NetBSD/sys/arch/m68k/fpsp/x_operr.sa
2001-09-16 16:34:23 +00:00

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* $NetBSD: x_operr.sa,v 1.5 2001/09/16 16:34:32 wiz Exp $
* MOTOROLA MICROPROCESSOR & MEMORY TECHNOLOGY GROUP
* M68000 Hi-Performance Microprocessor Division
* M68040 Software Package
*
* M68040 Software Package Copyright (c) 1993, 1994 Motorola Inc.
* All rights reserved.
*
* THE SOFTWARE is provided on an "AS IS" basis and without warranty.
* To the maximum extent permitted by applicable law,
* MOTOROLA DISCLAIMS ALL WARRANTIES WHETHER EXPRESS OR IMPLIED,
* INCLUDING IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A
* PARTICULAR PURPOSE and any warranty against infringement with
* regard to the SOFTWARE (INCLUDING ANY MODIFIED VERSIONS THEREOF)
* and any accompanying written materials.
*
* To the maximum extent permitted by applicable law,
* IN NO EVENT SHALL MOTOROLA BE LIABLE FOR ANY DAMAGES WHATSOEVER
* (INCLUDING WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS
* PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION, OR
* OTHER PECUNIARY LOSS) ARISING OF THE USE OR INABILITY TO USE THE
* SOFTWARE. Motorola assumes no responsibility for the maintenance
* and support of the SOFTWARE.
*
* You are hereby granted a copyright license to use, modify, and
* distribute the SOFTWARE so long as this entire notice is retained
* without alteration in any modified and/or redistributed versions,
* and that such modified versions are clearly identified as such.
* No licenses are granted by implication, estoppel or otherwise
* under any patents or trademarks of Motorola, Inc.
*
* x_operr.sa 3.5 7/1/91
*
* fpsp_operr --- FPSP handler for operand error exception
*
* See 68040 User's Manual pp. 9-44f
*
* Note 1: For trap disabled 040 does the following:
* If the dest is a fp reg, then an extended precision non_signaling
* NAN is stored in the dest reg. If the dest format is b, w, or l and
* the source op is a NAN, then garbage is stored as the result (actually
* the upper 32 bits of the mantissa are sent to the integer unit). If
* the dest format is integer (b, w, l) and the operr is caused by
* integer overflow, or the source op is inf, then the result stored is
* garbage.
* There are three cases in which operr is incorrectly signaled on the
* 040. This occurs for move_out of format b, w, or l for the largest
* negative integer (-2^7 for b, -2^15 for w, -2^31 for l).
*
* On opclass = 011 fmove.(b,w,l) that causes a conversion
* overflow -> OPERR, the exponent in wbte (and fpte) is:
* byte 56 - (62 - exp)
* word 48 - (62 - exp)
* long 32 - (62 - exp)
*
* where exp = (true exp) - 1
*
* So, wbtemp and fptemp will contain the following on erroneoulsy
* signalled operr:
* fpts = 1
* fpte = $4000 (15 bit externally)
* byte fptm = $ffffffff ffffff80
* word fptm = $ffffffff ffff8000
* long fptm = $ffffffff 80000000
*
* Note 2: For trap enabled 040 does the following:
* If the inst is move_out, then same as Note 1.
* If the inst is not move_out, the dest is not modified.
* The exceptional operand is not defined for integer overflow
* during a move_out.
*
X_OPERR IDNT 2,1 Motorola 040 Floating Point Software Package
section 8
include fpsp.h
xref mem_write
xref real_operr
xref real_inex
xref get_fline
xref fpsp_done
xref reg_dest
xdef fpsp_operr
fpsp_operr:
*
link a6,#-LOCAL_SIZE
fsave -(a7)
movem.l d0-d1/a0-a1,USER_DA(a6)
fmovem.x fp0-fp3,USER_FP0(a6)
fmovem.l fpcr/fpsr/fpiar,USER_FPCR(a6)
*
* Check if this is an opclass 3 instruction.
* If so, fall through, else branch to operr_end
*
btst.b #TFLAG,T_BYTE(a6)
beq.b operr_end
*
* If the destination size is B,W,or L, the operr must be
* handled here.
*
move.l CMDREG1B(a6),d0
bfextu d0{3:3},d0 ;0=long, 4=word, 6=byte
tst.b d0 ;determine size; check long
beq.w operr_long
cmpi.b #4,d0 ;check word
beq.w operr_word
cmpi.b #6,d0 ;check byte
beq.w operr_byte
*
* The size is not B,W,or L, so the operr is handled by the
* kernel handler. Set the operr bits and clean up, leaving
* only the integer exception frame on the stack, and the
* fpu in the original exceptional state.
