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937 lines
29 KiB
937 lines
29 KiB
include intmac.inc
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public rgw032Stack
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dw 64 dup (?) ; DOSX Ring -> Ring 0 transition stack
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;
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; Interrupts in the range 0-1fh cause a ring transition and leave
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; an outer ring IRET frame right here.
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;
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Ring0_EH_DS dw ? ; place to put user DS
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Ring0_EH_AX dw ? ; place to put user AX
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Ring0_EH_BX dw ? ; place to put user BX
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Ring0_EH_CX dw ? ; place to put user CX
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Ring0_EH_BP dw ? ; place to put user BP
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Ring0_EH_PEC dw ? ; lsw of error code for 386 page fault
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; also near return to PMFaultEntryVector
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Ring0_EH_EC dw ? ; error code passed to EH
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Ring0_EH_IP dw ? ; interrupted code IP
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dw ?
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Ring0_EH_CS dw ? ; interrupted code CS
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dw ?
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Ring0_EH_Flags dw ? ; interrupted code flags
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dw ?
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Ring0_EH_SP dw ? ; interrupted code SP
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dw ?
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Ring0_EH_SS dw ? ; interrupted code SS
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dw ?
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rgw032Stack label word
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; ------------------------------------------------------------------
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; PMFaultAnalyzer -- This routine is the entry point for
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; the protected mode fault/trap/exception handler. It tries
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; to distinguish between bona fide processor faults and
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; hardware/software interrupts which use the range of
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; interrupts that is reserved by Intel. If a fault is
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; detected, then format the stack for a DPMI fault handler,
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; then vector to the handler whose address is stored in
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; PMFaultVector. If it looks more like an interrupt, then
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; set up the stack for an interrupt handler, jump to the
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; handler whose address is stored in PMIntelVector.
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;
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; Input: none
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; Output: none
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assume ds:NOTHING,es:NOTHING,ss:DGROUP
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public PMFaultAnalyzer
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PMFaultAnalyzer proc near
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;
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; Make sure we are on the right stack. Else, something fishy is going on.
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; Note that stack faults won't do too well here.
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;
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push ax
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mov ax,ss
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cmp ax,SEL_DXDATA or STD_RING
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pop ax
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je pmfa_stack_passed
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jmp pmfa_bad_stack
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pmfa_stack_passed:
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;
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; Is the stack pointer pointing at a word error code (minus 2)?
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;
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cmp sp,offset DGROUP:Ring0_EH_PEC
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je pmfa_fault ; Yes, processor fault.
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;
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; Is it pointing to where it is supposed to be for a hardware or
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; software interrupt?
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;
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cmp sp,offset DGROUP:Ring0_EH_EC
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je pmfa_20
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jmp pmfa_bad_stack
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pmfa_20:jmp pmfa_inspect
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pmfa_fault:
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;
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; Getting here, we have a known exception with a word error code of some
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; sort on the stack. Perform an outward ring transition, switch to the
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; client stack, then vector through the exception handler vector to the
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; appropriate handler.
