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491 lines
11 KiB
491 lines
11 KiB
;
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; UT.ASM
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; Tracing goop, debug only
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; Mouse/Keyboard event interrupt junk, all flavors
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;
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.386
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option oldstructs
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option readonly
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option segment:use16
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.model large,pascal
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ifdef DEBUG
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externDef _wsprintf:far16
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externDef OutputDebugString:far16
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externDef DebugBreak:far16
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endif ; DEBUG
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externDef DrvMouseEvent:far16
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externDef DrvKeyboardEvent:far16
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externDef mouse_event:far16
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externDef keybd_event:far16
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externDef MaphinstLS:far16
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.data
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ifdef DEBUG
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externDef g_szDbgBuf:word
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externDef g_szNewline:word
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externDef g_dbgRet:word
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externDef g_trcConfig:word
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endif ; DEBUG
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if 0
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; DOS key redirection
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externDef g_imDOSShellVDDEntry:dword
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externDef g_imDOSVKDEntry:dword
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endif
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.code _TEXT
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ifdef DEBUG
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;
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; We come in here with _cdecl var args. We use DebugOutput() to spit out
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; the message. Then we do the debugbreak ourself.
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;
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_DbgZPrintWarning proc near
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; Save IP of caller. What's left on stack is var args
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pop [g_dbgRet] ; Save IP of output caller
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; Push g_szDbgBuf to put result into.
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push ds
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push offset g_szDbgBuf
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; We now have _cdecl args to wsprintf
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call _wsprintf
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;
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; The same args are left on the stack, since wsprintf is _cdecl. The
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; first is g_szDbgBuf. So we can convienently pass this to OutputDebugString().
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; That routine is NOT _cdecl, so when it returns, we have exactly the
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; same args that were passed in to us.
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;
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call OutputDebugString
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; Now output a new line
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push ds
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push offset g_szNewline
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call OutputDebugString
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; Now we just need to do a near RET to the caller
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push [g_dbgRet]
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ret
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_DbgZPrintWarning endp
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;
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; We come in here with _cdecl var args
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;
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_DbgZPrintTrace proc near
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; Is tracing on?
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test [g_trcConfig], 0001h
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jnz _DbgZPrintWarning
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ret
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_DbgZPrintTrace endp
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_DbgZPrintError proc near
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; Save IP of caller. What's left on stack is var args
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pop [g_dbgRet] ; Save IP of output caller
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; Push g_szDbgBuf to put result into.
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push ds
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push offset g_szDbgBuf
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; We now have _cdecl args to wsprintf
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call _wsprintf
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;
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; The same args are left on the stack, since wsprintf is _cdecl. The
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; first is g_szDbgBuf. So we can convienently pass this to OutputDebugString().
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; That routine is NOT _cdecl, so when it returns, we have exactly the
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; same args that were passed in to us.
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;
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call OutputDebugString
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; Now output a new line
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push ds
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push offset g_szNewline
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call OutputDebugString
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; Break into the debugger
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call DebugBreak
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; Now we just need to do a near RET to the caller
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push [g_dbgRet]
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ret
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_DbgZprintError endp
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endif
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;
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; ASMMouseEvent()
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; This passes the registers as parameters to a C function, DrvMouseEvent.
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; It is basically the inverse of CallMouseEvent().
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;
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; NOTE:
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; To be on the safe side, we preserve all registers just like keybd_event().
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; USER trashes some registers, but it would not come as a surprise to find
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; mouse drivers that expect incorrectly a register or two to not be
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; altered.
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;
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ASMMouseEvent proc far
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; Save registers that C code doesn't preserve
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push eax
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push ebx
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push ecx
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push edx
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; Save original flags for turning ints off/on
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pushf
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; Push AX for DrvMouseEvent() call
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push ax
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; Do we need to turn interrupts off? We don't if they are already
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pushf
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pop ax
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test ax, 0200h
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jz SkipCli
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cli
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SkipCli:
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; AX has already been pushed; push the rest of the parameters
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push bx
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push cx
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push dx
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push si
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push di
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cld
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call DrvMouseEvent
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; If interrupts were not disabled before, enable them now.
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pop cx ; saved flags
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pushf
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pop ax ; current flags
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; Find out what is different
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xor ax, cx
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test ax, 0200h
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jz InterruptsOk
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; The interrupt flag needs to be changed, do it
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test cx, 0200h
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jnz EnableInterrupts
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cli
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jmp InterruptsOk
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EnableInterrupts:
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sti
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InterruptsOk:
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; Does the direction flag need to be changed?
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test ax, 0400h
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jz DirectionOk
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; The direction flag needs to be changed, do it
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test cx, 0400h
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jnz SetDirectionFlag
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cld
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jmp DirectionOk
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SetDirectionFlag:
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std
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DirectionOk:
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; Restore registers
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pop edx
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pop ecx
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pop ebx
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pop eax
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retf
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ASMMouseEvent endp
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;
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; CallMouseEvent()
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; This puts the parameters into registers and calls the original mouse_event.
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;
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; There are two ways we can call this function:
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; (1) Injection code is piping mouse events through USER. It is
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; responsible for disabling/enabling interrupts before calling us.
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; (2) mouse_event patch is calling through to USER.
