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1088 lines
49 KiB
1088 lines
49 KiB
PAGE 60,150
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;***************************************************************************
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;* INT2.ASM
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;*
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;* Assembly code support routines used for the TOOLHELP.DLL interrupt
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;* trapping API
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;*
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;***************************************************************************
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INCLUDE TOOLPRIV.INC
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INCLUDE WINDOWS.INC
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include vint.inc
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.286p
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;** Symbols
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I_EXCEPTION EQU 0
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I_INTERRUPT EQU 1
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MAX_INTERRUPT EQU 7
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GIVE_WDEB386 EQU 8000h
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BAD_STACK_FLAG EQU 8000h
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MIN_STACK_ALLOWED EQU 128
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;** Local types
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INT_INFO STRUC
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ii_wNumber DW ? ;INT nn
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ii_wType DW ? ;I_EXCEPTION or I_INTERRUPT
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ii_dwChain DD ?
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ii_wHandler DW ? ;Note that this is CS relative
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INT_INFO ENDS
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;** Data
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sBegin DATA
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IntInfo LABEL BYTE
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public IntInfo
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UD_Info DW 6 ;Undefined opcode
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DW I_EXCEPTION ;This should be DPMI-hooked
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DD 0 ;Chain address (will be initialized)
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DW OFFSET _TEXT:UD_Handler
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Div0_Info DW 0 ;Divide by zero
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DW I_EXCEPTION ;Hook with DPMI
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DW OFFSET _TEXT:Div0_Handler
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DW 0
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DW OFFSET _TEXT:Div0_Handler
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Int1_Info DW 1 ;Single step + debug register
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DW I_INTERRUPT ;Hook with DOS
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DD 0 ;Chain address
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DW OFFSET _TEXT:Int1_Handler
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Int3_Info DW 3 ;Software debug int
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DW I_INTERRUPT ;Hook with DOS
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DD 0 ;Chain address
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DW OFFSET _TEXT:Int3_Handler
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GP_Info DW 13 ;GP Fault
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DW I_EXCEPTION ;This should be DPMI-hooked
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;** This entry is a special case entry for the Win30 std mode
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;* handler. This is a separate entry point into the
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;** interrupt handler routine
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DW OFFSET _TEXT:GP_StdModeHandler
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DW 0
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DW OFFSET _TEXT:GP_Handler
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SF_Info DW 12 ;Stack fault
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DW I_EXCEPTION ;This should be DPMI-hooked
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;** This entry is a special case entry for the Win30 std mode
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;* handler. This is a separate entry point into the
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;** interrupt handler routine
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DW OFFSET _TEXT:SF_StdModeHandler
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DW 0
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DW OFFSET _TEXT:SF_Handler
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PF_Info DW 14 ;Page fault
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DW I_EXCEPTION ;This should be DPMI-hooked
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;** This entry is a special case entry for the Win30 std mode
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;* handler. This is a separate entry point into the
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;** interrupt handler routine
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DW OFFSET _TEXT:PF_StdModeHandler
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DW 0
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DW OFFSET _TEXT:PF_Handler
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CASRq_Info DW 256 ;CtlAltSysRq (fake interrupt)
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DW I_INTERRUPT ;Hook with DOS
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DD 0 ;Chain address
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DW OFFSET _TEXT:CASRq_Handler
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;** The following data is used to see if GDI wants the
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;** Div0 we have trapped
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lpGDIFlag DD 0
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hGDI DW 0
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szGDI DB 'GDI', 0
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public lpGDIFlag, hGDI
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;** Points to a KERNEL routine to see if it wants the
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;** GP fault first
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lpfnPV DD 0 ;Call to see if PV GP fault
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public lpfnPV
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;** Globals used for DPMI emulation
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lpOldHandler DD 0 ;Previous DPMI exception handler
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lpChainCSIP DD 0 ;Next exception handler on chain
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wException DW 0
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public lpOldHandler, lpChainCSIP
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externW wCASRqFlag ;Set when an CASRq INT3 has been set
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externD dwCASRqCSIP ;Holds the CS:IP of the CASRq INT3
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sEnd
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;** Imports
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externNP TerminateApp
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externNP HelperHandleToSel
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externNP HelperVerifySeg
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externFP AllocCStoDSAlias
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externFP FreeSelector
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externFP GetModuleHandle
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externFP GetProcAddress
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externFP GlobalEntryHandle
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externFP _wsprintf
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externFP OutputDebugString
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externA __WinFlags
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;** Functions
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sBegin CODE
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assumes CS,CODE
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assumes DS,DATA
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;** Interrupt trapping API
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; InterruptInit
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; Hooks all necessary interrupts and exceptions to allow an API
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; for app-level interrupt hooks.
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cProc InterruptInit, <NEAR,PUBLIC>, <si,di>
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cBegin
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;** Loop through all possible handlers
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mov cx,MAX_INTERRUPT ;Number of ints to hook
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lea si,IntInfo ;Get the address of the array
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DII_HandlerLoop:
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push cx ;Save loop counter
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cmp [si].ii_wNumber,256 ;Fake exception?
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jae DII_Continue ;Yes, don't hook anything!
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cmp [si].ii_wType,I_EXCEPTION ;Exception?
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jnz DII_Interrupt ;Nope, hook as interrupt
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;** Do a special case for 3.0 Std Mode
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test wTHFlags,TH_WIN30STDMODE ;Are we in Win30 std mode?
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jz DII_NotStdMode ;No.
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mov ax,WORD PTR [si].ii_dwChain ;Get the secondary handler
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mov [si].ii_wHandler,ax ;Make sure we use it instead!
