; ; ; Copyright (C) Microsoft Corporation, 1987-92 ; ; This Module contains Proprietary Information of Microsoft ; Corporation and should be treated as Confidential. ; title emoem.asm - OEM dependent code for 80x87 ;-------------------------------------------------------------------- ; ; OEM customization routines for 8087/80287/80387 coprocessor ; ; This module is designed to work with the following ; Microsoft language releases: ; ; Microsoft C 3.00 and later ; Microsoft FORTRAN 77 3.30 and later ; Microsoft Pascal 3.30 and later ; ; This module supersedes the OEMR7.ASM module used in earlier ; versions of Microsoft FORTRAN 77 and Pascal. The documentation ; provided with the FORTRAN and Pascal releases refers to the old ; OEMR7.ASM module and is only slightly relevant to this module. ; ; The following routines need to be written to properly handle the ; 8087/80287/80387 installation, termination, and interrupt handler ; ; __FPINSTALL87 install 80x87 interrupt handler ; __FPTERMINATE87 deinstall 80x87 interrupt handler ; __fpintreset reset OEM hardware if an 80x87 interrupt ; ; ***** NEW INSTRUCTIONS ***** ; ; If you want a PC clone version, do nothing. The libraries are ; setup for working on IBM PC's and clones. ; ; These instructions only need to be followed if a non-IBM PC ; clone version is desired. ; ; This module should be assembled with the ; Microsoft Macro Assembler Version 4.00 or later as follows: ; ; masm -DOEM -r emoem.asm; ; ; Most hardware handles the 8087/80287/80387 in one of the following ; three ways - ; ; 1. NMI - IBM PC and clones all handle the interrupt this way ; 2. single 8259 ; 3. master/slave 8259 ; ; Manufacturer specific initialization is supported for these 3 ; machine configurations either by modifying this file and replacing ; the existing EMOEM module in the math libraries or by patching ; the .LIB and .EXE files directly. ; ; LIB 87-+EMOEM; ; LIB EM-+EMOEM; ; ;-------------------------------------------------------------------- ifdef OEM if1 %out OEM version for non-clone support endif endif ;--------------------------------------------------------------------- ; Assembly constants. ;--------------------------------------------------------------------- ; MS-DOS OS calls OPSYS EQU 21H SETVECOP EQU 25H GETVECOP EQU 35H DOSVERSION EQU 30h CTLCVEC EQU 23h EMULATOR_DATA segment para public 'FAR_DATA' assume ds:EMULATOR_DATA ; User may place data here if DS is setup properly. ; Recommend keeping the data items in the code segment. EMULATOR_DATA ends EMULATOR_TEXT segment para public 'CODE' assume cs:EMULATOR_TEXT public __FPINSTALL87 ; DO NOT CHANGE THE CASE ON public __FPTERMINATE87 ; THESE PUBLIC DEFINITIONS extrn __FPEXCEPTION87:near ; DO NOT CHANGE CASE ifdef OEM ;*********************************************************************** ; ; Hardware dependent parameters in the 80x87 exception handler. ; ; For machines using 2 8259's to handle the 80x87 exception, be sure that ; the slave 8259 is the 1st below and the master is the 2nd. ; ; The last 4 fields allow you to enable extra interrupt lines into the ; 8259s. It should only be necessary to use these fields if the 80x87 ; interrupt is being masked out by the 8259 PIC. ; ; The ocw2's (EOI commands) can be either non-specific (20H) or ; specific (6xH where x=0 to 7). If you do not know which interrupt ; request line on the 8259 the 80x87 exception uses, then you should issue ; the non-specific EOI (20H). Interrupts are off at this point in the ; interrupt handler so a higher priority interrupt will not be seen. oeminfo struc oemnum db 0 ; MS-DOS OEM number (IBM is 00h) intnum db 2 ; IBM PC clone interrupt number share db 0 ; nonzero if original vector should be taken a8259 dw 0 ; 1st 8259 (A0=0) port # aocw2 db 0 ; 1st 8259 (A0=0) EOI command b8259 dw 0 ; 2nd 8259 (A0=0) port # bocw2 db 0 ; 2nd 8259 (A0=0) EOI command a8259m dw 0 ; 1st 8259 (A0=1) port # aocw1m db 0 ; 1st 8259 (A0=1) value to mask against IMR b8259m dw 0 ; 2nd 8259 (A0=1) port # bocw1m db 0 ; 2nd 8259 (A0=1) value to mask against IMR oeminfo ends ;----------------------------------------------------------------------- ; OEM specific 80x87 information ; ; If the OEM number returned from the DOS version call matches, ; this information is automatically moved into the oem struc below. oemtab label byte ; Table of OEM specific values for 80x87 ; OEM#, int, shr, a59, acw2,b59, bcw2,a59m,acw1,b59m,bcw1 ;TI Professional Computer TI_prof oeminfo <028h,047h,000h,018h,020h,0000,0000,0000,0000,0000,0000> db 0 ; end of table ; Unique pattern that can be searched for with the debugger so that ; .LIB or .EXE files can be patched with the correct values. ; If new values are patched into .LIB or .EXE files, care must be ; taken in insure the values are correct. In particular, words and ; bytes are intermixed in oeminfo structure. Remember words are ; stored low byte - high byte in memory on the 8086 family. db '<<8087>>' ; older versions used '<8087>' ; Some manufacturer's machines can not be differentiated by the ; OEM number returned by the MS-DOS version check system call. ; For these machines it is necessary to replace the line below oem1 oeminfo <> ; default values for IBM PC & clones ; with one of the following. If your machine has an 80x87 capability ; and it is not in the list below, you should contact your hardware ; manufacturer for the necessary information. ;ACT Apricot ;oem1 oeminfo <000h,055h,000h,000h,020h,000h,000h,000h,000h,000h,000h> ;NEC APC3 and PC-9801 (OEM number returned by NEC MS-DOS's is different) ;oem1 oeminfo <000h,016h,000h,008h,066h,000h,067h,00Ah,0BFh,002h,07Fh> ;--------------------------------------------------------------------- aoldIMR db 0 ; 1st 8259 original IMR value boldIMR db 0 ; 2nd 8259 original IMR value endif ;OEM statwd dw 0 ; Temporary for status word oldvec dd 0 ; Old value in 80x87 exception interrupt vector ctlc dd 0 ; Old value of Control-C vector (INT 23h) page ;--------------------------------------------------------------------- ; ; Perform OEM specific initialization of the 80x87. ; __FPINSTALL87: push ds ; DS = EMULATOR_DATA push cs ; Move current CS to DS for opsys calls. pop ds assume ds:EMULATOR_TEXT ifdef OEM push ds pop es ; CS = DS = ES mov ah,DOSVERSION int OPSYS ; bh = OEM# cld mov si,offset oemtab ; start of OEM 80x87 info table mov di,offset oem1+1 mov cx,(size oem1)-1 OEMloop: lodsb ; get OEM# or al,al jz OEMdone ; OEM# = 0 - did not find OEM cmp al,bh ; correct OEM# je OEMfound add si,cx ; skip over OEM information jmp OEMloop OEMfound: rep movsb ; move the information OEMdone: ; done with automatic customization endif ;OEM ; Save old interrupt vector. ; Ask operating system for vector. ifdef WINDOWS mov ax, word ptr [oldvec] or ax, word ptr [oldvec+2] jnz SetVector endif ;WINDOWS ifdef OEM mov al,[oem1].intnum ; Interrupt vector number. mov ah,GETVECOP ; Operating system call interrupt. else mov ax,GETVECOP shl 8 + 2 ; get interrupt vector 2 endif ;OEM int OPSYS ; Call operating system. mov word ptr [oldvec],bx ; Squirrel away old vector. mov word ptr [oldvec+2],es ; Have operating system install interrupt vectors. SetVector: mov dx,offset __fpinterrupt87 ; Load DX with 80x87 interrupt handler. ifdef OEM mov ah,SETVECOP ; Set interrupt vector code in AH. mov al,[oem1].intnum ; Set vector number. else mov ax,SETVECOP shl 8 + 2 ; set interrupt vector 2 endif ;OEM int OPSYS ; Install vector. ; Intercept Control-C vector to guarentee cleanup mov ax,GETVECOP shl 8 + CTLCVEC int OPSYS mov word ptr [ctlc],bx mov word ptr [ctlc+2],es mov dx,offset ctlcexit mov ax,SETVECOP shl 8 + CTLCVEC int OPSYS ifdef