openssl/crypto/bn/asm/sparct4-mont.pl
Matt Caswell 83cf7abf8e Update copyright year
Reviewed-by: Richard Levitte <levitte@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/6371)
2018-05-29 13:16:04 +01:00

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#! /usr/bin/env perl
# Copyright 2012-2018 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the OpenSSL license (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 David S. Miller and Andy Polyakov
# The module is licensed under 2-clause BSD license.
# November 2012. All rights reserved.
# ====================================================================
######################################################################
# Montgomery squaring-n-multiplication module for SPARC T4.
#
# The module consists of three parts:
#
# 1) collection of "single-op" subroutines that perform single
# operation, Montgomery squaring or multiplication, on 512-,
# 1024-, 1536- and 2048-bit operands;
# 2) collection of "multi-op" subroutines that perform 5 squaring and
# 1 multiplication operations on operands of above lengths;
# 3) fall-back and helper VIS3 subroutines.
#
# RSA sign is dominated by multi-op subroutine, while RSA verify and
# DSA - by single-op. Special note about 4096-bit RSA verify result.
# Operands are too long for dedicated hardware and it's handled by
# VIS3 code, which is why you don't see any improvement. It's surely
# possible to improve it [by deploying 'mpmul' instruction], maybe in
# the future...
#
# Performance improvement.
#
# 64-bit process, VIS3:
# sign verify sign/s verify/s
# rsa 1024 bits 0.000628s 0.000028s 1592.4 35434.4
# rsa 2048 bits 0.003282s 0.000106s 304.7 9438.3
# rsa 4096 bits 0.025866s 0.000340s 38.7 2940.9
# dsa 1024 bits 0.000301s 0.000332s 3323.7 3013.9
# dsa 2048 bits 0.001056s 0.001233s 946.9 810.8
#
# 64-bit process, this module:
# sign verify sign/s verify/s
# rsa 1024 bits 0.000256s 0.000016s 3904.4 61411.9
# rsa 2048 bits 0.000946s 0.000029s 1056.8 34292.7
# rsa 4096 bits 0.005061s 0.000340s 197.6 2940.5
# dsa 1024 bits 0.000176s 0.000195s 5674.7 5130.5
# dsa 2048 bits 0.000296s 0.000354s 3383.2 2827.6
#
######################################################################
# 32-bit process, VIS3:
# sign verify sign/s verify/s
# rsa 1024 bits 0.000665s 0.000028s 1504.8 35233.3
# rsa 2048 bits 0.003349s 0.000106s 298.6 9433.4
# rsa 4096 bits 0.025959s 0.000341s 38.5 2934.8
# dsa 1024 bits 0.000320s 0.000341s 3123.3 2929.6
# dsa 2048 bits 0.001101s 0.001260s 908.2 793.4
#
# 32-bit process, this module:
# sign verify sign/s verify/s
# rsa 1024 bits 0.000301s 0.000017s 3317.1 60240.0
# rsa 2048 bits 0.001034s 0.000030s 966.9 33812.7
# rsa 4096 bits 0.005244s 