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;
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push bp
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push cx
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push bx
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push ax
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push ds
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lea bp,Ring0_EH_SS
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mov ax,word ptr [bp]
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mov cx,selEHStack
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cmp ax,cx
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jne pmfa_stack_OK
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mov bx,[bp-2]
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jmp pmfa_copy_stack
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pmfa_stack_OK:
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mov bx,npEHStackLimit
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pmfa_copy_stack:
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mov ds,cx ; DS:BX = user SS:SP
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mov cx,13
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add bp,2 ; put both halves of ss
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pmfa_copy_stack_loop:
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dec bx
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dec bx
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mov ax,word ptr [bp]
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mov word ptr [bx],ax
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dec bp
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dec bp
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loop pmfa_copy_stack_loop
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; DS:BX points to stack on entry to PMFaultReflector
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;
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; Build a far return frame on user stack, switch to user stack, and return
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;
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lea bp,Ring0_EH_PEC
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mov word ptr [bp+6],ds
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mov word ptr [bp+4],bx
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sub bx,2
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mov word ptr ds:[bx],SEL_DXPMCODE OR STD_RING; push cs
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sub bx,2
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mov ds:[bx],offset DXPMCODE:PMFaultReflector; push ip
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lea bp,Ring0_EH_PEC
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mov ax,Ring0_EH_CX ; get BP value
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sub bx,2
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mov ds:[bx],ax ; push bp
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mov Ring0_EH_PEC,bx ; sp for lss
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mov bx,ds
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mov Ring0_EH_EC,bx ; ss for lss
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pop ds
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pop ax
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pop bx
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pop cx
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.386p
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lss sp,[bp] ; switch stack
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.286p
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pop bp
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retf
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pmfa_inspect:
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;
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; Stack is set up as for an interrupt or exception without error code.
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; Adjust the stack pointer and put an error code of zero. Then try to
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; determine whether we have an exception or an interrupt. First test
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; is the interrupt number.
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;
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push Ring0_EH_EC
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mov Ring0_EH_EC,0
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cmp Ring0_EH_PEC,offset PMFaultEntryVector + ((7 + 1) * 3)
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ja pfma_50
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push Ring0_EH_PEC
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mov Ring0_EH_PEC,0
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jmp pmfa_fault ; Yes, definitely a fault.
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pfma_50:
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;
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; At this point, all valid exceptions have been eliminated except for
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; exception 9, coprocessor segment overrun, and exception 16, coprocessor
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; error.
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;
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; **********************************************
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; * Your code to detect these exceptions here. *
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; **********************************************
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push bp
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push cx
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push bx
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push ax
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push ds ; SP -> Ring0_EH_DS
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;
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; Point to the user's stack.
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;
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lea bp,Ring0_EH_SS
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mov cx,[bp]
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mov ds,cx
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mov bx,[bp-2] ; DS:[BX] -> user stack
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;
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; Copy the IRET frame to the user stack.
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;
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lea bp,Ring0_EH_Flags
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mov cx,6
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pmfa_copy_IRET:
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mov ax,[bp]
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dec bx
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dec bx
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mov [bx],ax
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dec bp
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dec bp
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loop pmfa_copy_IRET
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;
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; Point BP at vector entry for this (reserved) interrupt.
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;
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mov ax,Ring0_EH_PEC ; fetch near return address
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sub ax,offset DXPMCODE:PMFaultEntryVector+3
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mov cl,3
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div cl ; AX = interrupt number
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shl ax,2 ; AX = vector entry offset
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lea bp,PMIntelVector
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add bp,ax ; BP -> interrupt handler address
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mov ax,[bp] ; AX = IP of handler
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mov cx,[bp+2] ; CX = CS of handler
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;
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; Build a far return frame on user stack, switch to user stack, and return
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;
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sub bx,2
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mov ds:[bx],cx ; push cs
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sub bx,2
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mov ds:[bx],ax ; push ip
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lea bp,Ring0_EH_PEC
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mov ax,Ring0_EH_BP
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sub bx,2
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mov ds:[bx],ax ; push bp
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mov Ring0_EH_PEC,bx ; sp for lss
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mov bx,ds
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mov Ring0_EH_EC,bx ; ss for lss
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pop ds
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pop ax
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pop bx
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pop cx
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.386p
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lss sp,[bp] ; switch stack
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.286p
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pop bp
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retf ; Out of here.
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pmfa_bad_stack:
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if DEBUG
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mov ax,ss
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mov bx,sp
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Trace_Out "Fault Handler Aborting with SS:SP = #AX:#BX"
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pop ax
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sub ax, (offset DXPMCODE:PMFaultEntryVector) + 3
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mov bx,3
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div bl
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Trace_Out "Fault Number #AX"
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pop ax
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pop bx
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pop cx
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pop dx
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Trace_Out "First four stack words: #AX #BX #CX #DX."
