeFixWinFlags],WF_WIN286
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; jz stack_leave_retf
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push bx
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mov bx,sp
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;**********************************************************************-;
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;
|
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; here is the state of things:
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;
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; [BX+0] ==> saved BX
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; [BX+2] ==> return IP
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; [BX+4] ==> return CS
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; [BX+6] ==> saved SP
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; [BX+8] ==> saved SS
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;
|
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; the first thing we must check for is EnterStack running out of
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; stacks. in this case StackEnter pushed a single zero where the
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; saved SS should be
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;
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;**********************************************************************-;
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cmp word ptr ss:[bx+6],0 ; check saved SP
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jnz stack_leave_normal
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;**********************************************************************-;
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;
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; StackEnter ran out of stacks, stay on the current stack, but remove
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; the bogus SS
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;
|
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;**********************************************************************-;
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stack_leave_abby_normal:
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pop bx ; return to caller taking the
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retf 2 ; bogus zero SP with us
|
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|
|
;**********************************************************************-;
|
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;
|
|
; we need to return to the stack saved by StackEnter
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;
|
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;**********************************************************************-;
|
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stack_leave_normal:
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push ds ; [BX-2] ==> saved DS
|
|
|
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push ss ; DS = old stack
|
|
pop ds
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assumes ds,nothing
|
|
|
|
ifdef MYDEBUG
|
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push ax
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mov ax,[bx+8]
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lar ax,ax
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jz @f
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DOUT <StackLeave: invalid stack>
|
|
int 3
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|
@@: pop ax
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|
endif
|
|
|
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mov ss,[bx+8] ; switch to new stack
|
|
mov sp,[bx+6] ; ints off until after this on >= 286
|
|
|
|
push [bx+4] ; push return addr
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|
push [bx+2]
|
|
|
|
push [bx] ; push old BX
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|
push [bx-2] ; push old DS
|
|
|
|
;**********************************************************************-;
|
|
;
|
|
; we are back on the original stack, now it is time to deallocate
|
|
; the stack.
|
|
;
|
|
; The stack usage must only be released after all
|
|
; values have been removed from the stack so that an interrupt can be
|
|
; serviced without writing over any values.
|
|
;
|
|
;**********************************************************************-;
|
|
|
|
mov ds,[CodeFixDS] ; get at our globals
|
|
assumes ds,DataFix
|
|
|
|
ifdef DEBUG_RETAIL
|
|
push es
|
|
push bx
|
|
mov bx,[gwStackUse] ; before we release it
|
|
mov es,[gwStackSelector]
|
|
cmp es:[bx], STACK_MAGIC
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|
mov es:[bx], STACK_MAGIC ; and try to recover...
|
|
pop bx
|
|
pop es
|
|
je @f ; true if magic cookie existed
|
|
|
|
DOUT <StackLeave: STACK OVERFLOW>
|
|
int 3
|
|
ifdef MYDEBUG
|
|
call dump_stack_users
|
|
endif
|
|
@@:
|
|
endif
|
|
mov bx, [gwStackSize] ; get the size of the stacks
|
|
add [gwStackUse], bx ; release stack frame after use
|
|
|
|
pop ds
|
|
assumes ds,nothing
|
|
pop bx
|
|
retf
|
|
|
|
cEnd nogen
|
|
|
|
;****************************************************************************
|
|
; FUNCTION: DoInterrupt()
|
|
;
|
|
; PURPOSE:
|
|
; This routine is called by the ISR in the InstallInerruptHandler
|
|
; routine.
|
|
;
|
|
; void DoInterrupt( void )
|
|
; {
|
|
; VPCALLBACK_ARGS pArgs;
|
|
; WORD wSendCount = vpCallbackData->wSendCount;
|
|
; WORD wTempRecvCount;
|
|
;
|
|
; /*
|
|
; ** At entry to this function the receive count should be one less than
|
|
; ** than the send count. However, it is possible that we have lost some
|
|
; ** interrupts in which case we should try to "catch up" here.
|
|
; **
|
|
; ** The 32 bit side does not increament wSendCount until the
|
|
; ** callback data buffer has been updated. This means that although it
|
|
; ** is possible that it could have been changed before this interrupt
|
|
; ** was generated it will never point to an invalid buffer location.