0.000341s 190.7 2935.4
# dsa 1024 bits 0.000201s 0.000205s 4976.1 4879.2
# dsa 2048 bits 0.000328s 0.000360s 3051.1 2774.2
#
# 32-bit code is prone to performance degradation as interrupt rate
# dispatched to CPU executing the code grows. This is because in
# standard process of handling interrupt in 32-bit process context
# upper halves of most integer registers used as input or output are
# zeroed. This renders result invalid, and operation has to be re-run.
# If CPU is "bothered" with timer interrupts only, the penalty is
# hardly measurable. But in order to mitigate this problem for higher
# interrupt rates contemporary Linux kernel recognizes biased stack
# even in 32-bit process context and preserves full register contents.
# See http://git.kernel.org/cgit/linux/kernel/git/torvalds/linux.git/commit/?id=517ffce4e1a03aea979fe3a18a3dd1761a24fafb
# for details.
$0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
push(@INC,"${dir}","${dir}../../perlasm");
require "sparcv9_modes.pl";
$output = pop;
open STDOUT,">$output";
$code.=<<___;
#include "sparc_arch.h"
#ifdef __arch64__
.register %g2,#scratch
.register %g3,#scratch
#endif
.section ".text",#alloc,#execinstr
#ifdef __PIC__
SPARC_PIC_THUNK(%g1)
#endif
___
########################################################################
# Register layout for mont[mul|sqr] instructions.
# For details see "Oracle SPARC Architecture 2011" manual at
# http://www.oracle.com/technetwork/server-storage/sun-sparc-enterprise/documentation/.
#
my @R=map("%f".2*$_,(0..11,30,31,12..29));
my @N=(map("%l$_",(0..7)),map("%o$_",(0..5))); @N=(@N,@N,@N[0..3]);
my @A=(@N[0..13],@R[14..31]);
my @B=(map("%i$_",(0..5)),map("%l$_",(0..7))); @B=(@B,@B,map("%o$_",(0..3)));
########################################################################
# int bn_mul_mont_t4_$NUM(u64 *rp,const u64 *ap,const u64 *bp,
# const u64 *np,const BN_ULONG *n0);
#
sub generate_bn_mul_mont_t4() {
my $NUM=shift;
my ($rp,$ap,$bp,$np,$sentinel)=map("%g$_",(1..5));
$code.=<<___;
.globl bn_mul_mont_t4_$NUM
.align 32
bn_mul_mont_t4_$NUM:
#ifdef __arch64__
mov 0,$sentinel
mov -128,%g4
#elif defined(SPARCV9_64BIT_STACK)
SPARC_LOAD_ADDRESS_LEAF(OPENSSL_sparcv9cap_P,%g1,%g5)
ld [%g1+0],%g1 ! OPENSSL_sparcv9_P[0]
mov -2047,%g4
and %g1,SPARCV9_64BIT_STACK,%g1
movrz %g1,0,%g4
mov -1,$sentinel
add %g4,-128,%g4
#else
mov -1,$sentinel
mov -128,%g4
#endif
sllx $sentinel,32,$sentinel
save %sp,%g4,%sp
#ifndef __arch64__
save %sp,-128,%sp ! warm it up
save %sp,-128,%sp
save %sp,-128,%sp
save %sp,-128,%sp
save %sp,-128,%sp
save %sp,-128,%sp
restore
restore
restore
restore
restore
restore
#endif
and %sp,1,%g4
or $sentinel,%fp,%fp
or %g4,$sentinel,$sentinel
! copy arguments to global registers