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endif
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push selDgroupPM
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push offset DGROUP:rgwStack
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rpushf
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push SEL_DXPMCODE or STD_RING
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push offset DXPMCODE:pmfr_death
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riret
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pmfr_death:
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mov ax,cs
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mov ds,ax
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mov dx,offset szRing0FaultMessage
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pmdossvc 09h
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jmp PMAbort
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PMFaultAnalyzer endp
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FR_Stack Struc
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FR_BP dd ?
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FR_AX dd ?
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FR_BX dd ?
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FR_DS dw ?
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FR_ENTRY dd ? ; SS:[SP] points here on entry
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; to PMReservedReflector
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FR_Toss dd ? ; DPMI return IP
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FR_Ret_IP dd ? ; actual fault handler gets put
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FR_Ret_CS dd ? ; here to return to
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FR_IP dd ?
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FR_CS dd ?
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FR_FL dd ?
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FR_SP dd ?
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FR_SS dd ?
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FR_Stack Ends
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;
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; Alternate names so the structure above makes more sense to
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; PMFaultReflector.
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;
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FR_Handler_IP equ FR_DS
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FR_Handler_CS equ FR_ENTRY
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FR_Handler_Ret_IP equ FR_Toss
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FR_Handler_Ret_CS equ FR_Ret_IP
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FR_Handler_Entry equ FR_Handler_Ret_CS
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FR_EC equ FR_Ret_CS
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; ------------------------------------------------------------------
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; PMFaultReflector -- Dispatch a fault to a fault handler installed
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; in PMFaultVector. When the fault handler returns, return
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; to the faulting code, using the addresses placed on the
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; DPMI fault handler stack by the last called fault handler.
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;
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; Input:
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; Entry is by a NEAR call, with an IP within the range
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; of PMFaultEntryVector on the stack. The stack has been
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; set up for use by a DPMI fault handler.
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;
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; Output:
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; Controlled by fault handler.
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;
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; Uses:
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; Controlled by fault handler.
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;
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; Notes:
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; Fault handlers are called on a static stack. This routine
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; is NOT REENTRANT.
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;
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public PMFaultReflector
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public PMFaultReflectorIRET
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PMFaultReflector proc near
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assume ss:nothing,ds:nothing,es:nothing
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sub sp,6
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push bx
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push eax
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push bp
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mov bp,sp
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push ds
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mov ax,SEL_DXDATA or STD_RING
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mov ds,ax
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assume ds:dgroup
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mov ax,[bp.FR_Handler_Entry]
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sub ax,offset DXPMCODE:PMFaultEntryVector+3
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mov bl,3
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div bl ; AX = interrupt number
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shl ax,3 ; AX = offset of fault handler
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lea bx,PMFaultVector
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add bx,ax ; SS:[BX] -> fault vector entry
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mov eax,word ptr ds:[bx]
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mov [bp.FR_Handler_IP],eax
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mov ax,word ptr ds:[bx+2]
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mov [bp.FR_Handler_CS],ax
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lea ax,pmfr_cleanup
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movzx eax,ax
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mov [bp.FR_Handler_Ret_IP],eax
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push cs
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pop [bp.FR_Handler_Ret_CS]
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pop ds
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assume ds:nothing
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pop bp
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pop ax
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pop bx
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db 066h,0CBh ; This calls the fault handler.
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PMFaultReflectorIRETCall:
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dd (SEL_RZIRET or STD_RING) shl 10h
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pmfr_cleanup:
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;
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; Unwind the fault handler stack. Return to the faulting code.
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; This works by calling a Ring 0 procedure to do the actual IRET.
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; If we do it that way, we can return to the faulting code without
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; actually touching the faulting code's stack.
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;
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PMFaultReflectorIRET:
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; BUGBUG Daveh using user stack this way is less robust!!!
