dockerfile/examples/openssl/openssl-3.2.1-src/crypto/bn/asm/mips.pl

2270 lines
48 KiB
Perl
Raw Normal View History

2024-03-22 14:58:37 +08:00
#! /usr/bin/env perl
# Copyright 2010-2020 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the Apache License 2.0 (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
#
# ====================================================================
# Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
# project.
#
# Rights for redistribution and usage in source and binary forms are
# granted according to the License. Warranty of any kind is disclaimed.
# ====================================================================
# July 1999
#
# This is drop-in MIPS III/IV ISA replacement for crypto/bn/bn_asm.c.
#
# The module is designed to work with either of the "new" MIPS ABI(5),
# namely N32 or N64, offered by IRIX 6.x. It's not meant to work under
# IRIX 5.x not only because it doesn't support new ABIs but also
# because 5.x kernels put R4x00 CPU into 32-bit mode and all those
# 64-bit instructions (daddu, dmultu, etc.) found below gonna only
# cause illegal instruction exception:-(
#
# In addition the code depends on preprocessor flags set up by MIPSpro
# compiler driver (either as or cc) and therefore (probably?) can't be
# compiled by the GNU assembler. GNU C driver manages fine though...
# I mean as long as -mmips-as is specified or is the default option,
# because then it simply invokes /usr/bin/as which in turn takes
# perfect care of the preprocessor definitions. Another neat feature
# offered by the MIPSpro assembler is an optimization pass. This gave
# me the opportunity to have the code looking more regular as all those
# architecture dependent instruction rescheduling details were left to
# the assembler. Cool, huh?
#
# Performance improvement is astonishing! 'apps/openssl speed rsa dsa'
# goes way over 3 times faster!
#
# <appro@openssl.org>
# October 2010
#
# Adapt the module even for 32-bit ABIs and other OSes. The former was
# achieved by mechanical replacement of 64-bit arithmetic instructions
# such as dmultu, daddu, etc. with their 32-bit counterparts and
# adjusting offsets denoting multiples of BN_ULONG. Above mentioned
# >3x performance improvement naturally does not apply to 32-bit code
# [because there is no instruction 32-bit compiler can't use], one
# has to content with 40-85% improvement depending on benchmark and
# key length, more for longer keys.
# $output is the last argument if it looks like a file (it has an extension)
# $flavour is the first argument if it doesn't look like a file
$output = $#ARGV >= 0 && $ARGV[$#ARGV] =~ m|\.\w+$| ? pop : undef;
$flavour = $#ARGV >= 0 && $ARGV[0] !~ m|\.| ? shift : "o32";
if ($flavour =~ /64|n32/i) {
$LD="ld";
$ST="sd";
$MULTU="dmultu";
$DIVU="ddivu";
$ADDU="daddu";
$SUBU="dsubu";
$SRL="dsrl";
$SLL="dsll";
$BNSZ=8;
$PTR_ADD="daddu";
$PTR_SUB="dsubu";
$SZREG=8;
$REG_S="sd";
$REG_L="ld";
} else {
$LD="lw";
$ST="sw";
$MULTU="multu";
$DIVU="divu";
$ADDU="addu";
$SUBU="subu";
$SRL="srl";
$SLL="sll";
$BNSZ=4;
$PTR_ADD="addu";
$PTR_SUB="subu";
$SZREG=4;
$REG_S="sw";
$REG_L="lw";
$code="#if !(defined (__mips_isa_rev) && (__mips_isa_rev >= 6))\n.set mips2\n#endif\n";
}
$output and open STDOUT,">$output";
# Below is N32/64 register layout used in the original module.
#
($zero,$at,$v0,$v1)=map("\$$_",(0..3));
($a0,$a1,$a2,$a3,$a4,$a5,$a6,$a7)=map("\$$_",(4..11));
($t0,$t1,$t2,$t3,$t8,$t9)=map("\$$_",(12..15,24,25));
($s0,$s1,$s2,$s3,$s4,$s5,$s6,$s7)=map("\$$_",(16..23));
($gp,$sp,$fp,$ra)=map("\$$_",(28..31));
($ta0,$ta1,$ta2,$ta3)=($a4,$a5,$a6,$a7);
#
# No special adaptation is required for O32. NUBI on the other hand
# is treated by saving/restoring ($v1,$t0..$t3).
$gp=$v1 if ($flavour =~ /nubi/i);
$minus4=$v1;
$code.=<<___;
#include "mips_arch.h"
#if defined(_MIPS_ARCH_MIPS64R6)
# define ddivu(rs,rt)
# define mfqt(rd,rs,rt) ddivu rd,rs,rt
# define mfrm(rd,rs,rt) dmodu rd,rs,rt
#elif defined(_MIPS_ARCH_MIPS32R6)
# define divu(rs,rt)
# define mfqt(rd,rs,rt) divu rd,rs,rt
# define mfrm(rd,rs,rt) modu rd,rs,rt
#else
# define $DIVU(rs,rt) $DIVU $zero,rs,rt
# define mfqt(rd,rs,rt) mflo rd
# define mfrm(rd,rs,rt) mfhi rd
#endif
.rdata
.asciiz "mips3.s, Version 1.2"
.asciiz "MIPS II/III/IV ISA artwork by Andy Polyakov <appro\@fy.chalmers.se>"
.text
.set noat
.align 5
.globl bn_mul_add_words
.ent bn_mul_add_words
bn_mul_add_words:
.set noreorder
bgtz $a2,bn_mul_add_words_internal
move $v0,$zero
jr $ra
move $a0,$v0
.end bn_mul_add_words
.align 5
.ent bn_mul_add_words_internal
bn_mul_add_words_internal:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
li $minus4,-4
and $ta0,$a2,$minus4
beqz $ta0,.L_bn_mul_add_words_tail
.L_bn_mul_add_words_loop:
$LD $t0,0($a1)
$MULTU ($t0,$a3)
$LD $t1,0($a0)
$LD $t2,$BNSZ($a1)
$LD $t3,$BNSZ($a0)
$LD $ta0,2*$BNSZ($a1)
$LD $ta1,2*$BNSZ($a0)