mov %i0,$rp
mov %i1,$ap
mov %i2,$bp
mov %i3,$np
ld [%i4+0],%f1 ! load *n0
ld [%i4+4],%f0
fsrc2 %f0,%f60
___
# load ap[$NUM] ########################################################
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for($i=0; $i<14 && $i<$NUM; $i++) {
my $lo=$i<13?@A[$i+1]:"%o7";
$code.=<<___;
ld [$ap+$i*8+0],$lo
ld [$ap+$i*8+4],@A[$i]
sllx @A[$i],32,@A[$i]
or $lo,@A[$i],@A[$i]
___
}
for(; $i<$NUM; $i++) {
my ($hi,$lo)=("%f".2*($i%4),"%f".(2*($i%4)+1));
$code.=<<___;
ld [$ap+$i*8+0],$lo
ld [$ap+$i*8+4],$hi
fsrc2 $hi,@A[$i]
___
}
# load np[$NUM] ########################################################
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for($i=0; $i<14 && $i<$NUM; $i++) {
my $lo=$i<13?@N[$i+1]:"%o7";
$code.=<<___;
ld [$np+$i*8+0],$lo
ld [$np+$i*8+4],@N[$i]
sllx @N[$i],32,@N[$i]
or $lo,@N[$i],@N[$i]
___
}
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for(; $i<28 && $i<$NUM; $i++) {
my $lo=$i<27?@N[$i+1]:"%o7";
$code.=<<___;
ld [$np+$i*8+0],$lo
ld [$np+$i*8+4],@N[$i]
sllx @N[$i],32,@N[$i]
or $lo,@N[$i],@N[$i]
___
}
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for(; $i<$NUM; $i++) {
my $lo=($i<$NUM-1)?@N[$i+1]:"%o7";
$code.=<<___;
ld [$np+$i*8+0],$lo
ld [$np+$i*8+4],@N[$i]
sllx @N[$i],32,@N[$i]
or $lo,@N[$i],@N[$i]
___
}
$code.=<<___;
cmp $ap,$bp
be SIZE_T_CC,.Lmsquare_$NUM
nop
___
# load bp[$NUM] ########################################################
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for($i=0; $i<14 && $i<$NUM; $i++) {
my $lo=$i<13?@B[$i+1]:"%o7";
$code.=<<___;
ld [$bp+$i*8+0],$lo
ld [$bp+$i*8+4],@B[$i]
sllx @B[$i],32,@B[$i]
or $lo,@B[$i],@B[$i]
___
}
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for(; $i<$NUM; $i++) {
my $lo=($i<$NUM-1)?@B[$i+1]:"%o7";
$code.=<<___;
ld [$bp+$i*8+0],$lo
ld [$bp+$i*8+4],@B[$i]
sllx @B[$i],32,@B[$i]
or $lo,@B[$i],@B[$i]
___
}
# magic ################################################################
$code.=<<___;
.word 0x81b02920+$NUM-1 ! montmul $NUM-1
.Lmresume_$NUM:
fbu,pn %fcc3,.Lmabort_$NUM
#ifndef __arch64__
and %fp,$sentinel,$sentinel
brz,pn $sentinel,.Lmabort_$NUM
#endif
nop
#ifdef __arch64__
restore
restore
restore
restore
restore
#else
restore; and %fp,$sentinel,$sentinel
restore; and %fp,$sentinel,$sentinel
restore; and %fp,$sentinel,$sentinel
restore; and %fp,$sentinel,$sentinel
brz,pn $sentinel,.Lmabort1_$NUM
restore
#endif
___
# save tp[$NUM] ########################################################
for($i=0; $i<14 && $i<$NUM; $i++) {
$code.=<<___;
movxtod @A[$i],@R[$i]
___
}
$code.=<<___;
#ifdef __arch64__
restore
#else
and %fp,$sentinel,$sentinel
restore
and $sentinel,1,%o7
and %fp,$sentinel,$sentinel
srl %fp,0,%fp ! just in case?