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.386p
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add sp,4 ; pop error code
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push bp
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mov bp,sp
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push ebx
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push ds
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push eax
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mov ax,[bp + 18]
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mov ds,ax
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mov ebx,[bp + 14] ; ds:bx -> user stack
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sub ebx,4
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mov eax,[bp + 10]
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mov ds:[ebx],eax ; push flags
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sub ebx,4
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mov eax,[bp + 4]
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mov ds:[ebx],eax ; push cs
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sub ebx,4
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mov eax,[bp + 2]
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mov ds:[ebx],eax ; push ip
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sub ebx,2
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mov ax,[bp]
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mov ds:[ebx],ax ; push bp
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mov [bp + 8],bx
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pop eax
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pop ds
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pop ebx
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pop bp
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add sp,6 ; point to ss:sp
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mov bp,sp
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lss esp,[bp]
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.286p
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pop bp ; restore bp
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riretd
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endif
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PMFaultReflector endp
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;
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; -------------------------------------------------------
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; PMReservedReflector -- This routine is for reflecting
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; exceptions to a protected mode interrupt handler.
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; The default for exceptions 1, 2, and 3 is to have
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; a near call to this routine placed in the PMFaultVector.
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;
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; This routine strips off the fault handler stack set
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; up by PMFaultAnalyzer, switches to the stack pointed
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; to by the pushed SS and SP values, sets up an IRET
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; frame for use by PMIntrReflector, and jumps to
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; PMIntrReflector. Eventual return is via an IRET
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; from PMIntrReflector.
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;
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; Input:
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; Entry is by a NEAR call, with an IP within the range
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; of PMReservedEntryVector on the stack. The stack has been
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; set up for use by a DPMI fault handler.
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;
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; Output:
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; Switch to stack registers set up by any previous fault
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; handler, jump to PMIntrReflector with an IRET frame set up
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; for direct return to the interrupted code.
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;
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; Errors: none
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;
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; Uses: Modifies SS, SP. Does not return to caller.
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;
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assume ds:NOTHING,es:NOTHING,ss:NOTHING
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public PMReservedReflector
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PMReservedReflector:
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push ds
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push ebx
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push eax
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push ebp
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mov bp,sp
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;
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; BP now points to a stack frame described by the structure
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; above. This will be copied to a stack frame on the stack pointed to
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; by FR_SS:FR_SS. In most cases, the destination stack is actually
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; the same as the present stack, offset by four bytes. The following
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; block of code is therefore very likely an overlapping copy. Think
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; carefully before modifying how it works.
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;
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mov bx,[bp.FR_SS]
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mov ds,bx
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mov ebx,[bp.FR_SP] ; DS:[BX] -> interrupted code's stack
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sub bx, (size FR_Stack) - 8 ; (not copying SP or SS)
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; DS:[BX] -> place to copy our stack frame
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mov eax,[bp.FR_FL] ; Push user IRET frame onto the destination
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mov [ebx.FR_FL],eax ; stack.
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mov eax,[bp.FR_CS]
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mov [ebx.FR_CS],eax
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mov eax,[bp.FR_IP]
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mov [ebx.FR_IP],eax
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mov eax,[bp.FR_ENTRY] ; Copy our caller's near return.
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mov [ebx.FR_ENTRY],eax
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mov ax,[bp.FR_DS] ; Copy saved registers.
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mov [ebx.FR_DS],ax
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mov eax,[bp.FR_BX]
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mov [ebx.FR_BX],eax
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mov eax,[bp.FR_AX]
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mov [ebx.FR_AX],eax
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mov eax,[bp.FR_BP]
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mov [ebx.FR_BP],eax
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mov ax,ds ; Switch to user stack.
