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//
// $Id: bugfix.S,v 1.2 2001-09-27 12:01:22 chris Exp $
//
// bugfix.sa 3.2 1/31/91
//
// This file contains workarounds for bugs in the 040
// relating to the Floating-Point Software Package (FPSP)
//
// Fixes for bugs: 1238
//
// Bug: 1238
//
//
// /* The following dirty_bit clear should be left in
// * the handler permanently to improve throughput.
// * The dirty_bits are located at bits [23:16] in
// * longword $08 in the busy frame $4x60. Bit 16
// * corresponds to FP0, bit 17 corresponds to FP1,
// * and so on.
// */
// if (E3_exception_just_serviced) {
// dirty_bit[cmdreg3b[9:7]] = 0;
// }
//
// if (fsave_format_version != $40) {goto NOFIX}
//
// if !(E3_exception_just_serviced) {goto NOFIX}
// if (cupc == 0000000) {goto NOFIX}
// if ((cmdreg1b[15:13] != 000) &&
// (cmdreg1b[15:10] != 010001)) {goto NOFIX}
// if (((cmdreg1b[15:13] != 000) || ((cmdreg1b[12:10] != cmdreg2b[9:7]) &&
// (cmdreg1b[12:10] != cmdreg3b[9:7])) ) &&
// ((cmdreg1b[ 9: 7] != cmdreg2b[9:7]) &&
// (cmdreg1b[ 9: 7] != cmdreg3b[9:7])) ) {goto NOFIX}
//
// /* Note: for 6d43b or 8d43b, you may want to add the following code
// * to get better coverage. (If you do not insert this code, the part
// * won't lock up; it will simply get the wrong answer.)
// * Do NOT insert this code for 10d43b or later parts.
// *
// * if (fpiarcu == integer stack return address) {
// * cupc = 0000000;
// * goto NOFIX;
// * }
// */
//
// if (cmdreg1b[15:13] != 000) {goto FIX_OPCLASS2}
// FIX_OPCLASS0:
// if (((cmdreg1b[12:10] == cmdreg2b[9:7]) ||
// (cmdreg1b[ 9: 7] == cmdreg2b[9:7])) &&
// (cmdreg1b[12:10] != cmdreg3b[9:7]) &&
// (cmdreg1b[ 9: 7] != cmdreg3b[9:7])) { /* xu conflict only */
// /* We execute the following code if there is an
// xu conflict and NOT an nu conflict */
//
// /* first save some values on the fsave frame */
// stag_temp = STAG[fsave_frame];
// cmdreg1b_temp = CMDREG1B[fsave_frame];
// dtag_temp = DTAG[fsave_frame];
// ete15_temp = ETE15[fsave_frame];
//
// CUPC[fsave_frame] = 0000000;
// FRESTORE
// FSAVE
//
// /* If the xu instruction is exceptional, we punt.
// * Otherwise, we would have to include OVFL/UNFL handler
// * code here to get the correct answer.
// */
// if (fsave_frame_format == $4060) {goto KILL_PROCESS}
//
// fsave_frame = /* build a long frame of all zeros */
// fsave_frame_format = $4060; /* label it as long frame */
//
// /* load it with the temps we saved */
// STAG[fsave_frame] = stag_temp;
// CMDREG1B[fsave_frame] = cmdreg1b_temp;
// DTAG[fsave_frame] = dtag_temp;
// ETE15[fsave_frame] = ete15_temp;
//
// /* Make sure that the cmdreg3b dest reg is not going to
// * be destroyed by a FMOVEM at the end of all this code.
// * If it is, you should move the current value of the reg
// * onto the stack so that the reg will loaded with that value.
// */
//
// /* All done. Proceed with the code below */
// }
//
// etemp = FP_reg_[cmdreg1b[12:10]];
// ete15 = ~ete14;
// cmdreg1b[15:10] = 010010;
// clear(bug_flag_procIDxxxx);
// FRESTORE and return;
//
//
// FIX_OPCLASS2:
// if ((cmdreg1b[9:7] == cmdreg2b[9:7]) &&
// (cmdreg1b[9:7] != cmdreg3b[9:7])) { /* xu conflict only */
// /* We execute the following code if there is an
// xu conflict and NOT an nu conflict */
//
// /* first save some values on the fsave frame */
// stag_temp = STAG[fsave_frame];
// cmdreg1b_temp = CMDREG1B[fsave_frame];
// dtag_temp = DTAG[fsave_frame];
// ete15_temp = ETE15[fsave_frame];
// etemp_temp = ETEMP[fsave_frame];
//
// CUPC[fsave_frame] = 0000000;
// FRESTORE
// FSAVE
//
//
// /* If the xu instruction is exceptional, we punt.