$ADDU $t1,$v0
sltu $v0,$t1,$v0 # All manuals say it "compares 32-bit
# values", but it seems to work fine
# even on 64-bit registers.
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $t1,$at
$ADDU $v0,$t0
$MULTU ($t2,$a3)
sltu $at,$t1,$at
$ST $t1,0($a0)
$ADDU $v0,$at
$LD $ta2,3*$BNSZ($a1)
$LD $ta3,3*$BNSZ($a0)
$ADDU $t3,$v0
sltu $v0,$t3,$v0
mflo ($at,$t2,$a3)
mfhi ($t2,$t2,$a3)
$ADDU $t3,$at
$ADDU $v0,$t2
$MULTU ($ta0,$a3)
sltu $at,$t3,$at
$ST $t3,$BNSZ($a0)
$ADDU $v0,$at
subu $a2,4
$PTR_ADD $a0,4*$BNSZ
$PTR_ADD $a1,4*$BNSZ
$ADDU $ta1,$v0
sltu $v0,$ta1,$v0
mflo ($at,$ta0,$a3)
mfhi ($ta0,$ta0,$a3)
$ADDU $ta1,$at
$ADDU $v0,$ta0
$MULTU ($ta2,$a3)
sltu $at,$ta1,$at
$ST $ta1,-2*$BNSZ($a0)
$ADDU $v0,$at
and $ta0,$a2,$minus4
$ADDU $ta3,$v0
sltu $v0,$ta3,$v0
mflo ($at,$ta2,$a3)
mfhi ($ta2,$ta2,$a3)
$ADDU $ta3,$at
$ADDU $v0,$ta2
sltu $at,$ta3,$at
$ST $ta3,-$BNSZ($a0)
.set noreorder
bgtz $ta0,.L_bn_mul_add_words_loop
$ADDU $v0,$at
beqz $a2,.L_bn_mul_add_words_return
nop
.L_bn_mul_add_words_tail:
.set reorder
$LD $t0,0($a1)
$MULTU ($t0,$a3)
$LD $t1,0($a0)
subu $a2,1
$ADDU $t1,$v0
sltu $v0,$t1,$v0
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $t1,$at
$ADDU $v0,$t0
sltu $at,$t1,$at
$ST $t1,0($a0)
$ADDU $v0,$at
beqz $a2,.L_bn_mul_add_words_return
$LD $t0,$BNSZ($a1)
$MULTU ($t0,$a3)
$LD $t1,$BNSZ($a0)
subu $a2,1
$ADDU $t1,$v0
sltu $v0,$t1,$v0
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $t1,$at
$ADDU $v0,$t0
sltu $at,$t1,$at
$ST $t1,$BNSZ($a0)
$ADDU $v0,$at
beqz $a2,.L_bn_mul_add_words_return
$LD $t0,2*$BNSZ($a1)
$MULTU ($t0,$a3)
$LD $t1,2*$BNSZ($a0)
$ADDU $t1,$v0
sltu $v0,$t1,$v0
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $t1,$at
$ADDU $v0,$t0
sltu $at,$t1,$at
$ST $t1,2*$BNSZ($a0)
$ADDU $v0,$at
.L_bn_mul_add_words_return:
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
move $a0,$v0
.end bn_mul_add_words_internal
.align 5
.globl bn_mul_words
.ent bn_mul_words
bn_mul_words:
.set noreorder
bgtz $a2,bn_mul_words_internal
move $v0,$zero
jr $ra
move $a0,$v0
.end bn_mul_words
.align 5
.ent bn_mul_words_internal
bn_mul_words_internal:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
li $minus4,-4
and $ta0,$a2,$minus4
beqz $ta0,.L_bn_mul_words_tail
.L_bn_mul_words_loop:
$LD $t0,0($a1)
$MULTU ($t0,$a3)
$LD $t2,$BNSZ($a1)
$LD $ta0,2*$BNSZ($a1)
$LD $ta2,3*$BNSZ($a1)
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $v0,$at
sltu $t1,$v0,$at
$MULTU ($t2,$a3)
$ST $v0,0($a0)
$ADDU $v0,$t1,$t0
subu $a2,4
$PTR_ADD $a0,4*$BNSZ
$PTR_ADD $a1,4*$BNSZ
mflo ($at,$t2,$a3)
mfhi ($t2,$t2,$a3)
$ADDU $v0,$at
sltu $t3,$v0,$at
$MULTU ($ta0,$a3)
$ST $v0,-3*$BNSZ($a0)
$ADDU $v0,$t3,$t2
mflo ($at,$ta0,$a3)
mfhi ($ta0,$ta0,$a3)
$ADDU $v0,$at
sltu $ta1,$v0,$at
$MULTU ($ta2,$a3)
$ST $v0,-2*$BNSZ($a0)
$ADDU $v0,$ta1,$ta0
and $ta0,$a2,$minus4
mflo ($at,$ta2,$a3)
mfhi ($ta2,$ta2,$a3)
$ADDU $v0,$at
sltu $ta3,$v0,$at
$ST $v0,-$BNSZ($a0)
.set noreorder
bgtz $ta0,.L_bn_mul_words_loop
$ADDU $v0,$ta3,$ta2
beqz $a2,.L_bn_mul_words_return
nop
.L_bn_mul_words_tail:
.set reorder
$LD $t0,0($a1)
$MULTU ($t0,$a3)
subu $a2,1
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $v0,$at
sltu $t1,$v0,$at
$ST $v0,0($a0)
$ADDU $v0,$t1,$t0
beqz $a2,.L_bn_mul_words_return
$LD $t0,$BNSZ($a1)
$MULTU ($t0,$a3)
subu $a2,1
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $v0,$at
sltu $t1,$v0,$at
$ST $v0,$BNSZ($a0)
$ADDU $v0,$t1,$t0
beqz $a2,.L_bn_mul_words_return
$LD $t0,2*$BNSZ($a1)
$MULTU ($t0,$a3)
mflo ($at,$t0,$a3)
mfhi ($t0,$t0,$a3)
$ADDU $v0,$at
sltu $t1,$v0,$at
$ST $v0,2*$BNSZ($a0)
$ADDU $v0,$t1,$t0
.L_bn_mul_words_return:
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
move $a0,$v0
.end bn_mul_words_internal
.align 5
.globl bn_sqr_words
.ent bn_sqr_words
bn_sqr_words:
.set noreorder
bgtz $a2,bn_sqr_words_internal
move $v0,$zero
jr $ra
move $a0,$v0
.end bn_sqr_words
.align 5
.ent bn_sqr_words_internal
bn_sqr_words_internal:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
li $minus4,-4
and $ta0,$a2,$minus4
beqz $ta0,.L_bn_sqr_words_tail
.L_bn_sqr_words_loop:
$LD $t0,0($a1)
$MULTU ($t0,$t0)
$LD $t2,$BNSZ($a1)
$LD $ta0,2*$BNSZ($a1)
$LD $ta2,3*$BNSZ($a1)
mflo ($t1,$t0,$t0)
mfhi ($t0,$t0,$t0)
$ST $t1,0($a0)
$ST $t0,$BNSZ($a0)
$MULTU ($t2,$t2)
subu $a2,4
$PTR_ADD $a0,8*$BNSZ
$PTR_ADD $a1,4*$BNSZ
mflo ($t3,$t2,$t2)
mfhi ($t2,$t2,$t2)
$ST $t3,-6*$BNSZ($a0)
$ST $t2,-5*$BNSZ($a0)
$MULTU ($ta0,$ta0)
mflo ($ta1,$ta0,$ta0)
mfhi ($ta0,$ta0,$ta0)
$ST $ta1,-4*$BNSZ($a0)
$ST $ta0,-3*$BNSZ($a0)