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mov ss,ax
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mov esp,ebx
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mov ebp,esp
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mov ax,[ebp.FR_ENTRY] ; AX = offset of caller
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sub ax,offset DXPMCODE:PMReservedEntryVector + 3
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mov bl,3
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div bl ; AX = interrupt number
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shl ax,2 ; AX = offset into PMIntelVector
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mov ds,SelDgroupPM
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assume ds:DGROUP
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lea bx,PMIntelVector
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add bx,ax ; DS:[BX] -> interrupt handler
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mov eax,[bx] ; Place vector entry just below
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mov [ebp.FR_Ret_IP],eax ; IRET frame.
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mov eax,[bx+4]
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mov [ebp.FR_Ret_CS],eax
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lea esp,[ebp.FR_BP] ; Point to saved registers.
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pop ebp ; Pop 'em.
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pop eax
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pop ebx
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pop ds
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add esp,4 ; Fix up stack.
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db 066h,0CBh ; jump to interrupt handler via far return
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DXPMCODE ends
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; -------------------------------------------------------
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subttl Real Mode Interrupt Reflector
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page
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; -------------------------------------------------------
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; REAL MODE INTERRUPT REFLECTOR
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; -------------------------------------------------------
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DXCODE segment
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assume cs:DXCODE
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; -------------------------------------------------------
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; RMIntrEntryVector -- This table contains a vector of
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; near jump instructions to the real mode interrupt
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; reflector. Real mode interrupts that have been hooked
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; by the protected mode application have their vector
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; set to entry the real mode reflector through this table.
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public RMIntrEntryVector
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RMIntrEntryVector:
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rept 256
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call RMIntrReflector
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endm
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; -------------------------------------------------------
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; RMIntrReflector -- This routine is the entry point for
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; the real mode interrupt reflector. This routine
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; is entered when an interrupt occurs (either software
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; or hardware) that has been hooked by the protected mode
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; application. It switches the processor to protected mode
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; and transfers control to the appropriate interrupt
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; service routine for the interrupt. After the interrupt
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; service routine completes, it switches back to real
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; mode and returns control to the originally interrupted
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; real mode code.
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; Entry to this routine comes from the RMIntrEntryVector,
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; which contains a vector of near call instructions, which
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; all call here. The interrupt number is determined from
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; the return address of the near call from the interrupt
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; entry vector.
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; The address of the protected mode interrupt service routine
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; to execute is determined from the protected mode interrupt
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; descriptor tabel and the interrupt number.
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;
|
|
; Input: none
|
|
; Output: none
|
|
; Errors: none
|
|
; Uses: The segment registers are explicitly preserved by
|
|
; this routine. Other registers are as preserved or
|
|
; modified by the interrutp service routine.
|
|
|
|
assume ds:NOTHING,es:NOTHING,ss:NOTHING
|
|
public RMIntrReflector
|
|
|
|
RMIntrReflector:
|
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;
|
|
; On entry, the stack layout is:
|
|
; [6] FLAGS - "
|
|
; [4] CS - "
|
|
; [2] IP - from original interrupt
|
|
; [0] IP - from interrupt entry vector call
|
|
;
|
|
FCLI
|
|
cld
|
|
push ds
|
|
IFDEF ROM
|
|
SetRMDataSeg
|
|
ELSE
|
|
mov ds,selDgroup
|
|
ENDIF
|
|
assume ds:DGROUP
|
|
if DEBUG
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|
;
|
|
; Are we on a DOSX interrupt reflector stack?
|
|
;
|
|
push ax
|
|
push cx
|
|
mov ax,ss
|
|
mov cx,ds
|
|
cmp ax,cx
|
|
pop cx
|
|
jne @F
|
|
|
|
cmp sp,offset bReflStack
|
|
jb @F
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|
cmp sp,offset pbReflStack
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|
jnb @F
|
|
;
|
|
; If so, have we overflowed a stacklet?
|
|
;
|
|
mov ax,pbReflStack
|
|
cmp sp,ax
|
|
ja @F
|
|
add ax,CB_STKFRAME
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|
cmp sp,ax
|
|
jb @F
|
|
pop ax
|
|
Real_Debug_Out "DOSX:RMIntrReflector--Reflector stack overflow."