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DII_NotStdMode:
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;** Hook as an exception (DPMI)
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mov ax,0202h ;Get exception handler - DPMI
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mov bl,BYTE PTR [si].ii_wNumber ;Interrupt number
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int 31h ;Call DPMI
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mov WORD PTR [si].ii_dwChain,dx ;Save the old offset
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mov WORD PTR [si].ii_dwChain + 2,cx ;Save the old selector
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mov ax,0203h ;Set exception handler - DPMI
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mov bl,BYTE PTR [si].ii_wNumber ;Interrupt number
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mov dx,[si].ii_wHandler ;Address of exception handler
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mov cx,cs ;Selector value of handler
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int 31h ;Call DPMI
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jmp SHORT DII_Continue
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;** Hook as an interrupt (DOS)
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DII_Interrupt:
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mov ah,35h ;Get interrrupt handler - DOS
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mov al,BYTE PTR [si].ii_wNumber ;Interrupt number
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int 21h ;Call DOS
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mov WORD PTR [si].ii_dwChain,bx ;Save the old offset
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mov WORD PTR [si].ii_dwChain + 2,es ;Save the old selector
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mov ah,25h ;Set interrupt handler - DOS
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mov al,BYTE PTR [si].ii_wNumber ;Interrupt number
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mov dx,[si].ii_wHandler ;Address of exception handler
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push ds ;Save static DS for later
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push cs ;DS = CS
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pop ds
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int 21h ;Call DOS
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pop ds ;Get segment back
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;** Prepare for next in table
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DII_Continue:
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add si,SIZE INT_INFO ;Bump to next entry
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pop cx ;Get loop counter back
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loop DII_HandlerLoop ;Loop back
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;** Prepare the linked list
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mov npIntHead,0 ;Put a NULL in the list head
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;** Get information so we can check the GDI flag
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lea ax,szGDI ;Get the string
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cCall GetModuleHandle, <ds,ax> ;Get GDI's module handle
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cCall HelperHandleToSel, <ax> ;Convert the owner to a selector
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mov hGDI,ax ;Save it for later
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cCall GetProcAddress, <ax,0,355> ;The flag is ordinal 355
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mov WORD PTR lpGDIFlag[0],ax ;Save it for later
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mov WORD PTR lpGDIFlag[2],dx
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DII_End:
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;** Return TRUE
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mov ax,1
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cEnd
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; InterruptUnInit
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; Unhooks all interrupts and exceptions hooked by DebugInterruptUnInit.
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cProc InterruptUnInit, <NEAR,PUBLIC>, <si,di>
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cBegin
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;** Loop through all possible handlers
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mov cx,MAX_INTERRUPT ;Number of ints to hook
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lea si,IntInfo ;Get the address of the array
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DIU_HandlerLoop:
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push cx ;Save loop counter
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cmp [si].ii_wNumber,256 ;Fake exception?
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jae DIU_Continue ;Yes, don't unhook anything!
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cmp [si].ii_wType,I_EXCEPTION ;Exception?
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jnz DIU_Interrupt ;Nope, hook as interrupt
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;** Unhook exception (DPMI)
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mov ax,0203h ;Set exception handler - DPMI
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mov bl,BYTE PTR [si].ii_wNumber ;Interrupt number
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mov dx,WORD PTR [si].ii_dwChain ;Put back the old offset
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mov cx,WORD PTR [si].ii_dwChain + 2 ;Put back the old selector
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int 31h ;Call DPMI
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jmp SHORT DIU_Continue
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;** Unhook interrupt (DOS)
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DIU_Interrupt:
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mov ah,35h ;Get interrrupt handler - DOS
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mov al,BYTE PTR [si].ii_wNumber ;Interrupt number
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int 21h ;Call DOS
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mov ah,25h ;Set interrupt handler - DOS
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mov al,BYTE PTR [si].ii_wNumber ;Interrupt number
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mov dx,WORD PTR [si].ii_dwChain ;Put back the old offset
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push ds
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mov ds,WORD PTR [si].ii_dwChain + 2 ;Put back the old selector
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int 21h ;Call DOS
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pop ds
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;** Prepare for next in table
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DIU_Continue:
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add si,SIZE INT_INFO ;Bump to next entry
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pop cx ;Get loop counter back
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loop DIU_HandlerLoop ;Loop back
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;** Prepare the linked list
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mov npIntHead,0 ;Put a NULL in the list head
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DIU_End:
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cEnd
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InterruptEntry MACRO Name, wBytes
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labelFP Name ;;Start at this address
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PUBLIC Name
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sub sp,wBytes ;;Leave room on stack for return val
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push bx ;;Save for the info pointer
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ENDM
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InterruptJump MACRO pInfo
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mov bx,OFFSET pInfo ;;Point to interrupt info
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jmp DIH_Main
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ENDM
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; InterruptHandler
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; This routine is used to handle interrupts as they come in. This
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; routine has multiple entry points; a seperate one for each int/
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; exception trapped. Because interrupts and exceptions have
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; different stack frames, they are handled by two different code
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; sections.
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cProc InterruptHandler, <FAR,PUBLIC>
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cBegin NOGEN
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;** All interrupt entry points here
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InterruptEntry GP_Handler, 14 ;Normal GP fault
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InterruptJump GP_Info
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InterruptEntry GP_StdModeHandler, 12 ;3.0 Std mode GP fault
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InterruptJump GP_Info
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InterruptEntry SF_Handler, 14 ;Normal Stack Fault
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InterruptJump SF_Info
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InterruptEntry SF_StdModeHandler, 12 ;3.0 Std mode Stack Fault
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InterruptJump SF_Info
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InterruptEntry PF_Handler, 14 ;Page fault
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InterruptJump PF_Info
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InterruptEntry PF_StdModeHandler, 10 ;3.0 Std mode Page fault
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InterruptJump PF_Info
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InterruptEntry UD_Handler, 14 ;Undefined opcode
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InterruptJump UD_Info
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InterruptEntry Int1_Handler, 14 ;Int 1
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InterruptJump Int1_Info
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InterruptEntry Int3_Handler, 14 ;Int 3
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InterruptJump Int3_Info
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InterruptEntry CASRq_Handler, 14 ;Ctrl-Alt-SysRq (not really an int)
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InterruptJump CASRq_Info
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;** The divide by zero case has to include checking to make sure
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;** that this isn't GDI's divide by zero.
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InterruptEntry Div0_Handler, 14
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;** Check to see if GDI wants this Div0
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push ds ;Save some registers
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push es
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mov bx,_DATA ;Point to our data
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mov ds,bx ; with DS
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mov bx,WORD PTR lpGDIFlag[0];Get the low word
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push bx
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or bx,WORD PTR lpGDIFlag[2];Do we have a flag to look at?