|
|
; ** We simply process two interrupt request from the first interrupt,
|
|
; ** when the second interrupt goes off we return straight away.
|
|
; */
|
|
; vpCallbackData->wIntsCount++;
|
|
;
|
|
; while ( vpCallbackData->wRecvCount != wSendCount ) {
|
|
;
|
|
; /*
|
|
; ** Increment the recv count. Use of the % operator to makes sure
|
|
; ** that we wrap around to the begining of the array correctly.
|
|
; */
|
|
; wTempRecvCount = (vpCallbackData->wRecvCount + 1)
|
|
; % CALLBACK_ARGS_SIZE;
|
|
;
|
|
; pArgs = &vpCallbackData->args[ wTempRecvCount ];
|
|
; DriverCallback( pArgs->dwFunctionAddr,
|
|
; LOWORD( pArgs->dwFlags ),
|
|
; pArgs->wHandle,
|
|
; pArgs->wMessage,
|
|
; pArgs->dwInstance,
|
|
; pArgs->dwParam1,
|
|
; pArgs->dwParam2 );
|
|
;
|
|
; vpCallbackData->wRecvCount = wTempRecvCount;
|
|
; }
|
|
;
|
|
; }
|
|
;
|
|
;****************************************************************************
|
|
cProc DoInterrupt, <FAR,PUBLIC>, <si,di>
|
|
|
|
localW wSendCount ;number of interrupts sent
|
|
|
|
cBegin DoInt
|
|
|
|
DOUT <Multi-Media Interupt called>
|
|
|
|
;
|
|
; Now we take the parameters from the global callback data array
|
|
; and increment the dwRecvCount field. Then we make the
|
|
; callback into the apps routine. Note that the es:bx registers are used
|
|
; instead of the local variable pArgs.
|
|
;
|
|
|
|
mov es,[CodeFixDS]
|
|
assumes es,DataFix
|
|
|
|
;
|
|
; wSendCount = vpCallbackData->wSendCount
|
|
; vpCallbackData->wIntsCount++;
|
|
;
|
|
les bx,DWORD PTR es:vpCallbackData
|
|
mov ax,WORD PTR es:[bx+2]
|
|
mov wSendCount,ax
|
|
inc WORD PTR es:[bx+388] ; increment the count of interrupts rcv
|
|
|
|
jmp DoIntMakeTheTest
|
|
|
|
;
|
|
; Make es:bx point to the correct slot in the callback data table.
|
|
;
|
|
|
|
DoIntMakeTheCall:
|
|
|
|
;
|
|
; Increment the recv count. Use of the % operator above makes sure
|
|
; that we wrap around to the begining of the array correctly.
|
|
;
|
|
; wTempRecvCount = (vpCallbackData->wRecvCount + 1) % CALLBACK_ARGS_SIZE;
|
|
;
|
|
|
|
mov al,BYTE PTR es:[bx]
|
|
inc al
|
|
and ax,15
|
|
mov cx,ax
|
|
|
|
;
|
|
; pArgs = &vpCallbackData->args[ vpCallbackData->wRecvCount ];
|
|
; vpCallbackData->wRecvCount = wTempRecvCount;
|
|
; Note that pArgs is really es:bx.
|
|
;
|
|
|
|
mov es,[CodeFixDS]
|
|
les bx,DWORD PTR es:vpCallbackData
|
|
imul ax,WORD PTR es:[bx],24 ;ax = wRecvCount * sizeof(CALLBACKDATA)
|
|
|
|
;
|
|
; Note: our caller saves ALL registers. We do not need to preserve si
|
|
;
|
|
mov si,bx
|
|
add bx,ax ;bx = bx + ax
|
|
add bx,4 ;bx += sizeof(WORD) * 2
|
|
|
|
;
|
|
; Set up the stack frame for DriverCallback
|
|
;
|
|
push WORD PTR es:[bx+6]
|
|
push WORD PTR es:[bx+4]
|
|
push WORD PTR es:[bx]
|
|
push WORD PTR es:[bx+8]
|
|
push WORD PTR es:[bx+10]
|
|
push WORD PTR es:[bx+14]
|
|
push WORD PTR es:[bx+12]
|
|
push WORD PTR es:[bx+18]
|
|
push WORD PTR es:[bx+16]
|
|
push WORD PTR es:[bx+22]
|
|
push WORD PTR es:[bx+20]
|
|
|
|
;
|
|
; We have to set up the stack frame before incrementing wRecvCount to
|
|
; prevent the 32 bit code from eating our slot in the buffer.