|
|
push ax
|
|
@@:
|
|
pop ax
|
|
endif ;DEBUG
|
|
mov regUserAX,ax ;save user AX for later
|
|
push bp ;stack -> BP DS IP IP CS FL
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|
mov bp,sp ; [0] [2] [4] [6] [8] [A]
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|
mov ax,[bp+0Ah] ;get the interrupted routine's flags
|
|
and ax,NOT 4100h ;clear the trace flag in case we got
|
|
; an interrupt on an instruction about
|
|
; to be single stepped
|
|
mov regUserFL,ax ;and save for later
|
|
mov ax,es
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|
xchg ax,[bp+4] ;save ES and get entry vector address
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|
pop bp
|
|
|
|
; Some software (like older versions of Smartdrv.sys) may enable A20 on
|
|
; their own, and get very 'suprised' to find it turned off by our PM->RM
|
|
; mode switch. If they used Himem.sys, this wouldn't be necessary, but...
|
|
|
|
if VCPI
|
|
cmp fVCPI,0
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|
jnz @f
|
|
endif
|
|
push ax ;get/save current A20 state on stack
|
|
push bx
|
|
xmssvc 7
|
|
mov regUserSP,ax ;use regUserSP as a temp var
|
|
pop bx
|
|
pop ax
|
|
@@:
|
|
push regUserSP
|
|
|
|
; The state that we want to save on the user's stack has been set up.
|
|
; Convert the entry vector return address into an interrupt number.
|
|
|
|
sub ax,offset RMIntrEntryVector+3
|
|
push cx
|
|
mov cl,3
|
|
div cl
|
|
pop cx
|
|
|
|
if DEBUG
|
|
mov PMIntNo,ax
|
|
endif
|
|
|
|
; Allocate a new stack frame, and then switch to the reflector stack
|
|
; frame.
|
|
|
|
mov regUserSP,sp ;save entry stack pointer so we can
|
|
mov regUSerSS,ss ; switch to our own stack
|
|
IFDEF ROM
|
|
push ds
|
|
pop ss
|
|
ELSE
|
|
mov ss,selDgroup ;switch to the reflector stack frame
|
|
ENDIF
|
|
mov sp,pbReflStack
|
|
push pbReflStack ;save stack frame ptr on stack
|
|
sub pbReflStack,CB_STKFRAME ;adjust pointer to next stack frame
|
|
|
|
; We are now running on our own stack, so we can switch into protected mode.
|
|
|
|
push ax ;save interrupt vector table offset
|
|
SwitchToProtectedMode
|
|
pop ax
|
|
|
|
if DEBUG ;--------------------------------------------------------
|
|
|
|
push 0DEADh ;debugging id & interrupt number
|
|
push PMIntNo
|
|
|
|
cmp fTraceReflect,0
|
|
jz @f
|
|
push ax
|
|
mov ax,PMIntNo
|
|
Trace_Out "(rp#AL)",x
|
|
pop ax
|
|
@@:
|
|
|
|
; Perform a too-late-to-save-us-now-but-we-want-to-know check on the
|
|
; reflector stack.
|
|
|
|
cmp StackGuard,1022h
|
|
jz @f
|
|
Debug_Out "DOSX:RMIntrReflector--Global reflector stack overflow."
|
|
@@:
|
|
endif ;DEBUG ---------------------------------------------------------
|
|
|
|
; Build an IRET frame on the stack so that the protected mode interrupt service
|
|
; routine will return to us when it is finished.