$MULTU ($ta2,$ta2)
and $ta0,$a2,$minus4
mflo ($ta3,$ta2,$ta2)
mfhi ($ta2,$ta2,$ta2)
$ST $ta3,-2*$BNSZ($a0)
.set noreorder
bgtz $ta0,.L_bn_sqr_words_loop
$ST $ta2,-$BNSZ($a0)
beqz $a2,.L_bn_sqr_words_return
nop
.L_bn_sqr_words_tail:
.set reorder
$LD $t0,0($a1)
$MULTU ($t0,$t0)
subu $a2,1
mflo ($t1,$t0,$t0)
mfhi ($t0,$t0,$t0)
$ST $t1,0($a0)
$ST $t0,$BNSZ($a0)
beqz $a2,.L_bn_sqr_words_return
$LD $t0,$BNSZ($a1)
$MULTU ($t0,$t0)
subu $a2,1
mflo ($t1,$t0,$t0)
mfhi ($t0,$t0,$t0)
$ST $t1,2*$BNSZ($a0)
$ST $t0,3*$BNSZ($a0)
beqz $a2,.L_bn_sqr_words_return
$LD $t0,2*$BNSZ($a1)
$MULTU ($t0,$t0)
mflo ($t1,$t0,$t0)
mfhi ($t0,$t0,$t0)
$ST $t1,4*$BNSZ($a0)
$ST $t0,5*$BNSZ($a0)
.L_bn_sqr_words_return:
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
move $a0,$v0
.end bn_sqr_words_internal
.align 5
.globl bn_add_words
.ent bn_add_words
bn_add_words:
.set noreorder
bgtz $a3,bn_add_words_internal
move $v0,$zero
jr $ra
move $a0,$v0
.end bn_add_words
.align 5
.ent bn_add_words_internal
bn_add_words_internal:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
li $minus4,-4
and $at,$a3,$minus4
beqz $at,.L_bn_add_words_tail
.L_bn_add_words_loop:
$LD $t0,0($a1)
$LD $ta0,0($a2)
subu $a3,4
$LD $t1,$BNSZ($a1)
and $at,$a3,$minus4
$LD $t2,2*$BNSZ($a1)
$PTR_ADD $a2,4*$BNSZ
$LD $t3,3*$BNSZ($a1)
$PTR_ADD $a0,4*$BNSZ
$LD $ta1,-3*$BNSZ($a2)
$PTR_ADD $a1,4*$BNSZ
$LD $ta2,-2*$BNSZ($a2)
$LD $ta3,-$BNSZ($a2)
$ADDU $ta0,$t0
sltu $t8,$ta0,$t0
$ADDU $t0,$ta0,$v0
sltu $v0,$t0,$ta0
$ST $t0,-4*$BNSZ($a0)
$ADDU $v0,$t8
$ADDU $ta1,$t1
sltu $t9,$ta1,$t1
$ADDU $t1,$ta1,$v0
sltu $v0,$t1,$ta1
$ST $t1,-3*$BNSZ($a0)
$ADDU $v0,$t9
$ADDU $ta2,$t2
sltu $t8,$ta2,$t2
$ADDU $t2,$ta2,$v0
sltu $v0,$t2,$ta2
$ST $t2,-2*$BNSZ($a0)
$ADDU $v0,$t8
$ADDU $ta3,$t3
sltu $t9,$ta3,$t3
$ADDU $t3,$ta3,$v0
sltu $v0,$t3,$ta3
$ST $t3,-$BNSZ($a0)
.set noreorder
bgtz $at,.L_bn_add_words_loop
$ADDU $v0,$t9
beqz $a3,.L_bn_add_words_return
nop
.L_bn_add_words_tail:
.set reorder
$LD $t0,0($a1)
$LD $ta0,0($a2)
$ADDU $ta0,$t0
subu $a3,1
sltu $t8,$ta0,$t0
$ADDU $t0,$ta0,$v0
sltu $v0,$t0,$ta0
$ST $t0,0($a0)
$ADDU $v0,$t8
beqz $a3,.L_bn_add_words_return
$LD $t1,$BNSZ($a1)
$LD $ta1,$BNSZ($a2)
$ADDU $ta1,$t1
subu $a3,1
sltu $t9,$ta1,$t1
$ADDU $t1,$ta1,$v0
sltu $v0,$t1,$ta1
$ST $t1,$BNSZ($a0)
$ADDU $v0,$t9
beqz $a3,.L_bn_add_words_return
$LD $t2,2*$BNSZ($a1)
$LD $ta2,2*$BNSZ($a2)
$ADDU $ta2,$t2
sltu $t8,$ta2,$t2
$ADDU $t2,$ta2,$v0
sltu $v0,$t2,$ta2
$ST $t2,2*$BNSZ($a0)
$ADDU $v0,$t8
.L_bn_add_words_return:
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
move $a0,$v0
.end bn_add_words_internal
.align 5
.globl bn_sub_words
.ent bn_sub_words
bn_sub_words:
.set noreorder
bgtz $a3,bn_sub_words_internal
move $v0,$zero
jr $ra
move $a0,$zero
.end bn_sub_words
.align 5
.ent bn_sub_words_internal
bn_sub_words_internal:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
li $minus4,-4
and $at,$a3,$minus4
beqz $at,.L_bn_sub_words_tail
.L_bn_sub_words_loop:
$LD $t0,0($a1)
$LD $ta0,0($a2)
subu $a3,4
$LD $t1,$BNSZ($a1)
and $at,$a3,$minus4
$LD $t2,2*$BNSZ($a1)
$PTR_ADD $a2,4*$BNSZ
$LD $t3,3*$BNSZ($a1)
$PTR_ADD $a0,4*$BNSZ
$LD $ta1,-3*$BNSZ($a2)
$PTR_ADD $a1,4*$BNSZ
$LD $ta2,-2*$BNSZ($a2)
$LD $ta3,-$BNSZ($a2)
sltu $t8,$t0,$ta0
$SUBU $ta0,$t0,$ta0
$SUBU $t0,$ta0,$v0
sgtu $v0,$t0,$ta0
$ST $t0,-4*$BNSZ($a0)
$ADDU $v0,$t8
sltu $t9,$t1,$ta1
$SUBU $ta1,$t1,$ta1
$SUBU $t1,$ta1,$v0
sgtu $v0,$t1,$ta1
$ST $t1,-3*$BNSZ($a0)
$ADDU $v0,$t9
sltu $t8,$t2,$ta2
$SUBU $ta2,$t2,$ta2
$SUBU $t2,$ta2,$v0
sgtu $v0,$t2,$ta2
$ST $t2,-2*$BNSZ($a0)
$ADDU $v0,$t8
sltu $t9,$t3,$ta3
$SUBU $ta3,$t3,$ta3
$SUBU $t3,$ta3,$v0
sgtu $v0,$t3,$ta3
$ST $t3,-$BNSZ($a0)
.set noreorder
bgtz $at,.L_bn_sub_words_loop
$ADDU $v0,$t9
beqz $a3,.L_bn_sub_words_return
nop
.L_bn_sub_words_tail:
.set reorder
$LD $t0,0($a1)
$LD $ta0,0($a2)
subu $a3,1
sltu $t8,$t0,$ta0
$SUBU $ta0,$t0,$ta0
$SUBU $t0,$ta0,$v0
sgtu $v0,$t0,$ta0
$ST $t0,0($a0)
$ADDU $v0,$t8
beqz $a3,.L_bn_sub_words_return
$LD $t1,$BNSZ($a1)
subu $a3,1
$LD $ta1,$BNSZ($a2)
sltu $t9,$t1,$ta1
$SUBU $ta1,$t1,$ta1
$SUBU $t1,$ta1,$v0
sgtu $v0,$t1,$ta1
$ST $t1,$BNSZ($a0)
$ADDU $v0,$t9
beqz $a3,.L_bn_sub_words_return
$LD $t2,2*$BNSZ($a1)
$LD $ta2,2*$BNSZ($a2)
sltu $t8,$t2,$ta2
$SUBU $ta2,$t2,$ta2
$SUBU $t2,$ta2,$v0
sgtu $v0,$t2,$ta2
$ST $t2,2*$BNSZ($a0)
$ADDU $v0,$t8
.L_bn_sub_words_return:
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
move $a0,$v0
.end bn_sub_words_internal
#if 0
/*
* The bn_div_3_words entry point is re-used for constant-time interface.