|
|
;
|
|
mov WORD PTR es:[si],cx ;wRecvCount = wTempRecvCount
|
|
|
|
call FAR PTR DriverCallback
|
|
|
|
|
|
;
|
|
; Reload es:bx and ax ready for the loop test
|
|
;
|
|
mov ax,wSendCount
|
|
mov es,[CodeFixDS]
|
|
les bx,DWORD PTR es:vpCallbackData
|
|
|
|
DoIntMakeTheTest:
|
|
cmp WORD PTR es:[bx],ax
|
|
jne DoIntMakeTheCall
|
|
|
|
cEnd DoInt
|
|
|
|
|
|
ifdef XDEBUG
|
|
public stack_enter_stay_here
|
|
public stack_enter_have_stack_will_travel
|
|
public stack_leave_abby_normal
|
|
public stack_leave_normal
|
|
endif
|
|
|
|
;***************************************************************************;
|
|
;
|
|
; @doc DDK MMSYSTEM
|
|
;
|
|
; @api BOOL | DriverCallback | This function notifies a client
|
|
; application by sending a message to a window or callback
|
|
; function or by unblocking a task.
|
|
;
|
|
; @parm DWORD | dwCallBack | Specifies either the address of
|
|
; a callback function, a window handle, or a task handle, depending on
|
|
; the flags specified in the <p wFlags> parameter.
|
|
;
|
|
; @parm WORD | wFlags | Specifies how the client
|
|
; application is notified, according to one of the following flags:
|
|
;
|
|
; @flag DCB_FUNCTION | The application is notified by
|
|
; sending a message to a callback function. The <p dwCallback>
|
|
; parameter specifies a procedure-instance address.
|
|
; @flag DCB_WINDOW | The application is notified by
|
|
; sending a message to a window. The low-order word of the
|
|
; <p dwCallback> parameter specifies a window handle.
|
|
;
|
|
; @flag DCB_NOSWITCH | DriverCallback should *not* switch to a new stack
|
|
;
|
|
; @parm WORD | hDevice | Specifies a handle to the device
|
|
; associated with the notification. This is the handle assigned by
|
|
; MMSYSTEM when the device was opened.
|
|
;
|
|
; @parm WORD | wMsg | Specifies a message to send to the
|
|
; application.
|
|
;
|
|
; @parm DWORD | dwUser | Specifies the DWORD of user instance
|
|
; data supplied by the application when the device was opened.
|
|
;
|
|
; @parm DWORD | dwParam1 | Specifies a message-dependent parameter.
|
|
; @parm DWORD | dwParam2 | Specifies a message-dependent parameter.
|
|
;
|
|
; @rdesc Returns TRUE if the callback was performed, else FALSE if an invalid
|
|
; parameter was passed, or the task's message queue was full.
|
|
;
|
|
; @comm This function can be called at interrupt time.
|
|
;
|
|
; The flags DCB_FUNCTION and DCB_WINDOW are equivalent to the
|
|
; high-order word of the corresponding flags CALLBACK_FUNCTION
|
|
; and CALLBACK_WINDOW specified when the device was opened.
|
|
;
|
|
; If notification is done with a callback function, <p hDevice>,
|
|
; <p wMsg>, <p dwUser>, <p dwParam1>, and <p dwParam2> are passed to
|
|
; the callback. If notification is done with a window, only <p wMsg>,
|
|
; <p hDevice>, and <p dwParam1> are passed to the window.