|
|
|
|
push regUserSS ;save user stack address on our own stack
|
|
push regUserSP ; frame so we can restore it later
|
|
push ds
|
|
push regUserFL
|
|
push cs
|
|
push offset rmrf50
|
|
|
|
; Build an IRET frame on the stack to use to transfer control to the
|
|
; protected mode ISR
|
|
|
|
and byte ptr regUserFL+1,not 02h ;use entry flags less the
|
|
push 0 ; high half esp
|
|
push regUserFL ; interrupt flag (IF)
|
|
|
|
xchg bx,ax ;interrupt vector offset to BX, preserve BX
|
|
cmp bx,CRESERVED ;Interrupt in reserved range?
|
|
jc rmrf_reserved
|
|
shl bx,3
|
|
mov es,selIDT
|
|
jmp rmrf_setISR
|
|
rmrf_reserved:
|
|
shl bx,2
|
|
mov es,SelDgroupPM
|
|
add bx,offset DGROUP:PMIntelVector
|
|
rmrf_setISR:
|
|
push dword ptr es:[bx+4] ;push segment of isr
|
|
push dword ptr es:[bx] ;push offset of isr
|
|
xchg bx,ax
|
|
mov ax,regUserAX ;restore entry value of AX
|
|
push ds
|
|
pop es
|
|
|
|
; At this point the interrupt reflector stack looks like this:
|
|
;
|
|
; [18] previous stack frame pointer
|
|
; [16] stack segment of original stack
|
|
; [14] stack pointer of original stack
|
|
; [12] protected mode dos extender data segment
|
|
; [10] dos extender flags
|
|
; [8] segment of return address back to interupt reflector
|
|
; [6] offset of return address back to interrupt reflector
|
|
; [4] user flags as on entry from original interrupt
|
|
; [2] segment of protected mode ISR
|
|
; [0] offset of protected mode ISR
|
|
;
|
|
; Execute the protected mode interrupt service routine
|
|
|
|
iretd
|
|
|
|
; The protected mode ISR will return here after it is finsished.
|
|
|
|
rmrf50: pop ds
|
|
pushf ;save flags as returned by PM Int routine
|
|
|
|
FCLI ;We have to clear interrupts here, because
|
|
cld ; the interrupt routine may have returned
|
|
; with interrupts on and our code that uses
|
|
; static variables must be protected. We
|
|
; turn them off after to pushf instruction so
|
|
; that we can preserve the state of the
|
|
; interrupt flag as returned by the ISR.
|
|
mov regUserAX,ax
|
|
pop ax
|
|
pop regUserSP
|
|
pop regUserSS
|
|
|
|
if DEBUG
|
|
add sp,4 ;'pop' off debugging info
|
|
endif
|
|
|
|
pop pbReflStack ;deallocate stack frame(s)
|
|
|
|
; Switch back to real mode.
|
|
|
|
push ax ;preserve AX
|
|
SwitchToRealMode
|
|
pop ax
|
|
|
|
; Switch back to the original stack.
|
|
|
|
mov ss,regUserSS
|
|
mov sp,regUserSP
|
|
|
|
; Make sure the A20 line matches whatever state it was when the int occured.
|
|
; This is for the benefit of any software that diddles A20 without using
|
|
; an XMS driver
|
|
|
|
pop regUserSP ;A20 state at time of interrupt to temp var
|
|
if VCPI
|
|
cmp fVCPI,0
|
|
jnz rmrf75
|
|
endif
|
|
push ax ;save current ax
|
|
mov ax,regUserSP ;ax = A20 state at time of interrupt
|
|
or ax,ax ;if it was off, don't sweat it
|
|
jz rmrf70
|
|
push bx ;save bx (XMS calls destroy bl)
|
|
push ax
|
|
xmssvc 7 ;ax = current A20 state
|
|
pop bx ;bx = old A20 state
|
|
cmp ax,bx ;if A20 is still on, don't need to diddle
|
|
jz @f
|
|
xmssvc 5 ;force A20 back on
|
|
inc A20EnableCount ; and remember that we did this
|
|
if DEBUG
|
|
or fA20,04h
|
|
endif
|
|
@@:
|
|
pop bx
|
|
rmrf70:
|
|
pop ax
|
|
rmrf75:
|
|
|
|
; Put the flags returned by the real mode interrupt routine back into
|
|
; the caller's stack so that they will be returned properly.