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pop bx
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jz DIH_NoFlag ;No. Do this the hard way
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;** Since we have a pointer to GDI's flag to look at, use it
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mov es,WORD PTR lpGDIFlag[2];Get the seg value
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cmp WORD PTR es:[bx],0 ;The flag is nonzero if GDI wants it
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je DIH_NormalDiv0 ;GDI doesn't want it
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;** GDI wants the Div0 so chain to it
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DIH_ChainToGDI:
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pop es ;Restore registers
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pop ds ; (Doesn't trash flags)
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push bp ;Make the same stack frame for compat
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mov bp,sp
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pusha ;Save all registers
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push ds
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push es
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mov ax,_DATA ;Get the data segment
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mov ds,ax ;Point with DS
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mov bx,OFFSET Div0_Info ;This fault's info
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jmp DIH_DPMIChainOn ;Chain on (ignore the int)
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DIH_NormalDiv0:
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pop es ;Restore registers
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pop ds
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InterruptJump Div0_Info
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;** We didn't get a GDI flag (only present in 3.1) so instead, we
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;* check the owner of the CS where the fault occurred. If
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;** the owner is GDI, we ignore the Div0.
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DIH_NoFlag:
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push bp ;Make a stack frame
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mov bp,sp
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sub sp,SIZE GLOBALENTRY ;Make room for a structure
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Global EQU [bp - SIZE GLOBALENTRY] ;Point to our structure
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pusha ;Save all registers
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mov WORD PTR Global.ge_dwSize[0],SIZE GLOBALENTRY ;Size of struct
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mov WORD PTR Global.ge_dwSize[2],0
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lea bx,Global ;Point to the structure
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test wTHFlags,TH_WIN30STDMODE ;3.0 std mode?
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jnz DIH_Div0_StdMode ;Yes
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mov ax,[bp + 1ah + 4] ;Get the CS value (4 is extra BP,BX
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jmp SHORT @F ; pushed by InterruptEntry macro)
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DIH_Div0_StdMode:
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mov ax,[bp + 14h + 4] ;Get the CS value
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@@: cCall GlobalEntryHandle, <ss,bx,ax> ;Get info about the CS
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or ax,ax ;Did the call succeed?
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jne @F ;Yes, go on
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popa ;No, clear stack frame and do normal
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mov sp,bp
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pop bp
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jmp DIH_NormalDiv0 ;Jump to normal processing
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@@: mov ax,Global.ge_hOwner ;Get the owner
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cCall HelperHandleToSel, <ax> ;Make it a selector
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cmp hGDI,ax ;Is this owned by GDI?
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popa ;Restore the registers
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mov sp,bp ;Clear stack frame
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pop bp
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je DIH_ChainToGDI ;Yes, so give the interrupt to it
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jmp DIH_NormalDiv0 ;No, do normal stuff
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;** We now have to first find the item on the block to see if we
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;** want to handle the interrupt.
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PubLabel CommonInterruptEntry
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DIH_Main:
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push bp ;Make a stack frame
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mov bp,sp
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pusha ;Save all registers
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push ds
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push es
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;** We check first to see if this was a GP fault received from the
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;* parameter validation code. If it was, we just chain on
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;* just as if we don't find any handlers.
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;**
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mov ax,_DATA ;Get our data segment
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mov ds,ax
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FSTI ;Must have interrupts on
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cmp bx,OFFSET GP_Info ;GP Fault?
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jnz DIH_NotPVGPFault ;No.
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mov cx,WORD PTR lpfnPV[0] ;Get the low word
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or cx,WORD PTR lpfnPV[2] ;Param Validation stuff present?
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jz DIH_NotPVGPFault ;No, skip this
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;** Check to see if the parameter validation code wants the fault
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push ds
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push bx
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push [bp + 1Ah] ;Push faulting CS:IP
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push [bp + 18h]
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call [lpfnPV] ;Call it
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pop bx
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pop ds
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or ax,ax ;Non-zero means this was PV fault
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je DIH_NotPVGPFault ;Not a PV GP fault
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;** It is a parameter validation fault so ignore it
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jmp DIH_DPMIChainOn ;Chain the fault on--we don't want it
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;** We check here to see if the INT3 we received is from the CASRq
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;* handler. If it was, we have to replace the INT3 with the
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;* previous byte and tell the user this was actually a CASRq
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;** event (not an INT3).
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PubLabel DIH_NotPVGPFault
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cmp bx,OFFSET Int3_Info ;INT3?
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jnz DIH_NotCASRq ;Nope, ignore all this
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cmp wCASRqFlag,0 ;Was this because of CASRq?
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je DIH_NotCASRq ;No.
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mov ax,[bp + 12h] ;INT3 is an IRET frame. Get bkpt IP
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dec ax ;Breaks AFTER instruction
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cmp WORD PTR dwCASRqCSIP[0],ax ;Is this the right CASRq address?
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jne DIH_NotCASRq ;Nope
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mov dx,[bp + 14h] ;Get the breakpoint CS
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cmp WORD PTR dwCASRqCSIP[2],dx ;Is this correct?
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jne DIH_NotCASRq ;Nope
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push ax ;Save the IP value
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cCall AllocCStoDSAlias, <dx> ;Get a data alias to the CS
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mov es,ax ;Point with ES
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pop si ;Restore the IP value
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mov [bp + 12h],si ;Back to instr where INT3 was
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mov al,BYTE PTR wCASRqFlag ;Get the saved byte
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mov es:[si],al ;Put it back in the code
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mov wCASRqFlag,0 ;Clear the flag
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cCall FreeSelector, <es> ;Get rid of the alias
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mov bx,OFFSET CASRq_Info ;Point to the CASRq information
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;** See if we have at least one handler. We should always have one.
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PubLabel DIH_NotCASRq
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mov si,npIntHead ;Get the list start
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or si,si ;Are there any routines hooked?