* Implementation is retained as historical reference.
*/
.align 5
.globl bn_div_3_words
.ent bn_div_3_words
bn_div_3_words:
.set noreorder
move $a3,$a0 # we know that bn_div_words does not
# touch $a3, $ta2, $ta3 and preserves $a2
# so that we can save two arguments
# and return address in registers
# instead of stack:-)
$LD $a0,($a3)
move $ta2,$a1
bne $a0,$a2,bn_div_3_words_internal
$LD $a1,-$BNSZ($a3)
li $v0,-1
jr $ra
move $a0,$v0
.end bn_div_3_words
.align 5
.ent bn_div_3_words_internal
bn_div_3_words_internal:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
move $ta3,$ra
bal bn_div_words_internal
move $ra,$ta3
$MULTU ($ta2,$v0)
$LD $t2,-2*$BNSZ($a3)
move $ta0,$zero
mfhi ($t1,$ta2,$v0)
mflo ($t0,$ta2,$v0)
sltu $t8,$t1,$a1
.L_bn_div_3_words_inner_loop:
bnez $t8,.L_bn_div_3_words_inner_loop_done
sgeu $at,$t2,$t0
seq $t9,$t1,$a1
and $at,$t9
sltu $t3,$t0,$ta2
$ADDU $a1,$a2
$SUBU $t1,$t3
$SUBU $t0,$ta2
sltu $t8,$t1,$a1
sltu $ta0,$a1,$a2
or $t8,$ta0
.set noreorder
beqz $at,.L_bn_div_3_words_inner_loop
$SUBU $v0,1
$ADDU $v0,1
.set reorder
.L_bn_div_3_words_inner_loop_done:
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
move $a0,$v0
.end bn_div_3_words_internal
#endif
.align 5
.globl bn_div_words
.ent bn_div_words
bn_div_words:
.set noreorder
bnez $a2,bn_div_words_internal
li $v0,-1 # I would rather signal div-by-zero
# which can be done with 'break 7'
jr $ra
move $a0,$v0
.end bn_div_words
.align 5
.ent bn_div_words_internal
bn_div_words_internal:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
move $v1,$zero
bltz $a2,.L_bn_div_words_body
move $t9,$v1
$SLL $a2,1
bgtz $a2,.-4
addu $t9,1
.set reorder
negu $t1,$t9
li $t2,-1
$SLL $t2,$t1
and $t2,$a0
$SRL $at,$a1,$t1
.set noreorder
beqz $t2,.+12
nop
break 6 # signal overflow
.set reorder
$SLL $a0,$t9
$SLL $a1,$t9
or $a0,$at
___
$QT=$ta0;
$HH=$ta1;
$DH=$v1;
$code.=<<___;
.L_bn_div_words_body:
$SRL $DH,$a2,4*$BNSZ # bits
sgeu $at,$a0,$a2
.set noreorder
beqz $at,.+12
nop
$SUBU $a0,$a2
.set reorder
li $QT,-1
$SRL $HH,$a0,4*$BNSZ # bits
$SRL $QT,4*$BNSZ # q=0xffffffff
beq $DH,$HH,.L_bn_div_words_skip_div1
$DIVU ($a0,$DH)
mfqt ($QT,$a0,$DH)
.L_bn_div_words_skip_div1:
$MULTU ($a2,$QT)
$SLL $t3,$a0,4*$BNSZ # bits
$SRL $at,$a1,4*$BNSZ # bits
or $t3,$at
mflo ($t0,$a2,$QT)
mfhi ($t1,$a2,$QT)
.L_bn_div_words_inner_loop1:
sltu $t2,$t3,$t0
seq $t8,$HH,$t1
sltu $at,$HH,$t1
and $t2,$t8
sltu $v0,$t0,$a2
or $at,$t2
.set noreorder
beqz $at,.L_bn_div_words_inner_loop1_done
$SUBU $t1,$v0
$SUBU $t0,$a2
b .L_bn_div_words_inner_loop1
$SUBU $QT,1
.set reorder
.L_bn_div_words_inner_loop1_done:
$SLL $a1,4*$BNSZ # bits
$SUBU $a0,$t3,$t0
$SLL $v0,$QT,4*$BNSZ # bits
li $QT,-1
$SRL $HH,$a0,4*$BNSZ # bits
$SRL $QT,4*$BNSZ # q=0xffffffff
beq $DH,$HH,.L_bn_div_words_skip_div2
$DIVU ($a0,$DH)
mfqt ($QT,$a0,$DH)
.L_bn_div_words_skip_div2:
$MULTU ($a2,$QT)
$SLL $t3,$a0,4*$BNSZ # bits
$SRL $at,$a1,4*$BNSZ # bits
or $t3,$at
mflo ($t0,$a2,$QT)
mfhi ($t1,$a2,$QT)
.L_bn_div_words_inner_loop2:
sltu $t2,$t3,$t0
seq $t8,$HH,$t1
sltu $at,$HH,$t1
and $t2,$t8
sltu $v1,$t0,$a2
or $at,$t2
.set noreorder
beqz $at,.L_bn_div_words_inner_loop2_done
$SUBU $t1,$v1
$SUBU $t0,$a2
b .L_bn_div_words_inner_loop2
$SUBU $QT,1
.set reorder
.L_bn_div_words_inner_loop2_done:
$SUBU $a0,$t3,$t0
or $v0,$QT
$SRL $v1,$a0,$t9 # $v1 contains remainder if anybody wants it
$SRL $a2,$t9 # restore $a2
.set noreorder
move $a1,$v1
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
move $a0,$v0
.end bn_div_words_internal
___
undef $HH; undef $QT; undef $DH;
($a_0,$a_1,$a_2,$a_3)=($t0,$t1,$t2,$t3);
($b_0,$b_1,$b_2,$b_3)=($ta0,$ta1,$ta2,$ta3);
($a_4,$a_5,$a_6,$a_7)=($s0,$s2,$s4,$a1); # once we load a[7], no use for $a1
($b_4,$b_5,$b_6,$b_7)=($s1,$s3,$s5,$a2); # once we load b[7], no use for $a2
($t_1,$t_2,$c_1,$c_2,$c_3)=($t8,$t9,$v0,$v1,$a3);
$code.=<<___;
.align 5
.globl bn_mul_comba8
.ent bn_mul_comba8
bn_mul_comba8:
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,12*$SZREG,$ra
.mask 0x803ff008,-$SZREG
$PTR_SUB $sp,12*$SZREG
$REG_S $ra,11*$SZREG($sp)
$REG_S $s5,10*$SZREG($sp)
$REG_S $s4,9*$SZREG($sp)
$REG_S $s3,8*$SZREG($sp)
$REG_S $s2,7*$SZREG($sp)
$REG_S $s1,6*$SZREG($sp)
$REG_S $s0,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___ if ($flavour !~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x003f0000,-$SZREG
$PTR_SUB $sp,6*$SZREG
$REG_S $s5,5*$SZREG($sp)
$REG_S $s4,4*$SZREG($sp)
$REG_S $s3,3*$SZREG($sp)
$REG_S $s2,2*$SZREG($sp)
$REG_S $s1,1*$SZREG($sp)