|
|
;***************************************************************************;
|
|
|
|
assumes ds, nothing
|
|
assumes es, nothing
|
|
|
|
cProc DriverCallback, <FAR, PASCAL, PUBLIC>, <>
|
|
|
|
parmD dwCallBack ; callback procedure to call
|
|
parmW fCallBack ; callback flags
|
|
parmW hdrv ; handle to the driver
|
|
parmW msg ; driver message
|
|
parmD dwUser ; user instance data
|
|
parmD dw1 ; message specific
|
|
parmD dw2 ; message specific
|
|
|
|
cBegin
|
|
cld ; lets not make any assumptions about this!!!!
|
|
|
|
;**************************************************************************-;
|
|
; check for quick exit cases and get out fast
|
|
;**************************************************************************-;
|
|
mov ax,dwCallback.lo ; check for dwCallback == NULL
|
|
or ax,dwCallback.hi
|
|
jz dcb_error_exit_now ; if NULL get out fast
|
|
|
|
mov ax,fCallback ; get flags and mask out the type bits
|
|
test ax,DCB_TYPEMASK
|
|
jz dcb_error_exit_now ; if NULL get out fast
|
|
|
|
ifdef NEVER
|
|
;**************************************************************************-;
|
|
; if this handle is being NUKED don't allow callbacks into the app
|
|
;
|
|
; I won't bother with this test on WOW either. -- StephenE 2nd Nov 1992
|
|
;**************************************************************************-;
|
|
mov es,[CodeFixDS]
|
|
assumes es,DataFix
|
|
mov bx,hdrv
|
|
cmp bx,es:[hdrvDestroy] ; same as the handle being nuked?
|
|
je dcb_error_exit_now ; if yes, get out'a here
|
|
assumes es,nothing
|
|
endif
|
|
|
|
;**************************************************************************-;
|
|
; set up ES == SS, so we can access stack params after switching
|
|
; stacks, NOTE!! ES:[bp+##] *must* be used to access parameters!
|
|
;**************************************************************************-;
|
|
mov cx,ss ; set ES == callers stack
|
|
mov es,cx ; use ES to get at local vars
|
|
assumes es,nothing
|
|
|
|
;**************************************************************************-;
|
|
; We won't switch stacks on WOW since DPMI does this for us. Win 3.1
|
|
; would only switch stacks in Standard mode which we no longer support.
|
|
;**************************************************************************-;
|
|
|
|
; test ax,DCB_NOSWITCH ; should we switch stacks?
|
|
; jnz dcb_on_stack
|
|
|
|
; call StackEnter ; switch to new stack
|
|
|
|
;**************************************************************************-;
|
|
; determine the type of the callback, dwCallback is either a FARPROC, HWND
|
|
; or HTASK depending on the value of fCallback
|
|
;**************************************************************************-;
|
|
dcb_on_stack:
|
|
;
|
|
pushf ; Save the interrupt flag state
|
|
FSTI ; ** Enable interrupts here **
|
|
;
|
|
|
|
; push ax ; save flags for StackLeave test
|
|
|
|
and ax,DCB_TYPEMASK ; mask out the type bits
|
|
|
|
cmp ax,DCB_WINDOW ; is it a window handle?
|
|
je dcb_post_message
|
|
|
|
cmp ax,DCB_TASK ; is it a task handle?
|
|
je dcb_post_event
|
|
|
|
cmp ax,DCB_FUNCTION ; is it a procedure?