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jnz DIH_Found ;There should ALWAYS be at least one
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; routine hooked (otherwise, the
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; interrupt hooks should have
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; already been removed)
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;** Return the stack to its prior state and chain on.
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;* We only get here in an erroneous state. We keep the code in
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;* to avoid GP faulting if things get wierd.
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;* The stack looks like this:
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;* ------------
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;* | ES |
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;* | DS |
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;* | PUSHA |
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;* BP-->| Old BP | [BP + 00h]
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;* | BX | [BP + 02h]
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;* | Empty | [BP + 04h]
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;* | Empty | [BP + 06h]
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;* | Empty | [BP + 08h]
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;* | Empty | [BP + 0Ah]
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;* | Empty | [BP + 0Ch]
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;* |Our Ret IP| [BP + 0Eh]
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;* |Our Ret CS| [BP + 10h]
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;* |Original |
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;* | Frame |
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;* | .... |
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;* ------------
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;**
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PubLabel DIH_DPMIChainOn
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mov ax,WORD PTR [bx].ii_dwChain ;Get the LOWORD
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mov [bp + 0eh],ax ;Put into the frame we created
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mov ax,WORD PTR [bx].ii_dwChain + 2 ;Get the HIWORD
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mov [bp + 10h],ax ;Put into the frame
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pop es ;Clear the stack
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pop ds
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popa
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pop bp
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pop bx
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add sp,10 ;Clear extra space
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retf ;This uses our own "return" frame
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; to chain on
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;** Since we found the entry, we have to call the user callback.
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;* Because we must be reentrant at this state, we have to make
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;* sure that we're safe. To do so, we must do different
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;** actions for DPMI and for DOS frames.
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PubLabel DIH_Found
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cmp [bx].ii_wType,I_EXCEPTION ;DPMI Exception frame?
|
|
je @F
|
|
jmp DIH_SkipDPMI ;No. Skip DPMI processing
|
|
@@:
|
|
|
|
;** If we are in Win3.0 Std Mode, the DPMI frame was broken. It
|
|
;* simply left the normal IRET frame on the stack *AND* the
|
|
;** error code.
|
|
test wTHFlags,TH_Win30StdMode ;3.0 Std mode?
|
|
jz @F
|
|
jmp DIH_SkipDPMI ;Yes
|
|
@@:
|
|
|
|
;** Tell DPMI that the exception is over. Before we do this,
|
|
;* however, save information we'll need later on the user stack.
|
|
;* The stack currently looks like this:
|
|
;* ------------
|
|
;* | ES |
|
|
;* | DS |
|
|
;* | PUSHA |
|
|
;* BP-->| Old BP | [BP + 00h]
|
|
;* | BX | [BP + 02h]
|
|
;* | Empty | [BP + 04h]
|
|
;* | Empty | [BP + 06h]
|
|
;* | Empty | [BP + 08h]
|
|
;* | Empty | [BP + 0Ah]
|
|
;* | Empty | [BP + 0Ch]
|
|
;* | Empty | [BP + 0Eh]
|
|
;* | Empty | [BP + 10h]
|
|
;* | Ret IP | [BP + 12h] <-
|
|
;* | Ret CS | [BP + 14h] |
|
|
;* |Error Code| [BP + 16h] | Pushed by DPMI
|
|
;* | IP | [BP + 18h] |
|
|
;* | CS | [BP + 1Ah] | (Locked stack)
|
|
;* | Flags | [BP + 1Ch] |
|
|
;* | SP | [BP + 1Eh] |
|
|
;* | SS | [BP + 20h] <-
|
|
;* ------------
|
|
;*
|
|
;* Before returning to DPMI, however, we want to create a
|
|
;* stack frame on the user's stack that we will be returning
|
|
;* to so we can preserve information in a reentrant fashion.
|
|
;* The user's stack will appear like this:
|
|
;* ------------
|
|
;* BP---->| Old BP | [BP + 00h]
|
|
;* | BX | [BP + 02h]
|
|
;* |Our Ret IP| [BP + 04h]
|
|
;* |Our Ret CS| [BP + 06h]
|
|
;* | Ret IP | [BP + 08h]
|
|
;* | Ret CS | [BP + 0Ah]
|
|
;* | AX | [BP + 0Ch]
|
|
;* |Exception#| [BP + 0Eh]
|
|
;* | Handle | [BP + 10h]
|
|
;* | IP | [BP + 12h]
|
|
;* | CS | [BP + 14h]
|
|
;* | Flags | [BP + 16h]
|
|
;* ------------
|
|
;**
|
|
|
|
PubLabel DIH_Exception
|
|
|
|
;** Check to see if we're already on the faulting stack. If we are,
|
|
;** we want to shift everything up on this stack so that we
|
|
;** have room for the TOOLHELP user frame
|
|
mov ax,ss ;Get the current SS
|
|
cmp ax,WORD PTR ss:[bp + 20h] ;Is it the same as the user frame?
|
|
jne DIH_EnoughRoomOnStack ;No, ignore all of this
|
|
|
|
;** Move everything up by copy everything that's on stack now to
|
|
;** above where SP starts at. This actually uses too much
|
|
;** stack, but it's safe and easy.
|
|
push bp ;We use BP to do copy
|
|
lea bp,[bp + 20h] ;Point to lowest WORD to copy
|
|
mov ax,sp ;Point to position to copy to
|
|
dec ax
|
|
dec ax
|
|
DIH_CopyLoop:
|
|
push WORD PTR [bp] ;Copy a WORD
|
|
dec bp ;Point to next WORD to copy
|
|
dec bp
|
|
cmp bp,ax ;Done yet?
|
|
jne DIH_CopyLoop ;No
|
|
pop bp ;Yes, compute new BP value
|
|
sub bp,56 ;Point BP to right place
|
|
|
|
;** Put stuff on DPMI's stack
|
|
PubLabel DIH_EnoughRoomOnStack
|
|
mov di,[bp + 1Eh] ;Get the old SP value
|
|
mov cx,[bp + 20h] ; and the SS value
|
|
cmp di,MIN_STACK_ALLOWED ;Are we going to stack fault?