$REG_S $s0,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
$LD $a_0,0($a1) # If compiled with -mips3 option on
# R5000 box assembler barks on this
# 1ine with "should not have mult/div
# as last instruction in bb (R10K
# bug)" warning. If anybody out there
# has a clue about how to circumvent
# this do send me a note.
# <appro\@fy.chalmers.se>
$LD $b_0,0($a2)
$LD $a_1,$BNSZ($a1)
$LD $a_2,2*$BNSZ($a1)
$MULTU ($a_0,$b_0) # mul_add_c(a[0],b[0],c1,c2,c3);
$LD $a_3,3*$BNSZ($a1)
$LD $b_1,$BNSZ($a2)
$LD $b_2,2*$BNSZ($a2)
$LD $b_3,3*$BNSZ($a2)
mflo ($c_1,$a_0,$b_0)
mfhi ($c_2,$a_0,$b_0)
$LD $a_4,4*$BNSZ($a1)
$LD $a_5,5*$BNSZ($a1)
$MULTU ($a_0,$b_1) # mul_add_c(a[0],b[1],c2,c3,c1);
$LD $a_6,6*$BNSZ($a1)
$LD $a_7,7*$BNSZ($a1)
$LD $b_4,4*$BNSZ($a2)
$LD $b_5,5*$BNSZ($a2)
mflo ($t_1,$a_0,$b_1)
mfhi ($t_2,$a_0,$b_1)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_1,$b_0) # mul_add_c(a[1],b[0],c2,c3,c1);
$ADDU $c_3,$t_2,$at
$LD $b_6,6*$BNSZ($a2)
$LD $b_7,7*$BNSZ($a2)
$ST $c_1,0($a0) # r[0]=c1;
mflo ($t_1,$a_1,$b_0)
mfhi ($t_2,$a_1,$b_0)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_2,$b_0) # mul_add_c(a[2],b[0],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $c_1,$c_3,$t_2
$ST $c_2,$BNSZ($a0) # r[1]=c2;
mflo ($t_1,$a_2,$b_0)
mfhi ($t_2,$a_2,$b_0)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_1,$b_1) # mul_add_c(a[1],b[1],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
mflo ($t_1,$a_1,$b_1)
mfhi ($t_2,$a_1,$b_1)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_0,$b_2) # mul_add_c(a[0],b[2],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $c_2,$c_1,$t_2
mflo ($t_1,$a_0,$b_2)
mfhi ($t_2,$a_0,$b_2)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_0,$b_3) # mul_add_c(a[0],b[3],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,2*$BNSZ($a0) # r[2]=c3;
mflo ($t_1,$a_0,$b_3)
mfhi ($t_2,$a_0,$b_3)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_1,$b_2) # mul_add_c(a[1],b[2],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $c_3,$c_2,$t_2
mflo ($t_1,$a_1,$b_2)
mfhi ($t_2,$a_1,$b_2)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_2,$b_1) # mul_add_c(a[2],b[1],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_2,$b_1)
mfhi ($t_2,$a_2,$b_1)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_3,$b_0) # mul_add_c(a[3],b[0],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_3,$b_0)
mfhi ($t_2,$a_3,$b_0)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_4,$b_0) # mul_add_c(a[4],b[0],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
$ST $c_1,3*$BNSZ($a0) # r[3]=c1;
mflo ($t_1,$a_4,$b_0)
mfhi ($t_2,$a_4,$b_0)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_3,$b_1) # mul_add_c(a[3],b[1],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $c_1,$c_3,$t_2
mflo ($t_1,$a_3,$b_1)
mfhi ($t_2,$a_3,$b_1)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_2,$b_2) # mul_add_c(a[2],b[2],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_2,$b_2)
mfhi ($t_2,$a_2,$b_2)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_1,$b_3) # mul_add_c(a[1],b[3],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_1,$b_3)
mfhi ($t_2,$a_1,$b_3)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_0,$b_4) # mul_add_c(a[0],b[4],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_0,$b_4)
mfhi ($t_2,$a_0,$b_4)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_0,$b_5) # mul_add_c(a[0],b[5],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,4*$BNSZ($a0) # r[4]=c2;
mflo ($t_1,$a_0,$b_5)
mfhi ($t_2,$a_0,$b_5)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_1,$b_4) # mul_add_c(a[1],b[4],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $c_2,$c_1,$t_2
mflo ($t_1,$a_1,$b_4)
mfhi ($t_2,$a_1,$b_4)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_2,$b_3) # mul_add_c(a[2],b[3],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_2,$b_3)
mfhi ($t_2,$a_2,$b_3)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_3,$b_2) # mul_add_c(a[3],b[2],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_3,$b_2)
mfhi ($t_2,$a_3,$b_2)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_4,$b_1) # mul_add_c(a[4],b[1],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_4,$b_1)
mfhi ($t_2,$a_4,$b_1)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_5,$b_0) # mul_add_c(a[5],b[0],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_5,$b_0)
mfhi ($t_2,$a_5,$b_0)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_6,$b_0) # mul_add_c(a[6],b[0],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,5*$BNSZ($a0) # r[5]=c3;
mflo ($t_1,$a_6,$b_0)
mfhi ($t_2,$a_6,$b_0)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_5,$b_1) # mul_add_c(a[5],b[1],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $c_3,$c_2,$t_2
mflo ($t_1,$a_5,$b_1)
mfhi ($t_2,$a_5,$b_1)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_4,$b_2) # mul_add_c(a[4],b[2],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_4,$b_2)
mfhi ($t_2,$a_4,$b_2)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_3,$b_3) # mul_add_c(a[3],b[3],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_3,$b_3)
mfhi ($t_2,$a_3,$b_3)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_2,$b_4) # mul_add_c(a[2],b[4],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_2,$b_4)
mfhi ($t_2,$a_2,$b_4)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_1,$b_5) # mul_add_c(a[1],b[5],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_1,$b_5)
mfhi ($t_2,$a_1,$b_5)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_0,$b_6) # mul_add_c(a[0],b[6],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_0,$b_6)
mfhi ($t_2,$a_0,$b_6)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_0,$b_7) # mul_add_c(a[0],b[7],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
$ST $c_1,6*$BNSZ($a0) # r[6]=c1;
mflo ($t_1,$a_0,$b_7)
mfhi ($t_2,$a_0,$b_7)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_1,$b_6) # mul_add_c(a[1],b[6],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $c_1,$c_3,$t_2
mflo ($t_1,$a_1,$b_6)
mfhi ($t_2,$a_1,$b_6)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_2,$b_5) # mul_add_c(a[2],b[5],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_2,$b_5)