|
|
je dcb_call_callback
|
|
|
|
DOUT <DriverCallback: Invalid flags #ax>
|
|
xor ax,ax
|
|
jmp dcb_exit
|
|
|
|
dcb_error_exit_now:
|
|
xor ax,ax
|
|
jmp dcb_exit_now
|
|
|
|
ifdef NEVER
|
|
;**************************************************************************-;
|
|
; the Callback flags are NULL determine the callback type by the HIWORD
|
|
; of dwCallback, if it is NULL assume it is a WINDOW otherwise it is a
|
|
; FARPROC
|
|
;**************************************************************************-;
|
|
dcb_null_flags:
|
|
mov ax,es:dwCallback.hi ; get selector of callback
|
|
or ax,ax
|
|
jnz dcb_call_callback ; if NULL then assume it is a window
|
|
errn$ dcb_post_message ; otherwise assume a FARPROC
|
|
endif
|
|
|
|
;**************************************************************************-;
|
|
; dwCallback is a window handle, call PostMessage() to insert a message in
|
|
; the applications message Que
|
|
;**************************************************************************-;
|
|
dcb_post_event:
|
|
cmc
|
|
dcb_post_message:
|
|
push es:dwCallback.lo ; hwnd
|
|
push es:msg ; message
|
|
push es:hdrv ; wParam = hdrv
|
|
push es:dw1.hi ; lParam = dw1
|
|
push es:dw1.lo
|
|
|
|
jc dcb_post_app_message
|
|
call PostMessage
|
|
jmp dcb_exit
|
|
|
|
;**************************************************************************-;
|
|
; dwCallback is a task handle, call PostAppMessage() to 'wake' the task up
|
|
;**************************************************************************-;
|
|
dcb_post_app_message:
|
|
call PostAppMessage
|
|
jmp dcb_exit
|
|
|
|
;**************************************************************************-;
|
|
; dwCallback is a callback procedure, we will call it.
|
|
;**************************************************************************-;
|
|
dcb_call_callback:
|
|
;
|
|
; is the callback a valid function?
|
|
;
|
|
lar ax,es:dwCallback.hi
|
|
jnz dcb_invalid_callback
|
|
test ax,0800H ; test for code/data selector
|
|
jnz dcb_valid_callback
|
|
|
|
dcb_invalid_callback:
|
|
ifdef MYDEBUG_RETAIL
|
|
mov ax,es:dwCallback.lo
|
|
mov dx,es:dwCallback.hi
|
|
DOUT <DriverCallback: Invalid callback function #dx:#ax>
|
|
int 3
|
|
endif
|
|
xor ax,ax
|
|
jmp dcb_exit
|
|
|
|
dcb_valid_callback:
|
|
push es:hdrv
|
|
push es:msg
|
|
push es:dwUser.hi
|
|
push es:dwUser.lo
|
|
push es:dw1.hi
|
|
push es:dw1.lo
|
|
push es:dw2.hi
|
|
push es:dw2.lo
|
|
call es:dwCallback
|
|
mov ax,1
|
|
errn$ dcb_exit
|
|
|
|
dcb_exit:
|
|
;
|
|
popf ; ** restore the interrupt flag **
|
|
;
|
|
|
|
; pop bx ; restore flags
|
|
; test bx,DCB_NOSWITCH ; should we switch back?
|
|
; jnz dcb_exit_now
|
|
|
|
; call StackLeave ; return to previous stack
|
|
errn$ dcb_exit_now
|
|
|
|
dcb_exit_now:
|
|
cEnd
|
|
|
|
ifdef MYDEBUG
|
|
;**************************************************************************-;
|
|
;
|
|
; each mmsystem stack has a SS:SP and in MYDEBUG a CS:IP of the caller of
|
|
; StackEnter, the top of each stack looks like this.
|
|
;
|
|
; +-------------------------------------+
|
|
; | CS:IP of caller of StackEnter() (in MYDEBUG)
|
|
; +-------------------------------------+
|
|
; | SS:SP to restore
|
|
; +-------------------------------------+
|
|
;
|
|
;**************************************************************************-;
|
|
assumes ds,DataFix
|
|
assumes es,nothing
|
|
|
|
public dump_stack_users
|
|
dump_stack_users proc near
|
|
|
|
cmp [gwStackSelector],0
|
|
jne @f
|
|
ret
|
|
|
|
@@: pusha
|
|
push es
|
|
|
|
mov cx,[gwStackFrames]
|
|
mov di,[gwStackSize]
|
|
mov si,[gwStackUse]
|
|
mov es,gwStackSelector
|
|
|
|
DOUT <StackUsers: Frames[#cx] Size[#di] Use[#si]>
|
|
|
|
dump_stack_loop:
|
|
lar ax,es:[di-4].sel
|
|
jnz dump_stack_next
|
|
|
|
mov ax,es:[di-4].off ; get CS:IP of StackEnter caller
|
|
mov dx,es:[di-4].sel
|
|
|
|
mov si,es:[di-8].off ; get SS:SP of StackEnter caller
|
|
mov bx,es:[di-8].sel
|
|
|
|
DOUT <StackUser #cx is CS:IP = #dx:#ax SS:SP = #bx:#si>
|
|
|
|
dump_stack_next:
|
|
add di,[gwStackSize]
|
|
loop dump_stack_loop
|
|
|
|
pop es
|
|
popa
|
|
ret
|
|
|
|
dump_stack_users endp
|
|
|
|
endif
|
|
|
|
;-----------------------------------------------------------------------;
|
|
;
|
|
; @doc INTERNAL
|
|
;
|
|
; @api DWORD | CheckThunkInit | send a message to the timer driver
|
|
;
|
|
; @rdesc Returns 0 if successful, otherwise an error code,
|
|
; (typically MMSYSERR_NODRIVER).