or %o7,$sentinel,$sentinel
brz,a,pn $sentinel,.Lmdone_$NUM
mov 0,%i0 ! return failure
#endif
___
for($i=0; $i<12 && $i<$NUM; $i++) {
@R[$i] =~ /%f([0-9]+)/;
my $lo = "%f".($1+1);
$code.=<<___;
st $lo,[$rp+$i*8+0]
st @R[$i],[$rp+$i*8+4]
___
}
for(; $i<$NUM; $i++) {
my ($hi,$lo)=("%f".2*($i%4),"%f".(2*($i%4)+1));
$code.=<<___;
fsrc2 @R[$i],$hi
st $lo,[$rp+$i*8+0]
st $hi,[$rp+$i*8+4]
___
}
$code.=<<___;
mov 1,%i0 ! return success
.Lmdone_$NUM:
ret
restore
.Lmabort_$NUM:
restore
restore
restore
restore
restore
.Lmabort1_$NUM:
restore
mov 0,%i0 ! return failure
ret
restore
.align 32
.Lmsquare_$NUM:
save %sp,-128,%sp; or $sentinel,%fp,%fp
save %sp,-128,%sp; or $sentinel,%fp,%fp
.word 0x81b02940+$NUM-1 ! montsqr $NUM-1
ba .Lmresume_$NUM
nop
.type bn_mul_mont_t4_$NUM, #function
.size bn_mul_mont_t4_$NUM, .-bn_mul_mont_t4_$NUM
___
}
for ($i=8;$i<=32;$i+=8) {
&generate_bn_mul_mont_t4($i);
}
########################################################################
#
sub load_ccr {
my ($ptbl,$pwr,$ccr,$skip_wr)=@_;
$code.=<<___;
srl $pwr, 2, %o4
and $pwr, 3, %o5
and %o4, 7, %o4
sll %o5, 3, %o5 ! offset within first cache line
add %o5, $ptbl, $ptbl ! of the pwrtbl
or %g0, 1, %o5
sll %o5, %o4, $ccr
___
$code.=<<___ if (!$skip_wr);
wr $ccr, %g0, %ccr
___
}
sub load_b_pair {
my ($pwrtbl,$B0,$B1)=@_;
$code.=<<___;
ldx [$pwrtbl+0*32], $B0
ldx [$pwrtbl+8*32], $B1
ldx [$pwrtbl+1*32], %o4
ldx [$pwrtbl+9*32], %o5
movvs %icc, %o4, $B0
ldx [$pwrtbl+2*32], %o4
movvs %icc, %o5, $B1
ldx [$pwrtbl+10*32],%o5
move %icc, %o4, $B0
ldx [$pwrtbl+3*32], %o4
move %icc, %o5, $B1
ldx [$pwrtbl+11*32],%o5
movneg %icc, %o4, $B0
ldx [$pwrtbl+4*32], %o4
movneg %icc, %o5, $B1
ldx [$pwrtbl+12*32],%o5
movcs %xcc, %o4, $B0
ldx [$pwrtbl+5*32],%o4
movcs %xcc, %o5, $B1
ldx [$pwrtbl+13*32],%o5
movvs %xcc, %o4, $B0
ldx [$pwrtbl+6*32], %o4
movvs %xcc, %o5, $B1
ldx [$pwrtbl+14*32],%o5
move %xcc, %o4, $B0
ldx [$pwrtbl+7*32], %o4
move %xcc, %o5, $B1
ldx [$pwrtbl+15*32],%o5
movneg %xcc, %o4, $B0
add $pwrtbl,16*32, $pwrtbl
movneg %xcc, %o5, $B1
___
}
sub load_b {
my ($pwrtbl,$Bi)=@_;
$code.=<<___;
ldx [$pwrtbl+0*32], $Bi
ldx [$pwrtbl+1*32], %o4
ldx [$pwrtbl+2*32], %o5
movvs %icc, %o4, $Bi
ldx [$pwrtbl+3*32], %o4
move %icc, %o5, $Bi
ldx [$pwrtbl+4*32], %o5
movneg %icc, %o4, $Bi
ldx [$pwrtbl+5*32], %o4
movcs %xcc, %o5, $Bi
ldx [$pwrtbl+6*32], %o5
movvs %xcc, %o4, $Bi
ldx [$pwrtbl+7*32], %o4
move %xcc, %o5, $Bi
add $pwrtbl,8*32, $pwrtbl
movneg %xcc, %o4, $Bi
___
}
########################################################################
# int bn_pwr5_mont_t4_$NUM(u64 *tp,const u64 *np,const BN_ULONG *n0,
# const u64 *pwrtbl,int pwr,int stride);
#
sub generate_bn_pwr5_mont_t4() {
my $NUM=shift;
my ($tp,$np,$pwrtbl,$pwr,$sentinel)=map("%g$_",(1..5));
$code.=<<___;
.globl bn_pwr5_mont_t4_$NUM
.align 32
bn_pwr5_mont_t4_$NUM:
#ifdef __arch64__
mov 0,$sentinel
mov -128,%g4
#elif defined(SPARCV9_64BIT_STACK)
SPARC_LOAD_ADDRESS_LEAF(OPENSSL_sparcv9cap_P,%g1,%g5)
ld [%g1+0],%g1 ! OPENSSL_sparcv9_P[0]
mov -2047,%g4
and %g1,SPARCV9_64BIT_STACK,%g1
movrz %g1,0,%g4
mov -1,$sentinel
add %g4,-128,%g4
#else
mov -1,$sentinel
mov -128,%g4