mfhi ($t_2,$a_2,$b_5)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_3,$b_4) # mul_add_c(a[3],b[4],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_3,$b_4)
mfhi ($t_2,$a_3,$b_4)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_4,$b_3) # mul_add_c(a[4],b[3],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_4,$b_3)
mfhi ($t_2,$a_4,$b_3)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_5,$b_2) # mul_add_c(a[5],b[2],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_5,$b_2)
mfhi ($t_2,$a_5,$b_2)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_6,$b_1) # mul_add_c(a[6],b[1],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_6,$b_1)
mfhi ($t_2,$a_6,$b_1)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_7,$b_0) # mul_add_c(a[7],b[0],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_7,$b_0)
mfhi ($t_2,$a_7,$b_0)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_7,$b_1) # mul_add_c(a[7],b[1],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,7*$BNSZ($a0) # r[7]=c2;
mflo ($t_1,$a_7,$b_1)
mfhi ($t_2,$a_7,$b_1)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_6,$b_2) # mul_add_c(a[6],b[2],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $c_2,$c_1,$t_2
mflo ($t_1,$a_6,$b_2)
mfhi ($t_2,$a_6,$b_2)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_5,$b_3) # mul_add_c(a[5],b[3],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_5,$b_3)
mfhi ($t_2,$a_5,$b_3)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_4,$b_4) # mul_add_c(a[4],b[4],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_4,$b_4)
mfhi ($t_2,$a_4,$b_4)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_3,$b_5) # mul_add_c(a[3],b[5],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_3,$b_5)
mfhi ($t_2,$a_3,$b_5)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_2,$b_6) # mul_add_c(a[2],b[6],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_2,$b_6)
mfhi ($t_2,$a_2,$b_6)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_1,$b_7) # mul_add_c(a[1],b[7],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_1,$b_7)
mfhi ($t_2,$a_1,$b_7)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_2,$b_7) # mul_add_c(a[2],b[7],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,8*$BNSZ($a0) # r[8]=c3;
mflo ($t_1,$a_2,$b_7)
mfhi ($t_2,$a_2,$b_7)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_3,$b_6) # mul_add_c(a[3],b[6],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $c_3,$c_2,$t_2
mflo ($t_1,$a_3,$b_6)
mfhi ($t_2,$a_3,$b_6)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_4,$b_5) # mul_add_c(a[4],b[5],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_4,$b_5)
mfhi ($t_2,$a_4,$b_5)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_5,$b_4) # mul_add_c(a[5],b[4],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_5,$b_4)
mfhi ($t_2,$a_5,$b_4)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_6,$b_3) # mul_add_c(a[6],b[3],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_6,$b_3)
mfhi ($t_2,$a_6,$b_3)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_7,$b_2) # mul_add_c(a[7],b[2],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_7,$b_2)
mfhi ($t_2,$a_7,$b_2)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_7,$b_3) # mul_add_c(a[7],b[3],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
$ST $c_1,9*$BNSZ($a0) # r[9]=c1;
mflo ($t_1,$a_7,$b_3)
mfhi ($t_2,$a_7,$b_3)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_6,$b_4) # mul_add_c(a[6],b[4],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $c_1,$c_3,$t_2
mflo ($t_1,$a_6,$b_4)
mfhi ($t_2,$a_6,$b_4)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_5,$b_5) # mul_add_c(a[5],b[5],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_5,$b_5)
mfhi ($t_2,$a_5,$b_5)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_4,$b_6) # mul_add_c(a[4],b[6],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_4,$b_6)
mfhi ($t_2,$a_4,$b_6)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_3,$b_7) # mul_add_c(a[3],b[7],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_3,$b_7)
mfhi ($t_2,$a_3,$b_7)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_4,$b_7) # mul_add_c(a[4],b[7],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,10*$BNSZ($a0) # r[10]=c2;
mflo ($t_1,$a_4,$b_7)
mfhi ($t_2,$a_4,$b_7)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_5,$b_6) # mul_add_c(a[5],b[6],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $c_2,$c_1,$t_2
mflo ($t_1,$a_5,$b_6)
mfhi ($t_2,$a_5,$b_6)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_6,$b_5) # mul_add_c(a[6],b[5],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_6,$b_5)
mfhi ($t_2,$a_6,$b_5)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_7,$b_4) # mul_add_c(a[7],b[4],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
mflo ($t_1,$a_7,$b_4)
mfhi ($t_2,$a_7,$b_4)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_7,$b_5) # mul_add_c(a[7],b[5],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,11*$BNSZ($a0) # r[11]=c3;
mflo ($t_1,$a_7,$b_5)
mfhi ($t_2,$a_7,$b_5)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_6,$b_6) # mul_add_c(a[6],b[6],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $c_3,$c_2,$t_2
mflo ($t_1,$a_6,$b_6)
mfhi ($t_2,$a_6,$b_6)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_5,$b_7) # mul_add_c(a[5],b[7],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_5,$b_7)
mfhi ($t_2,$a_5,$b_7)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_6,$b_7) # mul_add_c(a[6],b[7],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
$ST $c_1,12*$BNSZ($a0) # r[12]=c1;
mflo ($t_1,$a_6,$b_7)
mfhi ($t_2,$a_6,$b_7)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_7,$b_6) # mul_add_c(a[7],b[6],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $c_1,$c_3,$t_2
mflo ($t_1,$a_7,$b_6)
mfhi ($t_2,$a_7,$b_6)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_7,$b_7) # mul_add_c(a[7],b[7],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,13*$BNSZ($a0) # r[13]=c2;
mflo ($t_1,$a_7,$b_7)
mfhi ($t_2,$a_7,$b_7)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$ADDU $t_2,$at
$ADDU $c_1,$t_2
$ST $c_3,14*$BNSZ($a0) # r[14]=c3;
$ST $c_1,15*$BNSZ($a0) # r[15]=c1;
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $s5,10*$SZREG($sp)