OEM ; set up 8259's so that 80x87 interrupts are enabled mov ah,[oem1].aocw1m ; get mask for 1st 8259 IMR or ah,ah ; if 0, don't need to do this jz installdone ; and only 1 8259 mov dx,[oem1].a8259m ; get port number for 1st 8259 (A0=1) in al,dx ; read old IMR value mov [aoldIMR],al ; save it to restore at termination and al,ah ; mask to enable interrupt jmp short $+2 ; for 286's out dx,al ; write out new mask value mov ah,[oem1].bocw1m ; get mask for 2nd 8259 IMR or ah,ah ; if 0, don't need to do this jz installdone ; mov dx,[oem1].b8259m ; get port number for 2nd 8259 (A0=1) in al,dx ; read old IMR value mov [boldIMR],al ; save it to restore at termination and al,ah ; mask to enable interrupt jmp short $+2 ; for 286's out dx,al ; write out new mask value installdone: endif ;OEM assume ds:EMULATOR_DATA pop ds ret page ; __FPTERMINATE87 ; ; This routine should do the OEM 80x87 cleanup. This routine is called ; before the program exits. ; ; DS = EMULATOR_DATA __FPTERMINATE87: push ds push ax push dx ifdef OEM mov ah,SETVECOP mov al,[oem1].intnum else mov ax,SETVECOP shl 8 + 2 endif ;OEM lds dx,[oldvec] int OPSYS ifdef OEM ; reset 8259 IMR's to original state push cs pop ds ; DS = CS assume ds:EMULATOR_TEXT cmp [oem1].aocw1m,0 ; did we have to change 1st 8259 IMR je term2nd8259 ; no - check 2nd 8259 mov al,[aoldIMR] ; get old IMR mov dx,[oem1].a8259m ; get 1st 8259 (A0=1) port # out dx,al ; restore IMR term2nd8259: cmp [oem1].bocw1m,0 ; did we have to change 2nd 8259 IMR je terminatedone ; no mov al,[boldIMR] ; get old IMR mov dx,[oem1].b8259m ; get 2nd 8259 (A0=1) port # out dx,al ; restore IMR terminatedone: endif ;OEM pop dx pop ax pop ds assume ds:EMULATOR_DATA ret ; Forced cleanup of 80x87 exception handling on Control-C ctlcexit: push ax push dx push ds call __FPTERMINATE87 ; forced cleanup of exception handler lds dx,[ctlc] ; load old control C vector mov ax,SETVECOP shl 8 + CTLCVEC int OPSYS pop ds pop dx pop ax jmp [ctlc] ; go through old vector page ; __fpinterrupt87 ; ; This is the 80x87 exception interrupt routine. ; ; All OEM specific interrupt and harware handling should be done in ; __fpintreset because __FPEXCEPTION87 (the OEM independent 80x87 ; exception handler) may not return. __FPEXCEPTION87 also turns ; interrupts back on. ; PENDINGBIT= 80h ; Bit in status word for interrupt pending __fpinterrupt87: assume ds:nothing nop fnstsw [statwd] ; Store out exceptions push cx ; waste time mov cx,3 self: loop self pop cx test byte ptr [statwd],PENDINGBIT ; Test for 80x87 interrupt jz not87int ; Not an 80x87 interrupt. ifdef OEM call __fpintreset ; OEM interrupt reset routine endif ;OEM call __FPEXCEPTION87 ; 80x87 error handling - may not return ; this routine turns interrupts back on ifdef OEM cmp [oem1].share,0 ; Should we execute the old interrupt routine? jnz not87int ; if so then do it ; else return from interrupt ; If you fall through here to do further hardware resetting, things ; may not always work because __FPEXCEPTION87 does not always return ; This only happens when the 80x87 handler gets an exception that is ; a fatal error in the language runtimes. I.e., divide by zero ; is a fatal error in all the languages, unless the control word has ; set to mask out divide by zero errors. endif ;OEM done8087: iret not87int: jmp [oldvec] ; We should never return from here. ifdef OEM __fpintreset: push ax push dx mov al,[oem1].aocw2 ; Load up EOI instruction. or al,al ; Is there at least one 8259 to be reset? jz Reset8259ret ; no mov dx,[oem1].a8259 out dx,al ; Reset (master) 8259 interrupt controller. mov al,[oem1].bocw2 ; Load up EOI instruction. or al,al ; Is there a slave 8259 to be reset? jz Reset8259ret mov dx,[oem1].b8259 out dx,al ; Reset slave 8259 interrupt controller. Reset8259ret: pop dx pop ax ret endif ;OEM EMULATOR_TEXT ends end