|
|
jb DIH_BadStack ;Yes, so swich
|
|
mov ax,__WinFlags ;Make sure we have a 386 or higher
|
|
test ax,WF_CPU286
|
|
jnz DIH_SkipBigCheck ;No need to check big bit
|
|
.386p
|
|
push eax ;Make sure we don't trash EAX
|
|
lar eax,ecx ;Get the access rights DWORD
|
|
test eax,00400000h ;Check the BIG bit
|
|
pop eax
|
|
jnz DIH_BadStack ;Don't use this stack if BIG
|
|
.286p
|
|
DIH_SkipBigCheck:
|
|
mov ax,di ;Get the stack pointer
|
|
add ax,2 ;Point just beyond
|
|
cCall HelperVerifySeg, <cx,ax> ;Is this seg OK?
|
|
or ax,ax ;Check for success
|
|
jz DIH_BadStack ;Stack is bogus, don't change to it
|
|
|
|
PubLabel DIH_StackOK
|
|
sub di,20 ;Reserve space for the user frame
|
|
mov ds,cx ;Get stack value in DS
|
|
mov dx,[bp + 1Ah] ;Get the old CS value
|
|
mov cx,[bp + 18h] ;Get the old IP value
|
|
mov ax,[bp + 1Ch] ;Get the old flags
|
|
mov [bp + 1Eh],di ;Save as new SP value
|
|
sub di,4 ;Make DI equal to what BP will be
|
|
mov [bp + 1Ah],cs ;Prepare to IRET to ourself
|
|
mov [bp + 18h],OFFSET _TEXT:DIH_DPMIRestart
|
|
|
|
;** Save some things on the user's stack before returning
|
|
mov [di + 16h],ax ;Save the flags
|
|
mov [di + 14h],dx ;Save the old CS value
|
|
mov [di + 12h],cx ;Save the old IP value
|
|
mov [di + 0Eh],bx ;INT_INFO pointer to new stack
|
|
mov [di + 10h],si ;Handle to new stack
|
|
|
|
;** Clear the Trace and Ints Enabled flags
|
|
and [bp + 1Ch],NOT 0100h ;Clear TF. We don't want to trace here
|
|
pop es ;Clear the DPMI stack
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,14 ;Clear extra allocated space
|
|
retf
|
|
|
|
;** The user stack is bad, so we want to stay on the fault handler
|
|
;** stack. In order to do this, we have to build a frame for
|
|
;** the callback directly on the fault handler stack.
|
|
;** We build the frame here and jump to it.
|
|
;** ------------
|
|
;** | ES |
|
|
;** | DS |
|
|
;** | PUSHA |
|
|
;** BP-->| Old BP | [BP + 00h]
|
|
;** | BX | [BP + 02h]
|
|
;** | Empty | [BP + 04h]
|
|
;** |Our Ret IP| [BP + 06h] ; Client callback addr
|
|
;** |Our Ret CS| [BP + 08h]
|
|
;** | Ret IP | [BP + 0Ah] ; TOOLHELP restart addr
|
|
;** | Ret CS | [BP + 0Ch]
|
|
;** | AX | [BP + 0Eh] ; Saved AX for MPI
|
|
;** |Exception#| [BP + 10h] ; Exception number
|
|
;** | Handle | [BP + 12h] ; TOOLHELP handle
|
|
;** | IP | [BP + 14h] ; IRET frame of fault
|
|
;** | CS | [BP + 16h]
|
|
;** | Flags | [BP + 18h]
|
|
;** | SP | [BP + 1Ah] ; Faulting SS:SP
|
|
;** | SS | [BP + 1Ch]
|
|
;** | Ret IP | [BP + 1Eh] ; DPMI return address
|
|
;** | Ret CS | [BP + 20h]
|
|
;** ------------
|
|
PubLabel DIH_BadStack
|
|
mov dx,[bp + 12h] ;DPMI return CS:IP
|
|
mov cx,[bp + 14h] ; stored in CX:DX
|
|
mov ax,[bp + 18h] ;Faulting IP
|
|
mov [bp + 14h],ax
|
|
mov ax,[bp + 1Ah] ;Faulting CS
|
|
mov [bp + 16h],ax
|
|
mov ax,[bp + 1Ch] ;Flags
|
|
mov [bp + 18h],ax
|
|
mov ax,[bp + 1Eh] ;Faulting SP
|
|
mov [bp + 1Ah],ax
|
|
mov ax,[bp + 20h] ;Faulting SS
|
|
mov [bp + 1Ch],ax
|
|
mov [bp + 1Eh],dx ;DPMI ret IP
|
|
mov [bp + 20h],cx ;DPMI ret CS
|
|
mov [bp + 12h],si ;Point to INTERRUPT struct
|
|
mov ax,[bx].ii_wNumber ;Get the interrupt number
|
|
or ax,BAD_STACK_FLAG ;Flag the client that stack is bad
|
|
mov [bp + 10h],ax
|
|
mov ax,[bp - 02h] ;Get the AX value from the PUSHA frame
|
|
mov [bp + 0Eh],ax
|
|
mov [bp + 0Ch],cs ;Point to callback return address
|
|
mov [bp + 0Ah],OFFSET _TEXT:DIH_CallbackRestart
|
|
mov ax,WORD PTR [si].i_lpfn ;Point to the user callback OFFSET
|
|
mov [bp + 06h],ax
|
|
mov ax,WORD PTR [si].i_lpfn + 2 ;Point to callback segment
|
|
mov [bp + 08h],ax
|
|
pop es ;Clear the stack
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,2
|
|
retf ;Jump to the user callback
|
|
|
|
;** At this point, DPMI IRETs back to us instead of to the faulting
|
|
;** app. We have to now create a stack frame identical to the
|
|
;** frame used by interrupt-style hooks. Note that we have
|
|
;** already allocated the frame space (but not initialized it)
|
|
;** before returning to DPMI.