$REG_L $s4,9*$SZREG($sp)
$REG_L $s3,8*$SZREG($sp)
$REG_L $s2,7*$SZREG($sp)
$REG_L $s1,6*$SZREG($sp)
$REG_L $s0,5*$SZREG($sp)
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
jr $ra
$PTR_ADD $sp,12*$SZREG
___
$code.=<<___ if ($flavour !~ /nubi/i);
$REG_L $s5,5*$SZREG($sp)
$REG_L $s4,4*$SZREG($sp)
$REG_L $s3,3*$SZREG($sp)
$REG_L $s2,2*$SZREG($sp)
$REG_L $s1,1*$SZREG($sp)
$REG_L $s0,0*$SZREG($sp)
jr $ra
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
.end bn_mul_comba8
.align 5
.globl bn_mul_comba4
.ent bn_mul_comba4
bn_mul_comba4:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
$LD $a_0,0($a1)
$LD $b_0,0($a2)
$LD $a_1,$BNSZ($a1)
$LD $a_2,2*$BNSZ($a1)
$MULTU ($a_0,$b_0) # mul_add_c(a[0],b[0],c1,c2,c3);
$LD $a_3,3*$BNSZ($a1)
$LD $b_1,$BNSZ($a2)
$LD $b_2,2*$BNSZ($a2)
$LD $b_3,3*$BNSZ($a2)
mflo ($c_1,$a_0,$b_0)
mfhi ($c_2,$a_0,$b_0)
$ST $c_1,0($a0)
$MULTU ($a_0,$b_1) # mul_add_c(a[0],b[1],c2,c3,c1);
mflo ($t_1,$a_0,$b_1)
mfhi ($t_2,$a_0,$b_1)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_1,$b_0) # mul_add_c(a[1],b[0],c2,c3,c1);
$ADDU $c_3,$t_2,$at
mflo ($t_1,$a_1,$b_0)
mfhi ($t_2,$a_1,$b_0)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_2,$b_0) # mul_add_c(a[2],b[0],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $c_1,$c_3,$t_2
$ST $c_2,$BNSZ($a0)
mflo ($t_1,$a_2,$b_0)
mfhi ($t_2,$a_2,$b_0)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_1,$b_1) # mul_add_c(a[1],b[1],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
mflo ($t_1,$a_1,$b_1)
mfhi ($t_2,$a_1,$b_1)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_0,$b_2) # mul_add_c(a[0],b[2],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $c_2,$c_1,$t_2
mflo ($t_1,$a_0,$b_2)
mfhi ($t_2,$a_0,$b_2)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_0,$b_3) # mul_add_c(a[0],b[3],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,2*$BNSZ($a0)
mflo ($t_1,$a_0,$b_3)
mfhi ($t_2,$a_0,$b_3)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_1,$b_2) # mul_add_c(a[1],b[2],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $c_3,$c_2,$t_2
mflo ($t_1,$a_1,$b_2)
mfhi ($t_2,$a_1,$b_2)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_2,$b_1) # mul_add_c(a[2],b[1],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_2,$b_1)
mfhi ($t_2,$a_2,$b_1)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_3,$b_0) # mul_add_c(a[3],b[0],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
mflo ($t_1,$a_3,$b_0)
mfhi ($t_2,$a_3,$b_0)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_3,$b_1) # mul_add_c(a[3],b[1],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
$ST $c_1,3*$BNSZ($a0)
mflo ($t_1,$a_3,$b_1)
mfhi ($t_2,$a_3,$b_1)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_2,$b_2) # mul_add_c(a[2],b[2],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $c_1,$c_3,$t_2
mflo ($t_1,$a_2,$b_2)
mfhi ($t_2,$a_2,$b_2)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_1,$b_3) # mul_add_c(a[1],b[3],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_1,$b_3)
mfhi ($t_2,$a_1,$b_3)
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_2,$b_3) # mul_add_c(a[2],b[3],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,4*$BNSZ($a0)
mflo ($t_1,$a_2,$b_3)
mfhi ($t_2,$a_2,$b_3)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_3,$b_2) # mul_add_c(a[3],b[2],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $c_2,$c_1,$t_2
mflo ($t_1,$a_3,$b_2)
mfhi ($t_2,$a_3,$b_2)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_3,$b_3) # mul_add_c(a[3],b[3],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,5*$BNSZ($a0)
mflo ($t_1,$a_3,$b_3)
mfhi ($t_2,$a_3,$b_3)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$ADDU $t_2,$at
$ADDU $c_2,$t_2
$ST $c_1,6*$BNSZ($a0)
$ST $c_2,7*$BNSZ($a0)
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
nop
.end bn_mul_comba4
___
($a_4,$a_5,$a_6,$a_7)=($b_0,$b_1,$b_2,$b_3);
sub add_c2 () {
my ($hi,$lo,$c0,$c1,$c2,
$warm, # !$warm denotes first call with specific sequence of
# $c_[XYZ] when there is no Z-carry to accumulate yet;
$an,$bn # these two are arguments for multiplication which
# result is used in *next* step [which is why it's
# commented as "forward multiplication" below];
)=@_;
$code.=<<___;
$ADDU $c0,$lo
sltu $at,$c0,$lo
$MULTU ($an,$bn) # forward multiplication
$ADDU $c0,$lo
$ADDU $at,$hi
sltu $lo,$c0,$lo
$ADDU $c1,$at
$ADDU $hi,$lo
___
$code.=<<___ if (!$warm);
sltu $c2,$c1,$at
$ADDU $c1,$hi
___
$code.=<<___ if ($warm);
sltu $at,$c1,$at
$ADDU $c1,$hi
$ADDU $c2,$at
___
$code.=<<___;
sltu $hi,$c1,$hi
$ADDU $c2,$hi
mflo ($lo,$an,$bn)
mfhi ($hi,$an,$bn)
___
}
$code.=<<___;
.align 5
.globl bn_sqr_comba8
.ent bn_sqr_comba8
bn_sqr_comba8:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
$LD $a_0,0($a1)
$LD $a_1,$BNSZ($a1)
$LD $a_2,2*$BNSZ($a1)
$LD $a_3,3*$BNSZ($a1)
$MULTU ($a_0,$a_0) # mul_add_c(a[0],b[0],c1,c2,c3);
$LD $a_4,4*$BNSZ($a1)
$LD $a_5,5*$BNSZ($a1)
$LD $a_6,6*$BNSZ($a1)
$LD $a_7,7*$BNSZ($a1)
mflo ($c_1,$a_0,$a_0)
mfhi ($c_2,$a_0,$a_0)
$ST $c_1,0($a0)
$MULTU ($a_0,$a_1) # mul_add_c2(a[0],b[1],c2,c3,c1);
mflo ($t_1,$a_0,$a_1)
mfhi ($t_2,$a_0,$a_1)
slt $c_1,$t_2,$zero
$SLL $t_2,1
$MULTU ($a_2,$a_0) # mul_add_c2(a[2],b[0],c3,c1,c2);
slt $a2,$t_1,$zero
$ADDU $t_2,$a2
$SLL $t_1,1
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$ADDU $c_3,$t_2,$at
$ST $c_2,$BNSZ($a0)
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_2,$a_0)
mfhi ($t_2,$a_2,$a_0)
___
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,0,
$a_1,$a_1); # mul_add_c(a[1],b[1],c3,c1,c2);
$code.=<<___;
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_0,$a_3) # mul_add_c2(a[0],b[3],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,2*$BNSZ($a0)
mflo ($t_1,$a_0,$a_3)
mfhi ($t_2,$a_0,$a_3)
___
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,0,
$a_1,$a_2); # mul_add_c2(a[1],b[2],c1,c2,c3);
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,1,
$a_4,$a_0); # mul_add_c2(a[4],b[0],c2,c3,c1);
$code.=<<___;
$ST $c_1,3*$BNSZ($a0)
___
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,0,
$a_3,$a_1); # mul_add_c2(a[3],b[1],c2,c3,c1);
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,1,
$a_2,$a_2); # mul_add_c(a[2],b[2],c2,c3,c1);
$code.=<<___;