*
operr_end:
bset.b #operr_bit,FPSR_EXCEPT(a6)
bset.b #aiop_bit,FPSR_AEXCEPT(a6)
movem.l USER_DA(a6),d0-d1/a0-a1
fmovem.x USER_FP0(a6),fp0-fp3
fmovem.l USER_FPCR(a6),fpcr/fpsr/fpiar
frestore (a7)+
unlk a6
bra.l real_operr
operr_long:
moveq.l #4,d1 ;write size to d1
move.b STAG(a6),d0 ;test stag for nan
andi.b #$e0,d0 ;clr all but tag
cmpi.b #$60,d0 ;check for nan
beq operr_nan
cmpi.l #$80000000,FPTEMP_LO(a6) ;test if ls lword is special
bne.b chklerr ;if not equal, check for incorrect operr
bsr check_upper ;check if exp and ms mant are special
tst.l d0
bne.b chklerr ;if d0 is true, check for incorrect operr
move.l #$80000000,d0 ;store special case result
bsr operr_store
bra.w not_enabled ;clean and exit
*
* CHECK FOR INCORRECTLY GENERATED OPERR EXCEPTION HERE
*
chklerr:
move.w FPTEMP_EX(a6),d0
and.w #$7FFF,d0 ;ignore sign bit
cmp.w #$3FFE,d0 ;this is the only possible exponent value
bne.b chklerr2
fixlong:
move.l FPTEMP_LO(a6),d0
bsr operr_store
bra.w not_enabled
chklerr2:
move.w FPTEMP_EX(a6),d0
and.w #$7FFF,d0 ;ignore sign bit
cmp.w #$4000,d0
bcc.w store_max ;exponent out of range
move.l FPTEMP_LO(a6),d0
and.l #$7FFF0000,d0 ;look for all 1's on bits 30-16
cmp.l #$7FFF0000,d0
beq.b fixlong
tst.l FPTEMP_LO(a6)
bpl.b chklepos
cmp.l #$FFFFFFFF,FPTEMP_HI(a6)
beq.b fixlong
bra.w store_max
chklepos:
tst.l FPTEMP_HI(a6)
beq.b fixlong
bra.w store_max
operr_word:
moveq.l #2,d1 ;write size to d1
move.b STAG(a6),d0 ;test stag for nan
andi.b #$e0,d0 ;clr all but tag
cmpi.b #$60,d0 ;check for nan
beq.w operr_nan
cmpi.l #$ffff8000,FPTEMP_LO(a6) ;test if ls lword is special
bne.b chkwerr ;if not equal, check for incorrect operr
bsr check_upper ;check if exp and ms mant are special
tst.l d0
bne.b chkwerr ;if d0 is true, check for incorrect operr
move.l #$80000000,d0 ;store special case result
bsr operr_store
bra.w not_enabled ;clean and exit
*
* CHECK FOR INCORRECTLY GENERATED OPERR EXCEPTION HERE
*
chkwerr:
move.w FPTEMP_EX(a6),d0
and.w #$7FFF,d0 ;ignore sign bit
cmp.w #$3FFE,d0 ;this is the only possible exponent value
bne.b store_max
move.l FPTEMP_LO(a6),d0
swap d0
bsr operr_store
bra.w not_enabled
operr_byte:
moveq.l #1,d1 ;write size to d1
move.b STAG(a6),d0 ;test stag for nan
andi.b #$e0,d0 ;clr all but tag
cmpi.b #$60,d0 ;check for nan
beq.b operr_nan
cmpi.l #$ffffff80,FPTEMP_LO(a6) ;test if ls lword is special
bne.b chkberr ;if not equal, check for incorrect operr
bsr check_upper ;check if exp and ms mant are special
tst.l d0
bne.b chkberr ;if d0 is true, check for incorrect operr
move.l #$80000000,d0 ;store special case result
bsr operr_store
bra.w not_enabled ;clean and exit
*
* CHECK FOR INCORRECTLY GENERATED OPERR EXCEPTION HERE
*
chkberr:
move.w FPTEMP_EX(a6),d0
and.w #$7FFF,d0 ;ignore sign bit
cmp.w #$3FFE,d0 ;this is the only possible exponent value
bne.b store_max
move.l FPTEMP_LO(a6),d0
asl.l #8,d0
swap d0
bsr operr_store
bra.w not_enabled
*
* This operr condition is not of the special case. Set operr
* and aiop and write the portion of the nan to memory for the
* given size.
*
operr_nan:
or.l #opaop_mask,USER_FPSR(a6) ;set operr & aiop
move.l ETEMP_HI(a6),d0 ;output will be from upper 32 bits
bsr operr_store
bra end_operr
*
* Store_max loads the max pos or negative for the size, sets
* the operr and aiop bits, and clears inex and ainex, incorrectly
* set by the 040.