|
|
;** It will look like this:
|
|
;** ------------
|
|
;** | ES | [BP - 14h]
|
|
;** | DS | [BP - 12h]
|
|
;** | DI | [BP - 10h]
|
|
;** | SI | [BP - 0Eh]
|
|
;** | BP | [BP - 0Ch]
|
|
;** | SP | [BP - 0Ah]
|
|
;** | BX | [BP - 08h]
|
|
;** | DX | [BP - 06h]
|
|
;** | CX | [BP - 04h]
|
|
;** | AX | [BP - 02h]
|
|
;** BP---->| Old BP | [BP + 00h]
|
|
;** | BX | [BP + 02h]
|
|
;** |Our Ret IP| [BP + 04h]
|
|
;** |Our Ret CS| [BP + 06h]
|
|
;** | Ret IP | [BP + 08h]
|
|
;** | Ret CS | [BP + 0Ah]
|
|
;** | AX | [BP + 0Ch]
|
|
;** |Exception#| [BP + 0Eh]
|
|
;** | Handle | [BP + 10h]
|
|
;** | IP | [BP + 12h]
|
|
;** | CS | [BP + 14h]
|
|
;** | Flags | [BP + 16h]
|
|
;** ------------
|
|
;**
|
|
PubLabel DIH_DPMIRestart
|
|
push bx ;Save this register we're using
|
|
push bp ;Make a stack frame
|
|
mov bp,sp
|
|
pusha ;Save all the registers
|
|
push ds
|
|
push es
|
|
mov bx,[bp + 0Eh] ;Get the INT_INFO pointer back
|
|
mov si,[bp + 10h] ;Get the INTERRUPT structure back
|
|
mov ax,_DATA ;Get our data segment
|
|
mov ds,ax
|
|
|
|
;** We can now proceed with joint processing as we've matched the
|
|
;** DOS interrupt frame
|
|
PubLabel DIH_SkipDPMI
|
|
|
|
;** Build our return frame and jump to the user callback
|
|
mov [bp + 10h],si ;Point to INTERRUPT struct
|
|
mov ax,[bx].ii_wNumber ;Get the interrupt number
|
|
mov [bp + 0Eh],ax ;Put on frame
|
|
mov ax,[bp - 02h] ;Get the AX value from the PUSHA frame
|
|
mov [bp + 0Ch],ax ;Put on frame
|
|
mov [bp + 0Ah],cs ;Point to callback return address
|
|
mov [bp + 08h],OFFSET _TEXT:DIH_CallbackRestart
|
|
mov ax,WORD PTR [si].i_lpfn ;Point to the user callback OFFSET
|
|
mov [bp + 04h],ax
|
|
mov ax,WORD PTR [si].i_lpfn + 2 ;Point to callback segment
|
|
mov [bp + 06h],ax
|
|
pop es ;Clear the stack
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
retf ;Jump to the user callback
|
|
|
|
;** When the callback returns, we have to know how to call the
|
|
;* next matching callback or to chain on the interrupt list.
|
|
;* We have to do a raft of special stuff if this was an
|
|
;* exception so that the chained on handlers think it was
|
|
;** DPMI that called them.
|
|
PubLabel DIH_CallbackRestart
|
|
sub sp,8 ;Leave room for ret addresses
|
|
push bx ;For compat. with the above code
|
|
push bp ;Make the same stack frame
|
|
mov bp,sp
|
|
pusha
|
|
push ds
|
|
push es
|
|
|
|
;** Get the next matching item on the list
|
|
mov ax,_DATA ;Get our data segment
|
|
mov ds,ax
|
|
mov ax,[bp + 0Ch] ;Get the saved AX value
|
|
mov [bp - 02h],ax ;Put in PUSHA frame
|
|
mov si,[bp + 10h] ;Get the last handle used
|
|
or si,si ;If NULL, app has messed with it
|
|
jz DIH_NukeIt ;Nuke the app--it did a no-no
|
|
mov si,[si].i_pNext ;Get the next item in the list
|
|
or si,si ;End of the line?
|
|
jz DIH_NextNotFound ;Yes, chain on
|
|
mov ax,[bp + 0Eh] ;Get the exception number
|
|
cCall InterruptInfo ;Get the INT_INFO structure
|
|
or ax,ax ;If NULL return, user messed with #
|
|
jz DIH_NukeIt ; so nuke it
|
|
mov bx,ax ;Point with BX
|
|
jmp DIH_SkipDPMI ;Process this one
|
|
|
|
;** If we don't find a match, we pass on to previous handler
|
|
PubLabel DIH_NextNotFound
|
|
mov ax,[bp + 0Eh] ;Get the exception number
|
|
and ax,7fffh ;Clear the new stack bit
|
|
cCall InterruptInfo ;Find the INT_INFO structure
|
|
or ax,ax ;If the user messed with it,
|
|
jz DIH_NukeIt ; nuke the app.
|
|
mov si,ax ;Get the pointer in AX
|
|
test wTHFlags,TH_Win30StdMode ;3.0 Std mode?
|
|
jnz DIH_30StdChainOn ;Always do normal chain on in 3.0sm
|
|
cmp [si].ii_wType,I_INTERRUPT ;Was this an interrupt?
|
|
je DIH_ChainOn ;Yes, do normal chain on
|
|
jmp DIH_EmulateDPMI ;No, do the DPMI chain on
|
|
|
|
PubLabel DIH_NukeIt
|
|
push [bp + 16h] ;Copy the IRET frame for KERNEL
|
|
push [bp + 14h]
|
|
push [bp + 12h]
|
|
|
|
push 0 ;Nuke current task
|
|
push UAE_BOX OR GIVE_WDEB386 ;UAE box + give to wdeb
|
|
push cs ;Simulate a far jump
|
|
call NEAR PTR TerminateApp ;Nuke the app
|
|
|
|
;** We only get here if WDEB386 is installed. We tell it to set
|
|
;* a breakpoint, then restart the app, in effect giving
|
|
;* control to WDEB386. Unfortunately, at this point, all
|
|
;** fault handlers for this task have been removed
|
|
add sp,6 ;Clear fake IRET frame
|
|
mov cx,[bp + 14h] ;Faulting CS
|
|
mov bx,[bp + 12h] ;Faulting IP
|
|
mov ax, 40h ;16 bit forced go command
|
|
int 41h ;Call debugger
|
|
pop es ;Restore registers and clear stack
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,14 ;Clear extra words
|
|
; all that remains is IRET frame
|
|
iret ;WDEB386 will get control
|
|
|
|
PubLabel DIH_NukeApp
|
|
push 0 ;Nuke current task
|
|
push UAE_BOX ;Draw the UAE box
|
|
push cs ;Simulate a far jump
|
|
call NEAR PTR TerminateApp ;Nuke the app
|
|
int 1 ;Should never return
|
|
jmp SHORT DIH_ChainOn
|
|
|
|
;** In 3.0 standard mode we have to put an error code on the stack
|
|
;** if it's a GP fault or. If not, we just chain on normally
|
|
PubLabel DIH_30StdChainOn
|
|
cmp si,OFFSET GP_Info ;Is this a GP fault?