// * Otherwise, we would have to include OVFL/UNFL handler
// * code here to get the correct answer.
// */
// if (fsave_frame_format == $4060) {goto KILL_PROCESS}
//
// fsave_frame = /* build a long frame of all zeros */
// fsave_frame_format = $4060; /* label it as long frame */
//
// /* load it with the temps we saved */
// STAG[fsave_frame] = stag_temp;
// CMDREG1B[fsave_frame] = cmdreg1b_temp;
// DTAG[fsave_frame] = dtag_temp;
// ETE15[fsave_frame] = ete15_temp;
// ETEMP[fsave_frame] = etemp_temp;
//
// /* Make sure that the cmdreg3b dest reg is not going to
// * be destroyed by a FMOVEM at the end of all this code.
// * If it is, you should move the current value of the reg
// * onto the stack so that the reg will loaded with that value.
// */
//
// /* All done. Proceed with the code below */
// }
//
// if (etemp_exponent == min_sgl) etemp_exponent = min_dbl;
// if (etemp_exponent == max_sgl) etemp_exponent = max_dbl;
// cmdreg1b[15:10] = 010101;
// clear(bug_flag_procIDxxxx);
// FRESTORE and return;
//
//
// NOFIX:
// clear(bug_flag_procIDxxxx);
// FRESTORE and return;
//
// Copyright (C) Motorola, Inc. 1990
// All Rights Reserved
//
// THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE OF MOTOROLA
// The copyright notice above does not evidence any
// actual or intended publication of such source code.
//BUGFIX idnt 2,1 | Motorola 040 Floating Point Software Package
|section 8
#include "fpsp.defs"
|xref fpsp_fmt_error
.global b1238_fix
b1238_fix:
//
// This code is entered only on completion of the handling of an
// nu-generated ovfl, unfl, or inex exception. If the version
// number of the fsave is not $40, this handler is not necessary.
// Simply branch to fix_done and exit normally.
//
cmpib #VER_40,4(%a7)
bne fix_done
//
// Test for cu_savepc equal to zero. If not, this is not a bug
// #1238 case.
//
moveb CU_SAVEPC(%a6),%d0
andib #0xFE,%d0
beq fix_done //if zero, this is not bug #1238
//
// Test the register conflict aspect. If opclass0, check for
// cu src equal to xu dest or equal to nu dest. If so, go to
// op0. Else, or if opclass2, check for cu dest equal to
// xu dest or equal to nu dest. If so, go to tst_opcl. Else,
// exit, it is not the bug case.
//
// Check for opclass 0. If not, go and check for opclass 2 and sgl.
//
movew CMDREG1B(%a6),%d0
andiw #0xE000,%d0 //strip all but opclass
bne op2sgl //not opclass 0, check op2
//
// Check for cu and nu register conflict. If one exists, this takes
// priority over a cu and xu conflict.
//
bfextu CMDREG1B(%a6){#3:#3},%d0 //get 1st src
bfextu CMDREG3B(%a6){#6:#3},%d1 //get 3rd dest
cmpb %d0,%d1
beqs op0 //if equal, continue bugfix
//
// Check for cu dest equal to nu dest. If so, go and fix the
// bug condition. Otherwise, exit.
//
bfextu CMDREG1B(%a6){#6:#3},%d0 //get 1st dest
cmpb %d0,%d1 //cmp 1st dest with 3rd dest
beqs op0 //if equal, continue bugfix
//
// Check for cu and xu register conflict.
//
bfextu CMDREG2B(%a6){#6:#3},%d1 //get 2nd dest
cmpb %d0,%d1 //cmp 1st dest with 2nd dest
beqs op0_xu //if equal, continue bugfix
bfextu CMDREG1B(%a6){#3:#3},%d0 //get 1st src
cmpb %d0,%d1 //cmp 1st src with 2nd dest
beq op0_xu
bne fix_done //if the reg checks fail, exit
//
// We have the opclass 0 situation.
//
op0:
bfextu CMDREG1B(%a6){#3:#3},%d0 //get source register no
movel #7,%d1
subl %d0,%d1
clrl %d0
bsetl %d1,%d0
fmovemx %d0,ETEMP(%a6) //load source to ETEMP
moveb #0x12,%d0
bfins %d0,CMDREG1B(%a6){#0:#6} //opclass 2, extended
//
// Set ETEMP exponent bit 15 as the opposite of ete14
//
btst #6,ETEMP_EX(%a6) //check etemp exponent bit 14
beq setete15
bclr #etemp15_bit,STAG(%a6)
bra finish
setete15:
bset #etemp15_bit,STAG(%a6)
bra finish
//
// We have the case in which a conflict exists between the cu src or
// dest and the dest of the xu. We must clear the instruction in
// the cu and restore the state, allowing the instruction in the
// xu to complete. Remember, the instruction in the nu
// was exceptional, and was completed by the appropriate handler.