#endif
sllx $sentinel,32,$sentinel
save %sp,%g4,%sp
#ifndef __arch64__
save %sp,-128,%sp ! warm it up
save %sp,-128,%sp
save %sp,-128,%sp
save %sp,-128,%sp
save %sp,-128,%sp
save %sp,-128,%sp
restore
restore
restore
restore
restore
restore
#endif
and %sp,1,%g4
or $sentinel,%fp,%fp
or %g4,$sentinel,$sentinel
! copy arguments to global registers
mov %i0,$tp
mov %i1,$np
ld [%i2+0],%f1 ! load *n0
ld [%i2+4],%f0
mov %i3,$pwrtbl
srl %i4,%g0,%i4 ! pack last arguments
sllx %i5,32,$pwr
or %i4,$pwr,$pwr
fsrc2 %f0,%f60
___
# load tp[$NUM] ########################################################
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for($i=0; $i<14 && $i<$NUM; $i++) {
$code.=<<___;
ldx [$tp+$i*8],@A[$i]
___
}
for(; $i<$NUM; $i++) {
$code.=<<___;
ldd [$tp+$i*8],@A[$i]
___
}
# load np[$NUM] ########################################################
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for($i=0; $i<14 && $i<$NUM; $i++) {
$code.=<<___;
ldx [$np+$i*8],@N[$i]
___
}
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for(; $i<28 && $i<$NUM; $i++) {
$code.=<<___;
ldx [$np+$i*8],@N[$i]
___
}
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for(; $i<$NUM; $i++) {
$code.=<<___;
ldx [$np+$i*8],@N[$i]
___
}
# load pwrtbl[pwr] ########################################################
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
srlx $pwr, 32, %o4 ! unpack $pwr
srl $pwr, %g0, %o5
sub %o4, 5, %o4
mov $pwrtbl, %o7
sllx %o4, 32, $pwr ! re-pack $pwr
or %o5, $pwr, $pwr
srl %o5, %o4, %o5
___
&load_ccr("%o7","%o5","%o4");
$code.=<<___;
b .Lstride_$NUM
nop
.align 16
.Lstride_$NUM:
___
for($i=0; $i<14 && $i<$NUM; $i+=2) {
&load_b_pair("%o7",@B[$i],@B[$i+1]);
}
$code.=<<___;
save %sp,-128,%sp; or $sentinel,%fp,%fp
___
for(; $i<$NUM; $i+=2) {
&load_b_pair("%i7",@B[$i],@B[$i+1]);
}
$code.=<<___;
srax $pwr, 32, %o4 ! unpack $pwr
srl $pwr, %g0, %o5
sub %o4, 5, %o4
mov $pwrtbl, %i7
sllx %o4, 32, $pwr ! re-pack $pwr
or %o5, $pwr, $pwr
srl %o5, %o4, %o5
___
&load_ccr("%i7","%o5","%o4",1);
# magic ################################################################
for($i=0; $i<5; $i++) {
$code.=<<___;
.word 0x81b02940+$NUM-1 ! montsqr $NUM-1
fbu,pn %fcc3,.Labort_$NUM
#ifndef __arch64__
and %fp,$sentinel,$sentinel
brz,pn $sentinel,.Labort_$NUM
#endif
nop
___
}
$code.=<<___;
wr %o4, %g0, %ccr
.word 0x81b02920+$NUM-1 ! montmul $NUM-1
fbu,pn %fcc3,.Labort_$NUM
#ifndef __arch64__
and %fp,$sentinel,$sentinel
brz,pn $sentinel,.Labort_$NUM
#endif
srax $pwr, 32, %o4
#ifdef __arch64__
brgez %o4,.Lstride_$NUM
restore
restore
restore
restore
restore
#else
brgez %o4,.Lstride_$NUM
restore; and %fp,$sentinel,$sentinel
restore; and %fp,$sentinel,$sentinel
restore; and %fp,$sentinel,$sentinel
restore; and %fp,$sentinel,$sentinel
brz,pn $sentinel,.Labort1_$NUM
restore
#endif
___
# save tp[$NUM] ########################################################
for($i=0; $i<14 && $i<$NUM; $i++) {
$code.=<<___;
movxtod @A[$i],@R[$i]
___
}
$code.=<<___;
#ifdef __arch64__
restore
#else
and %fp,$sentinel,$sentinel
restore
and $sentinel,1,%o7
and %fp,$sentinel,$sentinel
srl %fp,0,%fp ! just in case?