*
store_max:
or.l #opaop_mask,USER_FPSR(a6) ;set operr & aiop
bclr.b #inex2_bit,FPSR_EXCEPT(a6)
bclr.b #ainex_bit,FPSR_AEXCEPT(a6)
fmove.l #0,FPSR
tst.w FPTEMP_EX(a6) ;check sign
blt.b load_neg
move.l #$7fffffff,d0
bsr operr_store
bra end_operr
load_neg:
move.l #$80000000,d0
bsr operr_store
bra end_operr
*
* This routine stores the data in d0, for the given size in d1,
* to memory or data register as required. A read of the fline
* is required to determine the destination.
*
operr_store:
move.l d0,L_SCR1(a6) ;move write data to L_SCR1
move.l d1,-(a7) ;save register size
bsr.l get_fline ;fline returned in d0
move.l (a7)+,d1
bftst d0{26:3} ;if mode is zero, dest is Dn
bne.b dest_mem
*
* Destination is Dn. Get register number from d0. Data is on
* the stack at (a7). D1 has size: 1=byte,2=word,4=long/single
*
andi.l #7,d0 ;isolate register number
cmpi.l #4,d1
beq.b op_long ;the most frequent case
cmpi.l #2,d1
bne.b op_con
or.l #8,d0
bra.b op_con
op_long:
or.l #$10,d0
op_con:
move.l d0,d1 ;format size:reg for reg_dest
bra.l reg_dest ;call to reg_dest returns to caller
* ;of operr_store
*
* Destination is memory. Get <ea> from integer exception frame
* and call mem_write.
*
dest_mem:
lea.l L_SCR1(a6),a0 ;put ptr to write data in a0
move.l EXC_EA(a6),a1 ;put user destination address in a1
move.l d1,d0 ;put size in d0
bsr.l mem_write
rts
*
* Check the exponent for $c000 and the upper 32 bits of the
* mantissa for $ffffffff. If both are true, return d0 clr
* and store the lower n bits of the least lword of FPTEMP
* to d0 for write out. If not, it is a real operr, and set d0.
*
check_upper:
cmpi.l #$ffffffff,FPTEMP_HI(a6) ;check if first byte is all 1's
bne.b true_operr ;if not all 1's then was true operr
cmpi.w #$c000,FPTEMP_EX(a6) ;check if incorrectly signalled
beq.b not_true_operr ;branch if not true operr
cmpi.w #$bfff,FPTEMP_EX(a6) ;check if incorrectly signalled
beq.b not_true_operr ;branch if not true operr
true_operr:
move.l #1,d0 ;signal real operr
rts
not_true_operr:
clr.l d0 ;signal no real operr
rts
*
* End_operr tests for operr enabled. If not, it cleans up the stack
* and does an rte. If enabled, it cleans up the stack and branches
* to the kernel operr handler with only the integer exception
* frame on the stack and the fpu in the original exceptional state
* with correct data written to the destination.
*
end_operr:
btst.b #operr_bit,FPCR_ENABLE(a6)
beq.b not_enabled
enabled:
movem.l USER_DA(a6),d0-d1/a0-a1
fmovem.x USER_FP0(a6),fp0-fp3
fmovem.l USER_FPCR(a6),fpcr/fpsr/fpiar
frestore (a7)+
unlk a6
bra.l real_operr
not_enabled:
*
* It is possible to have either inex2 or inex1 exceptions with the
* operr. If the inex enable bit is set in the FPCR, and either
* inex2 or inex1 occurred, we must clean up and branch to the
* real inex handler.
*
ck_inex:
move.b FPCR_ENABLE(a6),d0
and.b FPSR_EXCEPT(a6),d0
andi.b #$3,d0
beq.w operr_exit
*
* Inexact enabled and reported, and we must take an inexact exception.
*
take_inex:
move.b #INEX_VEC,EXC_VEC+1(a6)
move.l USER_FPSR(a6),FPSR_SHADOW(a6)
or.l #sx_mask,E_BYTE(a6)
movem.l USER_DA(a6),d0-d1/a0-a1
fmovem.x USER_FP0(a6),fp0-fp3
fmovem.l USER_FPCR(a6),fpcr/fpsr/fpiar
frestore (a7)+
unlk a6
bra.l real_inex
*
* Since operr is only an E1 exception, there is no need to frestore
* any state back to the fpu.
*
operr_exit:
movem.l USER_DA(a6),d0-d1/a0-a1
fmovem.x USER_FP0(a6),fp0-fp3
fmovem.l USER_FPCR(a6),fpcr/fpsr/fpiar
unlk a6
bra.l fpsp_done
end