|
|
|
|
push bp ;stack -> BP DS ES IP CS FL
|
|
mov bp,sp ; [0] [2] [4] [6] [8] [10]
|
|
and [bp+10],0300h ;clear all but the interrupt and trace flags
|
|
; in the caller's original flags
|
|
or [bp+10],ax ;combine in the flags returned by the
|
|
; interrupt service routine. This will cause
|
|
; us to return to the original routine with
|
|
; interrupts on if they were on when the
|
|
; interrupt occured, or if the ISR returned
|
|
; with them on.
|
|
pop bp
|
|
|
|
; And return to the original interrupted program.
|
|
|
|
mov ax,regUserAX
|
|
pop ds
|
|
pop es
|
|
iret
|
|
|
|
DXCODE ends
|
|
|
|
WowIntr3216 proc
|
|
|
|
FCLI
|
|
push ebp
|
|
mov ebp,esp
|
|
mov regUserAX,eax
|
|
mov regUserBX,ebx
|
|
mov regUserDS,ds
|
|
mov regUserES,es
|
|
mov regUserFlags,[ebp + 16]
|
|
mov ax,SEL_DXDATA OR STD_RING
|
|
mov ds,ax
|
|
assume ds:dgroup
|
|
mov ebx,esp
|
|
mov regUserSp,eax
|
|
mov ax,ss
|
|
mov regUserSs,ax
|
|
mov bx,pbReflStack ; get pointer to new frame
|
|
sub bpReflStack,CB_STKFRAME
|
|
|
|
;
|
|
; put user stack pointer on new stack
|
|
;
|
|
sub bx,4
|
|
mov [bx],regUserSs
|
|
sub bx,4
|
|
mov [bx],dword ptr regUserSp
|
|
|
|
mov ax,[ebp + 4]
|
|
|
|
;
|
|
; switch to new stack
|
|
;
|
|
|
|
push ds
|
|
pop ss
|
|
movzx esp,bx
|
|
|
|
;
|
|
; Save ss:esp for lss esp
|
|
;
|
|
push regUserSs
|
|
push regUserSp
|
|
;
|
|
; Create an int frame
|
|
;
|
|
pushf
|
|
push cs
|
|
push offset wi30
|
|
|
|
;
|
|
; Put handler address on stack
|
|
;
|
|
|
|
shl ax,3
|
|
mov es,selDgroupPM
|
|
add bx,offset DGROUP:Intr16Vector
|
|
push [bx + 2]
|
|
push [bx]
|
|
|
|
;
|
|
; Restore Registers
|
|
;
|
|
mov eax,regUserAx
|
|
mov ebx,regUserBX
|
|
mov es,regUserES
|
|
mov ds,regUserDS
|
|
assume ds:nothing
|
|
;
|
|
; call handler
|
|
;
|
|
retf
|
|
|
|
wi30:
|
|
;
|
|
; handler will return here
|
|
;
|
|
|
|
;
|
|
; Switch stacks
|
|
;
|
|
mov ebp,esp
|
|
lss esp,[ebp]
|
|
mov ebp,esp
|
|
|
|
push eax
|
|
push ds
|
|
mov ds,SEL_DXDATA OR STD_RING
|
|
assume ds:DGROUP
|
|
|
|
;
|
|
; Deallocate stack frame
|
|
;
|
|
add pbReflStack,CB_STKFRAME
|
|
pop eax
|
|
pop ds
|
|
|
|
;
|
|
; Return flags from int handler
|
|
;
|
|
pushf
|
|
pop [ebp + 16]
|
|
|
|
;
|
|
; Return to interrupted code
|
|
;
|
|
pop ebp
|
|
riretd
|
|
|
|
WowIntr3216 endp
|