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_0,$a_5) # mul_add_c2(a[0],b[5],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,4*$BNSZ($a0)
mflo ($t_1,$a_0,$a_5)
mfhi ($t_2,$a_0,$a_5)
___
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,0,
$a_1,$a_4); # mul_add_c2(a[1],b[4],c3,c1,c2);
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,1,
$a_2,$a_3); # mul_add_c2(a[2],b[3],c3,c1,c2);
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,1,
$a_6,$a_0); # mul_add_c2(a[6],b[0],c1,c2,c3);
$code.=<<___;
$ST $c_3,5*$BNSZ($a0)
___
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,0,
$a_5,$a_1); # mul_add_c2(a[5],b[1],c1,c2,c3);
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,1,
$a_4,$a_2); # mul_add_c2(a[4],b[2],c1,c2,c3);
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,1,
$a_3,$a_3); # mul_add_c(a[3],b[3],c1,c2,c3);
$code.=<<___;
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_0,$a_7) # mul_add_c2(a[0],b[7],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
$ST $c_1,6*$BNSZ($a0)
mflo ($t_1,$a_0,$a_7)
mfhi ($t_2,$a_0,$a_7)
___
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,0,
$a_1,$a_6); # mul_add_c2(a[1],b[6],c2,c3,c1);
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,1,
$a_2,$a_5); # mul_add_c2(a[2],b[5],c2,c3,c1);
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,1,
$a_3,$a_4); # mul_add_c2(a[3],b[4],c2,c3,c1);
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,1,
$a_7,$a_1); # mul_add_c2(a[7],b[1],c3,c1,c2);
$code.=<<___;
$ST $c_2,7*$BNSZ($a0)
___
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,0,
$a_6,$a_2); # mul_add_c2(a[6],b[2],c3,c1,c2);
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,1,
$a_5,$a_3); # mul_add_c2(a[5],b[3],c3,c1,c2);
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,1,
$a_4,$a_4); # mul_add_c(a[4],b[4],c3,c1,c2);
$code.=<<___;
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_2,$a_7) # mul_add_c2(a[2],b[7],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,8*$BNSZ($a0)
mflo ($t_1,$a_2,$a_7)
mfhi ($t_2,$a_2,$a_7)
___
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,0,
$a_3,$a_6); # mul_add_c2(a[3],b[6],c1,c2,c3);
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,1,
$a_4,$a_5); # mul_add_c2(a[4],b[5],c1,c2,c3);
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,1,
$a_7,$a_3); # mul_add_c2(a[7],b[3],c2,c3,c1);
$code.=<<___;
$ST $c_1,9*$BNSZ($a0)
___
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,0,
$a_6,$a_4); # mul_add_c2(a[6],b[4],c2,c3,c1);
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,1,
$a_5,$a_5); # mul_add_c(a[5],b[5],c2,c3,c1);
$code.=<<___;
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_4,$a_7) # mul_add_c2(a[4],b[7],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,10*$BNSZ($a0)
mflo ($t_1,$a_4,$a_7)
mfhi ($t_2,$a_4,$a_7)
___
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,0,
$a_5,$a_6); # mul_add_c2(a[5],b[6],c3,c1,c2);
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,1,
$a_7,$a_5); # mul_add_c2(a[7],b[5],c1,c2,c3);
$code.=<<___;
$ST $c_3,11*$BNSZ($a0)
___
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,0,
$a_6,$a_6); # mul_add_c(a[6],b[6],c1,c2,c3);
$code.=<<___;
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$MULTU ($a_6,$a_7) # mul_add_c2(a[6],b[7],c2,c3,c1);
$ADDU $t_2,$at
$ADDU $c_2,$t_2
sltu $at,$c_2,$t_2
$ADDU $c_3,$at
$ST $c_1,12*$BNSZ($a0)
mflo ($t_1,$a_6,$a_7)
mfhi ($t_2,$a_6,$a_7)
___
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,0,
$a_7,$a_7); # mul_add_c(a[7],b[7],c3,c1,c2);
$code.=<<___;
$ST $c_2,13*$BNSZ($a0)
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$ADDU $t_2,$at
$ADDU $c_1,$t_2
$ST $c_3,14*$BNSZ($a0)
$ST $c_1,15*$BNSZ($a0)
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
nop
.end bn_sqr_comba8
.align 5
.globl bn_sqr_comba4
.ent bn_sqr_comba4
bn_sqr_comba4:
___
$code.=<<___ if ($flavour =~ /nubi/i);
.frame $sp,6*$SZREG,$ra
.mask 0x8000f008,-$SZREG
.set noreorder
$PTR_SUB $sp,6*$SZREG
$REG_S $ra,5*$SZREG($sp)
$REG_S $t3,4*$SZREG($sp)
$REG_S $t2,3*$SZREG($sp)
$REG_S $t1,2*$SZREG($sp)
$REG_S $t0,1*$SZREG($sp)
$REG_S $gp,0*$SZREG($sp)
___
$code.=<<___;
.set reorder
$LD $a_0,0($a1)
$LD $a_1,$BNSZ($a1)
$MULTU ($a_0,$a_0) # mul_add_c(a[0],b[0],c1,c2,c3);
$LD $a_2,2*$BNSZ($a1)
$LD $a_3,3*$BNSZ($a1)
mflo ($c_1,$a_0,$a_0)
mfhi ($c_2,$a_0,$a_0)
$ST $c_1,0($a0)
$MULTU ($a_0,$a_1) # mul_add_c2(a[0],b[1],c2,c3,c1);
mflo ($t_1,$a_0,$a_1)
mfhi ($t_2,$a_0,$a_1)
slt $c_1,$t_2,$zero
$SLL $t_2,1
$MULTU ($a_2,$a_0) # mul_add_c2(a[2],b[0],c3,c1,c2);
slt $a2,$t_1,$zero
$ADDU $t_2,$a2
$SLL $t_1,1
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$ADDU $c_3,$t_2,$at
$ST $c_2,$BNSZ($a0)
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
mflo ($t_1,$a_2,$a_0)
mfhi ($t_2,$a_2,$a_0)
___
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,0,
$a_1,$a_1); # mul_add_c(a[1],b[1],c3,c1,c2);
$code.=<<___;
$ADDU $c_3,$t_1
sltu $at,$c_3,$t_1
$MULTU ($a_0,$a_3) # mul_add_c2(a[0],b[3],c1,c2,c3);
$ADDU $t_2,$at
$ADDU $c_1,$t_2
sltu $at,$c_1,$t_2
$ADDU $c_2,$at
$ST $c_3,2*$BNSZ($a0)
mflo ($t_1,$a_0,$a_3)
mfhi ($t_2,$a_0,$a_3)
___
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,0,
$a_1,$a_2); # mul_add_c2(a2[1],b[2],c1,c2,c3);
&add_c2($t_2,$t_1,$c_1,$c_2,$c_3,1,
$a_3,$a_1); # mul_add_c2(a[3],b[1],c2,c3,c1);
$code.=<<___;
$ST $c_1,3*$BNSZ($a0)
___
&add_c2($t_2,$t_1,$c_2,$c_3,$c_1,0,
$a_2,$a_2); # mul_add_c(a[2],b[2],c2,c3,c1);
$code.=<<___;
$ADDU $c_2,$t_1
sltu $at,$c_2,$t_1
$MULTU ($a_2,$a_3) # mul_add_c2(a[2],b[3],c3,c1,c2);
$ADDU $t_2,$at
$ADDU $c_3,$t_2
sltu $at,$c_3,$t_2
$ADDU $c_1,$at
$ST $c_2,4*$BNSZ($a0)
mflo ($t_1,$a_2,$a_3)
mfhi ($t_2,$a_2,$a_3)
___
&add_c2($t_2,$t_1,$c_3,$c_1,$c_2,0,
$a_3,$a_3); # mul_add_c(a[3],b[3],c1,c2,c3);
$code.=<<___;
$ST $c_3,5*$BNSZ($a0)
$ADDU $c_1,$t_1
sltu $at,$c_1,$t_1
$ADDU $t_2,$at
$ADDU $c_2,$t_2
$ST $c_1,6*$BNSZ($a0)
$ST $c_2,7*$BNSZ($a0)
.set noreorder
___
$code.=<<___ if ($flavour =~ /nubi/i);
$REG_L $t3,4*$SZREG($sp)
$REG_L $t2,3*$SZREG($sp)
$REG_L $t1,2*$SZREG($sp)
$REG_L $t0,1*$SZREG($sp)
$REG_L $gp,0*$SZREG($sp)
$PTR_ADD $sp,6*$SZREG
___
$code.=<<___;
jr $ra
nop
.end bn_sqr_comba4
___
print $code;
close STDOUT or die "error closing STDOUT: $!";