|
|
jne DIH_ChainOn ;No, handle normally
|
|
mov ax,WORD PTR [si].ii_dwChain ;Get the LOWORD
|
|
mov dx,WORD PTR [si].ii_dwChain + 2 ;Get HIWORD
|
|
mov bx,ax ;Save the LOWORD
|
|
or ax,dx ;Is there a chain on address?
|
|
jz DIH_NoChainAddr ;No, just restart the instruction
|
|
mov [bp + 0Ch],bx ;Put on stack so we can retf to it
|
|
mov [bp + 0Eh],dx
|
|
mov WORD PTR [bp + 10h],0 ;Zero the error code
|
|
pop es ;Restore registers and clear stack
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,8 ;Clear extra words
|
|
retf
|
|
|
|
PubLabel DIH_ChainOn
|
|
mov ax,WORD PTR [si].ii_dwChain ;Get the LOWORD
|
|
mov dx,WORD PTR [si].ii_dwChain + 2 ;Get HIWORD
|
|
mov bx,ax ;Save the LOWORD
|
|
or ax,dx ;Is there a chain on address?
|
|
jz DIH_NoChainAddr ;No, just restart the instruction
|
|
mov [bp + 0Eh],bx ;Put on stack so we can retf to it
|
|
mov [bp + 10h],dx
|
|
pop es ;Restore registers and clear stack
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,10 ;Clear extra words
|
|
retf
|
|
|
|
;** No chain on address was recorded so just restart the instruction
|
|
PubLabel DIH_NoChainAddr
|
|
pop es
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,14 ;Clear all extra words
|
|
iret ; and restart instruction
|
|
|
|
;** Chain on a DPMI-style exception:
|
|
;**
|
|
;** The goal here is to make a fault frame that appears that DPMI
|
|
;** has passed the next exception handler the interrupt. We
|
|
;** have only two important cases here:
|
|
;** 1) We have already told DPMI the int was finished.
|
|
;** 2) We have not told DPMI the int was finished and
|
|
;** have not switched off the fault handler stack
|
|
;** We handle the cases differently:
|
|
;** -If we have already told DPMI that the fault was handled,
|
|
;** we have to make a new fault so that the next handler can see
|
|
;** the frame. This can be best accomplished by restarting the
|
|
;** faulting instruction. This will cause the same fault to
|
|
;** happen and will make the same frame.
|
|
;** -In the case of us still being on the fh stack, we have to
|
|
;** rebuild the frame and chain on.
|
|
;** The stack we're given looks like this:
|
|
;** ------------
|
|
;** | ES | [BP - 14h]
|
|
;** | DS | [BP - 12h]
|
|
;** | DI | [BP - 10h]
|
|
;** | SI | [BP - 0Eh]
|
|
;** | BP | [BP - 0Ch]
|
|
;** | SP | [BP - 0Ah]
|
|
;** | BX | [BP - 08h]
|
|
;** | DX | [BP - 06h]
|
|
;** | CX | [BP - 04h]
|
|
;** | AX | [BP - 02h]
|
|
;** BP---->| Old BP | [BP + 00h]
|
|
;** | BX | [BP + 02h]
|
|
;** |Our Ret IP| [BP + 04h]
|
|
;** |Our Ret CS| [BP + 06h]
|
|
;** | Ret IP | [BP + 08h]
|
|
;** | Ret CS | [BP + 0Ah]
|
|
;** | AX | [BP + 0Ch]
|
|
;** |Exception#| [BP + 0Eh]
|
|
;** | Handle | [BP + 10h]
|
|
;** | IP | [BP + 12h]
|
|
;** | CS | [BP + 14h]
|
|
;** | Flags | [BP + 16h]
|
|
;** | SP | [BP + 18h] ;Only here if on fh stack
|
|
;** | SS | [BP + 1Ah]
|
|
;** | Ret IP | [BP + 1Ch] ;DPMI return address
|
|
;** | Ret CS | [BP + 1Eh]
|
|
;** ------------
|
|
PubLabel DIH_EmulateDPMI
|
|
mov ax,[bp + 0Eh] ;Get the exception number
|
|
test ax,BAD_STACK_FLAG ;Still on fh stack?