// If the result of the xu instruction is not exceptional, we can
// restore the instruction from the cu to the frame and continue
// processing the original exception. If the result is also
// exceptional, we choose to kill the process.
//
// Items saved from the stack:
//
// $3c stag - L_SCR1
// $40 cmdreg1b - L_SCR2
// $44 dtag - L_SCR3
//
// The cu savepc is set to zero, and the frame is restored to the
// fpu.
//
op0_xu:
movel STAG(%a6),L_SCR1(%a6)
movel CMDREG1B(%a6),L_SCR2(%a6)
movel DTAG(%a6),L_SCR3(%a6)
andil #0xe0000000,L_SCR3(%a6)
moveb #0,CU_SAVEPC(%a6)
movel (%a7)+,%d1 //save return address from bsr
frestore (%a7)+
fsave -(%a7)
//
// Check if the instruction which just completed was exceptional.
//
cmpw #0x4060,(%a7)
beq op0_xb
//
// It is necessary to isolate the result of the instruction in the
// xu if it is to fp0 - fp3 and write that value to the USER_FPn
// locations on the stack. The correct destination register is in
// cmdreg2b.
//
bfextu CMDREG2B(%a6){#6:#3},%d0 //get dest register no
cmpil #3,%d0
bgts op0_xi
beqs op0_fp3
cmpil #1,%d0
blts op0_fp0
beqs op0_fp1
op0_fp2:
fmovemx %fp2-%fp2,USER_FP2(%a6)
bras op0_xi
op0_fp1:
fmovemx %fp1-%fp1,USER_FP1(%a6)
bras op0_xi
op0_fp0:
fmovemx %fp0-%fp0,USER_FP0(%a6)
bras op0_xi
op0_fp3:
fmovemx %fp3-%fp3,USER_FP3(%a6)
//
// The frame returned is idle. We must build a busy frame to hold
// the cu state information and setup etemp.
//
op0_xi:
movel #22,%d0 //clear 23 lwords
clrl (%a7)
op0_loop:
clrl -(%a7)
dbf %d0,op0_loop
movel #0x40600000,-(%a7)
movel L_SCR1(%a6),STAG(%a6)
movel L_SCR2(%a6),CMDREG1B(%a6)
movel L_SCR3(%a6),DTAG(%a6)
moveb #0x6,CU_SAVEPC(%a6)
movel %d1,-(%a7) //return bsr return address
bfextu CMDREG1B(%a6){#3:#3},%d0 //get source register no
movel #7,%d1
subl %d0,%d1
clrl %d0
bsetl %d1,%d0
fmovemx %d0,ETEMP(%a6) //load source to ETEMP
moveb #0x12,%d0
bfins %d0,CMDREG1B(%a6){#0:#6} //opclass 2, extended
//
// Set ETEMP exponent bit 15 as the opposite of ete14
//
btst #6,ETEMP_EX(%a6) //check etemp exponent bit 14
beq op0_sete15
bclr #etemp15_bit,STAG(%a6)
bra finish
op0_sete15:
bset #etemp15_bit,STAG(%a6)
bra finish
//
// The frame returned is busy. It is not possible to reconstruct
// the code sequence to allow completion. We will jump to
// fpsp_fmt_error and allow the kernel to kill the process.
//
op0_xb:
jmp fpsp_fmt_error
//
// Check for opclass 2 and single size. If not both, exit.
//
op2sgl:
movew CMDREG1B(%a6),%d0
andiw #0xFC00,%d0 //strip all but opclass and size
cmpiw #0x4400,%d0 //test for opclass 2 and size=sgl
bne fix_done //if not, it is not bug 1238
//
// Check for cu dest equal to nu dest or equal to xu dest, with
// a cu and nu conflict taking priority an nu conflict. If either,
// go and fix the bug condition. Otherwise, exit.
//
bfextu CMDREG1B(%a6){#6:#3},%d0 //get 1st dest
bfextu CMDREG3B(%a6){#6:#3},%d1 //get 3rd dest
cmpb %d0,%d1 //cmp 1st dest with 3rd dest
beq op2_com //if equal, continue bugfix
bfextu CMDREG2B(%a6){#6:#3},%d1 //get 2nd dest
cmpb %d0,%d1 //cmp 1st dest with 2nd dest
bne fix_done //if the reg checks fail, exit
//
// We have the case in which a conflict exists between the cu src or
// dest and the dest of the xu. We must clear the instruction in
// the cu and restore the state, allowing the instruction in the
// xu to complete. Remember, the instruction in the nu
// was exceptional, and was completed by the appropriate handler.