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;
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CallMouseEvent proc near
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;
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; This is the stack, BP relative:
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; WORD bpSave
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; WORD near_ret
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; WORD regDI
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; WORD regSI
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; WORD regDX
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; WORD regCX
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; WORD regBX
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; WORD regAX
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;
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; We must preserve SI and DI
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;
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push bp
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mov bp, sp
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push si
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push di
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mov di, word ptr ss:[bp+4]
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mov si, word ptr ss:[bp+6]
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mov dx, word ptr ss:[bp+8]
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mov cx, word ptr ss:[bp+10]
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mov bx, word ptr ss:[bp+12]
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mov ax, word ptr ss:[bp+14]
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call mouse_event
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pop di
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pop si
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mov sp, bp
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pop bp
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ret 6*2
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CallMouseEvent endp
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;
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; ASMKeyboardEvent()
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; This passes the registers as parameters to a C function, DrvKeyboardEvent.
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; It is basically the inverse of CallKeyboardEvent().
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;
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; NOTE:
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; keybd_event() MUST preserve all registers, unlike mouse_event().
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;
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ASMKeyboardEvent proc far
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; Save flags and registers that aren't preserved in C code
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push eax
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push ebx
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push ecx
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push edx
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pushf
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; Push AX for DrvKeyboardEvent() call
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push ax
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; Check if interrupts off, w/o trashing CX permanently
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pushf
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pop ax
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test ax, 0200h
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jz SkipCli
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cli
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SkipCli:
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; AX has already been pushed; push the rest of the parameters
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push bx
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push si
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push di
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cld
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call DrvKeyboardEvent
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;
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; Restore the interrupt and string move direction flags to what they
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; were before.
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;
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pop cx ; Original flags
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pushf
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pop ax ; Current flags
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; What has changed?
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xor ax, cx
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; Has the interrupt state been altered?
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test ax, 0200h
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jz InterruptsOk
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; Interrupts need to be turned on/off
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test cx, 0200h
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jnz EnableInterrupts
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cli
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jmp InterruptsOk
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EnableInterrupts:
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sti
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InterruptsOk:
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; Has the direction flag been altered?
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test ax, 0400h
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jz DirectionOk
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; Direction flag needs to be set/cleared
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test cx, 0400h
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jnz SetDirection
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cld
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jmp DirectionOk
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SetDirection:
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std
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DirectionOk:
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; Restore registers
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pop edx
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pop ecx
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pop ebx
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pop eax
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retf
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ASMKeyboardEvent endp
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;
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; CallKeyboardEvent()
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; This puts the parameters in registers and calls USER's keybd_event.
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;
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; There are two ways we can call this function:
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; (1) Injection code is piping keybd events through USER. It is
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; responsible for disabling/enabling interrupts before calling us.
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; (2) keybd_event patch is calling through to USER.
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;
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CallKeyboardEvent proc near
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;
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; This is the stack, BP relative:
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; WORD bpSave
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; WORD near_ret
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; WORD regDI
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; WORD regSI
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; WORD regBX
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; WORD regAX
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;
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; We must preserve SI and DI
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;
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push bp
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mov bp, sp
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push si
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push di
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mov di, word ptr ss:[bp+4]
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mov si, word ptr ss:[bp+6]
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mov bx, word ptr ss:[bp+8]
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mov ax, word ptr ss:[bp+10]
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call keybd_event
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pop di
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pop si
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mov sp, bp
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pop bp
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ret 4*2
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CallKeyboardEvent endp
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;
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; This is our wrapper around krnl386's MaphinstLS() routine, which expects
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; the 32-bit instance handle in EAX
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;
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MapInstance32 proc far
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; Pop far return, pop 32-bit instance into eax, and replace far return
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pop edx
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pop eax
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push edx
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; Call krnl386 -- when MaphinstLS returns, it will return to our caller
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jmp MaphinstLS
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MapInstance32 endp
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if 0
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;
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; DOS box key injection gunk. We use the shell vdd service.
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;
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IMGetDOSShellVDDEntry proc near
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; Save DI, int2f will trash it
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push di
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; int2f 0x1684, vdd 0x0017 (shell) gets the service entry point
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; It is returned in es:di
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mov ax, 1684h
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mov bx, 017h
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int 2F
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; Save the address (even if null)
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mov word ptr ds:[g_imDOSShellVDDEntry], di
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mov word ptr ds:[g_imDOSShellVDDEntry+2], es
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pop di
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ret
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IMGetDOSShellVDDEntry endp
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IMGetDOSVKDEntry proc near
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; Save DI, int2f will trash it
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push di
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; int2f 0x1684, vkd 0x000d (vkd) gets the service entry point
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; It is returned in es:di
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mov ax, 1684h
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mov bx, 00dh
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int 2Fh
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mov word ptr ds:[g_imDOSVKDEntry], di
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mov word ptr ds:[g_imDOSVKDEntry+1], es
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pop di
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ret
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IMGetDOSVKDEntry endp
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IMForceDOSKey proc near
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; ss:[sp] is near ret
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; ss:[sp+2] is scanCode
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; ss:[sp+4] is keyState
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push bp
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mov bp, sp
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; Preserve extended registers
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push ebx
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push ecx
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push edx
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; Setup for VKD call
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mov eax, 1 ; Service 1, stuff key
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xor ebx, ebx ; VM 0, current VM
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movzx ecx, word ptr ss:[bp+4]
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shl ecx, 8 ; Scan code in high byte
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or ecx, 1 ; Repeat count in low byte
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movzx edx, word ptr ss:[bp+6] ; Shift state
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call dword ptr ds:[g_imDOSVKDEntry]
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mov ax, 0
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; Failure?
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jc DoneForceKey
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; Success!
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inc ax
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DoneForceKey:
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pop edx
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pop ecx
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pop ebx
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mov sp, bp
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pop bp
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ret 2+2
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IMForceDOSKey endp
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endif ; if 0 for DOS key redirection
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end
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