|
|
;
|
|
;-----------------------------------------------------------------------;
|
|
assumes ds,nothing
|
|
assumes es,nothing
|
|
|
|
cProc CheckThunkInit, <FAR, PUBLIC, PASCAL>, <>
|
|
cBegin
|
|
mov es,[CodeFixDS]
|
|
assumes es,DataFix
|
|
|
|
sub ax,ax ; assume sucess
|
|
mov bx,WORD PTR es:[mmwow32Lib] ; is mmwow32Lib loaded ?
|
|
mov cx,WORD PTR es:[mmwow32Lib+2] ; try to load it
|
|
or cx,bx ; ThunkInit returns ax=1
|
|
jnz @F ; if it loaded OK, otherwise
|
|
call ThunkInit ; ax=MMSYSERR_NODRIVER
|
|
@@:
|
|
cEnd
|
|
|
|
|
|
;-----------------------------------------------------------------------;
|
|
;
|
|
; @doc INTERNAL
|
|
;
|
|
; @api DWORD | timeMessage | send a message to the timer driver
|
|
;
|
|
; @parm WORD | msg | message to send
|
|
;
|
|
; @parm DWORD | dw1 | first DWORD
|
|
;
|
|
; @parm DWORD | dw2 | first DWORD
|
|
;
|
|
; @rdesc Returns zero if successful, error code otherwise
|
|
;
|
|
;-----------------------------------------------------------------------;
|
|
assumes ds,nothing
|
|
assumes es,nothing
|
|
|
|
cProc timeMessage, <FAR, PUBLIC, PASCAL>, <>
|
|
ParmW msg
|
|
ParmD dw1
|
|
ParmD dw2
|
|
cBegin
|
|
mov es,[CodeFixDS]
|
|
assumes es,DataFix
|
|
|
|
sub ax,ax ; assume sucess
|
|
mov bx,WORD PTR es:[mmwow32Lib] ; is mmwow32Lib loaded ?
|
|
mov cx,WORD PTR es:[mmwow32Lib+2] ; try to load it
|
|
or cx,bx ; ThunkInit returns ax=1
|
|
jnz timer_have_thunks ; if it loaded OK, otherwise
|
|
push es
|
|
call ThunkInit ; ax=MMSYSERR_NODRIVER
|
|
pop es
|
|
or ax,ax
|
|
jnz timeMessageExit
|
|
|
|
timer_have_thunks:
|
|
|
|
push ax ; uDevID
|
|
push ax ;
|
|
|
|
push ax ; Message passed
|
|
push msg ;
|
|
|
|
push ax ; dwInstance
|
|
push ax ;
|
|
|
|
push dw1.hi ; dwParam1
|
|
push dw1.lo ;
|
|
|
|
push dw2.hi ; dwParam2
|
|
push dw2.lo ;
|
|
|
|
push WORD PTR es:[tid32Message+2] ; Address of function to call
|
|
push WORD PTR es:[tid32Message] ;
|
|
|
|
push ax ; No directory change
|
|
push ax
|
|
|
|
call FAR PTR MMCALLPROC32
|
|
timeMessageExit:
|
|
cEnd
|
|
|
|
MMediaThunk MMCALLPROC32
|
|
|
|
sEnd CodeFix
|
|
|
|
end
|