// If the result of the xu instruction is not exceptional, we can
// restore the instruction from the cu to the frame and continue
// processing the original exception. If the result is also
// exceptional, we choose to kill the process.
//
// Items saved from the stack:
//
// $3c stag - L_SCR1
// $40 cmdreg1b - L_SCR2
// $44 dtag - L_SCR3
// etemp - FP_SCR2
//
// The cu savepc is set to zero, and the frame is restored to the
// fpu.
//
op2_xu:
movel STAG(%a6),L_SCR1(%a6)
movel CMDREG1B(%a6),L_SCR2(%a6)
movel DTAG(%a6),L_SCR3(%a6)
andil #0xe0000000,L_SCR3(%a6)
moveb #0,CU_SAVEPC(%a6)
movel ETEMP(%a6),FP_SCR2(%a6)
movel ETEMP_HI(%a6),FP_SCR2+4(%a6)
movel ETEMP_LO(%a6),FP_SCR2+8(%a6)
movel (%a7)+,%d1 //save return address from bsr
frestore (%a7)+
fsave -(%a7)
//
// Check if the instruction which just completed was exceptional.
//
cmpw #0x4060,(%a7)
beq op2_xb
//
// It is necessary to isolate the result of the instruction in the
// xu if it is to fp0 - fp3 and write that value to the USER_FPn
// locations on the stack. The correct destination register is in
// cmdreg2b.
//
bfextu CMDREG2B(%a6){#6:#3},%d0 //get dest register no
cmpil #3,%d0
bgts op2_xi
beqs op2_fp3
cmpil #1,%d0
blts op2_fp0
beqs op2_fp1
op2_fp2:
fmovemx %fp2-%fp2,USER_FP2(%a6)
bras op2_xi
op2_fp1:
fmovemx %fp1-%fp1,USER_FP1(%a6)
bras op2_xi
op2_fp0:
fmovemx %fp0-%fp0,USER_FP0(%a6)
bras op2_xi
op2_fp3:
fmovemx %fp3-%fp3,USER_FP3(%a6)
//
// The frame returned is idle. We must build a busy frame to hold
// the cu state information and fix up etemp.
//
op2_xi:
movel #22,%d0 //clear 23 lwords
clrl (%a7)
op2_loop:
clrl -(%a7)
dbf %d0,op2_loop
movel #0x40600000,-(%a7)
movel L_SCR1(%a6),STAG(%a6)
movel L_SCR2(%a6),CMDREG1B(%a6)
movel L_SCR3(%a6),DTAG(%a6)
moveb #0x6,CU_SAVEPC(%a6)
movel FP_SCR2(%a6),ETEMP(%a6)
movel FP_SCR2+4(%a6),ETEMP_HI(%a6)
movel FP_SCR2+8(%a6),ETEMP_LO(%a6)
movel %d1,-(%a7)
bra op2_com
//
// We have the opclass 2 single source situation.
//
op2_com:
moveb #0x15,%d0
bfins %d0,CMDREG1B(%a6){#0:#6} //opclass 2, double
cmpw #0x407F,ETEMP_EX(%a6) //single +max
bnes case2
movew #0x43FF,ETEMP_EX(%a6) //to double +max
bra finish
case2:
cmpw #0xC07F,ETEMP_EX(%a6) //single -max
bnes case3
movew #0xC3FF,ETEMP_EX(%a6) //to double -max
bra finish
case3:
cmpw #0x3F80,ETEMP_EX(%a6) //single +min
bnes case4
movew #0x3C00,ETEMP_EX(%a6) //to double +min
bra finish
case4:
cmpw #0xBF80,ETEMP_EX(%a6) //single -min
bne fix_done
movew #0xBC00,ETEMP_EX(%a6) //to double -min
bra finish
//
// The frame returned is busy. It is not possible to reconstruct
// the code sequence to allow completion. fpsp_fmt_error causes
// an fline illegal instruction to be executed.
//
// You should replace the jump to fpsp_fmt_error with a jump
// to the entry point used to kill a process.
//
op2_xb:
jmp fpsp_fmt_error
//
// Enter here if the case is not of the situations affected by
// bug #1238, or if the fix is completed, and exit.
//
finish:
fix_done:
rts
|end
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