|
|
jnz DIH_RebuildDPMIFrame ;Yes, rebuild the frame
|
|
|
|
;** Rehook the exception so we're sure to get it first
|
|
push si ;Preserve handle
|
|
mov bx,ax ;Fault number in bx
|
|
mov wException,bx ;Save as a static also
|
|
mov ax,0202h ;Get exception handler - DPMI
|
|
int 31h ;Call DPMI
|
|
mov WORD PTR lpOldHandler[0],dx ;Save the old exception handler
|
|
mov WORD PTR lpOldHandler[2],cx
|
|
mov ax,0203h ;Set exception handler - DPMI
|
|
mov dx,OFFSET DIH_EmDPMIRestart
|
|
mov cx,cs ;Selector value of handler
|
|
int 31h ;Call DPMI
|
|
pop si
|
|
|
|
;** Save the address of the next exception handler
|
|
mov ax,WORD PTR [si].ii_dwChain[0] ;Address to chain fault to
|
|
mov WORD PTR lpChainCSIP[0],ax
|
|
mov ax,WORD PTR [si].ii_dwChain[2]
|
|
mov WORD PTR lpChainCSIP[2],ax
|
|
|
|
;** Restart the instruction. This will fault and jump to our
|
|
;** newly-established handler at DIH_EmDPMIRestart
|
|
pop es
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,14 ;Clear all extra words
|
|
iret ; and restart instruction
|
|
|
|
;** Now we're on the fault handler stack with a DPMI frame. Throw
|
|
;** it to the next handler on the chain
|
|
PubLabel DIH_EmDPMIRestart
|
|
sub sp,4 ;Enough room for a RETF frame
|
|
push bp
|
|
mov bp,sp
|
|
pusha
|
|
push ds
|
|
push es
|
|
mov ax,_DATA ;Point to TOOLHELP's DS
|
|
mov ds,ax
|
|
|
|
;** Restore the exception handler
|
|
mov ax,0203h ;Set exception handler - DPMI
|
|
mov bx,wException ;Get exception number
|
|
mov dx,WORD PTR lpOldHandler[0] ;Get the exception handler address
|
|
mov cx,WORD PTR lpOldHandler[2]
|
|
int 31h ;Call DPMI
|
|
|
|
;** Put the chain address on the stack so we can return to it
|
|
mov ax,WORD PTR lpChainCSIP[0] ;Get chain address
|
|
mov [bp + 02h],ax
|
|
mov ax,WORD PTR lpChainCSIP[2]
|
|
mov [bp + 04h],ax
|
|
|
|
;** Restore registers and jump to the handler
|
|
pop es
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
retf
|
|
|
|
;** Since we are already on the fault handler stack, there is no
|
|
;** need to fault again. All we have to do here is recreate the
|
|
;** DPMI fault stack as if the fault had just occurred. It would
|
|
;** be nice to clear the exception and then make it fault again,
|
|
;** but since we only get here in potentially stack-faulting
|
|
;** conditions, we cannot do this. We just build a reasonable
|
|
;** facsimile of the frame and chain on. This frame should
|
|
;** look as follows when we're done:
|
|
;** ------------
|
|
;** | ES | [BP - 14h]
|
|
;** | DS | [BP - 12h]
|
|
;** | DI | [BP - 10h]
|
|
;** | SI | [BP - 0Eh]
|
|
;** | BP | [BP - 0Ch]
|
|
;** | SP | [BP - 0Ah]
|
|
;** | BX | [BP - 08h]
|
|
;** | DX | [BP - 06h]
|
|
;** | CX | [BP - 04h]
|
|
;** | AX | [BP - 02h]
|
|
;** BP---->| Old BP | [BP + 00h]
|
|
;** | BX | [BP + 02h]
|
|
;** | Empty | [BP + 04h]
|
|
;** | Empty | [BP + 06h]
|
|
;** | Empty | [BP + 08h]
|
|
;** | Empty | [BP + 0Ah]
|
|
;** | Chain IP | [BP + 0Ch]
|
|
;** | Chain CS | [BP + 0Eh]
|
|
;** | Ret IP | [BP + 10h]
|
|
;** | Ret CS | [BP + 12h]
|
|
;** |Error Code| [BP + 14h] ;Always return zero
|
|
;** | IP | [BP + 16h]
|
|
;** | CS | [BP + 18h] ;Only here if on fh stack
|
|
;** | Flags | [BP + 1Ah]
|
|
;** | SP | [BP + 1Ch] ;DPMI return address
|
|
;** | SS | [BP + 1Eh]
|
|
;** ------------
|
|
|
|
PubLabel DIH_RebuildDPMIFrame
|
|
mov dx,[bp + 1Ch] ;DPMI return CS:IP
|
|
mov cx,[bp + 1Eh] ; stored in CX:DX
|
|
mov ax,[bp + 1Ah] ;Faulting SS
|
|
mov [bp + 1Eh],ax
|
|
mov ax,[bp + 18h] ;Faulting SP
|
|
mov [bp + 1Ch],ax
|
|
mov ax,[bp + 16h] ;Flags
|
|
mov [bp + 1Ah],ax
|
|
mov ax,[bp + 14h] ;Faulting CS
|
|
mov [bp + 18h],ax
|
|
mov ax,[bp + 12h] ;Faulting IP
|
|
mov [bp + 16h],ax
|
|
xor ax,ax ;Error code
|
|
mov [bp + 14h],ax
|
|
mov [bp + 12h],cx ;DPMI ret CS
|
|
mov [bp + 10h],dx ;DPMI ret IP
|
|
mov ax,WORD PTR [si].ii_dwChain[2] ;Address to chain fault to
|
|
mov [bp + 0Eh],ax
|
|
mov ax,WORD PTR [si].ii_dwChain[0]
|
|
mov [bp + 0Ch],ax
|
|
pop es
|
|
pop ds
|
|
popa
|
|
pop bp
|
|
pop bx
|
|
add sp,8 ;Clear all extra words
|
|
retf
|
|
|
|
cEnd NOGEN
|
|
|
|
|
|
;** Helper functions
|
|
|
|
; InterruptInfo
|
|
; Gets a pointer to the INT_INFO structure given the interrupt
|
|
; number. Accepts the int number in AX and returns the pointer in AX.
|
|
; Preserves all other registers
|
|
|
|
cProc InterruptInfo, <NEAR,PUBLIC>, <si,cx>
|
|
cBegin
|
|
;** Loop through all possible handlers
|
|
mov cx,MAX_INTERRUPT + 1 ;Number of ints to hook
|
|
lea si,IntInfo ;Get the address of the array
|
|
|
|
;** Is this a match?
|
|
II_HandlerLoop:
|
|
cmp [si].ii_wNumber,ax ;Match?
|
|
jz II_End ;Yes, return the pointer
|
|
|
|
;** Prepare for next in table
|
|
II_Continue:
|
|
add si,SIZE INT_INFO ;Bump to next entry
|
|
loop II_HandlerLoop ;Loop back
|
|
xor si,si ;Return NULL for not found
|
|
|
|
II_End:
|
|
mov ax,si ;Get return value
|
|
cEnd
|
|
|
|
sEnd
|
|
|
|
END
|