or %o7,$sentinel,$sentinel
brz,a,pn $sentinel,.Ldone_$NUM
mov 0,%i0 ! return failure
#endif
___
for($i=0; $i<$NUM; $i++) {
$code.=<<___;
std @R[$i],[$tp+$i*8]
___
}
$code.=<<___;
mov 1,%i0 ! return success
.Ldone_$NUM:
ret
restore
.Labort_$NUM:
restore
restore
restore
restore
restore
.Labort1_$NUM:
restore
mov 0,%i0 ! return failure
ret
restore
.type bn_pwr5_mont_t4_$NUM, #function
.size bn_pwr5_mont_t4_$NUM, .-bn_pwr5_mont_t4_$NUM
___
}
for ($i=8;$i<=32;$i+=8) {
&generate_bn_pwr5_mont_t4($i);
}
{
########################################################################
# Fall-back subroutines
#
# copy of bn_mul_mont_vis3 adjusted for vectors of 64-bit values
#
($n0,$m0,$m1,$lo0,$hi0, $lo1,$hi1,$aj,$alo,$nj,$nlo,$tj)=
(map("%g$_",(1..5)),map("%o$_",(0..5,7)));
# int bn_mul_mont(
$rp="%o0"; # u64 *rp,
$ap="%o1"; # const u64 *ap,
$bp="%o2"; # const u64 *bp,
$np="%o3"; # const u64 *np,
$n0p="%o4"; # const BN_ULONG *n0,
$num="%o5"; # int num); # caller ensures that num is >=3
$code.=<<___;
.globl bn_mul_mont_t4
.align 32
bn_mul_mont_t4:
add %sp, STACK_BIAS, %g4 ! real top of stack
sll $num, 3, $num ! size in bytes
add $num, 63, %g1
andn %g1, 63, %g1 ! buffer size rounded up to 64 bytes
sub %g4, %g1, %g1
andn %g1, 63, %g1 ! align at 64 byte
sub %g1, STACK_FRAME, %g1 ! new top of stack
sub %g1, %g4, %g1
save %sp, %g1, %sp
___
# +-------------------------------+<----- %sp
# . .
# +-------------------------------+<----- aligned at 64 bytes
# | __int64 tmp[0] |
# +-------------------------------+
# . .
# . .
# +-------------------------------+<----- aligned at 64 bytes
# . .
($rp,$ap,$bp,$np,$n0p,$num)=map("%i$_",(0..5));
($t0,$t1,$t2,$t3,$cnt,$tp,$bufsz)=map("%l$_",(0..7));
($ovf,$i)=($t0,$t1);
$code.=<<___;
ld [$n0p+0], $t0 ! pull n0[0..1] value
ld [$n0p+4], $t1
add %sp, STACK_BIAS+STACK_FRAME, $tp
ldx [$bp+0], $m0 ! m0=bp[0]
sllx $t1, 32, $n0
add $bp, 8, $bp
or $t0, $n0, $n0
ldx [$ap+0], $aj ! ap[0]
mulx $aj, $m0, $lo0 ! ap[0]*bp[0]
umulxhi $aj, $m0, $hi0
ldx [$ap+8], $aj ! ap[1]
add $ap, 16, $ap
ldx [$np+0], $nj ! np[0]
mulx $lo0, $n0, $m1 ! "tp[0]"*n0
mulx $aj, $m0, $alo ! ap[1]*bp[0]
umulxhi $aj, $m0, $aj ! ahi=aj
mulx $nj, $m1, $lo1 ! np[0]*m1
umulxhi $nj, $m1, $hi1
ldx [$np+8], $nj ! np[1]
addcc $lo0, $lo1, $lo1
add $np, 16, $np
addxc %g0, $hi1, $hi1
mulx $nj, $m1, $nlo ! np[1]*m1
umulxhi $nj, $m1, $nj ! nhi=nj
ba .L1st
sub $num, 24, $cnt ! cnt=num-3
.align 16
.L1st:
addcc $alo, $hi0, $lo0
addxc $aj, %g0, $hi0
ldx [$ap+0], $aj ! ap[j]
addcc $nlo, $hi1, $lo1
add $ap, 8, $ap
addxc $nj, %g0, $hi1 ! nhi=nj
ldx [$np+0], $nj ! np[j]
mulx $aj, $m0, $alo ! ap[j]*bp[0]
add $np, 8, $np
umulxhi $aj, $m0, $aj ! ahi=aj
mulx $nj, $m1, $nlo ! np[j]*m1
addcc $lo0, $lo1, $lo1 ! np[j]*m1+ap[j]*bp[0]
umulxhi $nj, $m1, $nj ! nhi=nj
addxc %g0, $hi1, $hi1
stxa $lo1, [$tp]0xe2 ! tp[j-1]
add $tp, 8, $tp ! tp++
brnz,pt $cnt, .L1st
sub $cnt, 8, $cnt ! j--
!.L1st
addcc $alo, $hi0, $lo0
addxc $aj, %g0, $hi0 ! ahi=aj
addcc $nlo, $hi1, $lo1
addxc $nj, %g0, $hi1
addcc $lo0, $lo1, $lo1 ! np[j]*m1+ap[j]*bp[0]
addxc %g0, $hi1, $hi1
stxa $lo1, [$tp]0xe2 ! tp[j-1]
add $tp, 8, $tp
addcc $hi0, $hi1, $hi1
addxc %g0, %g0, $ovf ! upmost overflow bit
stxa $hi1, [$tp]0xe2
add $tp, 8, $tp
ba .Louter
sub $num, 16, $i ! i=num-2
.align 16
.Louter:
ldx [$bp+0], $m0 ! m0=bp[i]
add $bp, 8, $bp
sub $ap, $num, $ap ! rewind
sub $np, $num, $np
sub $tp, $num, $tp
ldx [$ap+0], $aj ! ap[0]
ldx [$np+0], $nj ! np[0]
mulx $aj, $m0, $lo0 ! ap[0]*bp[i]
ldx [$tp], $tj ! tp[0]
umulxhi $aj, $m0, $hi0
ldx [$ap+8], $aj ! ap[1]
addcc $lo0, $tj, $lo0 ! ap[0]*bp[i]+tp[0]
mulx $aj, $m0, $alo ! ap[1]*bp[i]
addxc %g0, $hi0, $hi0
mulx $lo0, $n0, $m1 ! tp[0]*n0
umulxhi $aj, $m0, $aj ! ahi=aj
mulx $nj, $m1, $lo1 ! np[0]*m1
add $ap, 16, $ap
umulxhi $nj, $m1, $hi1
ldx [$np+8], $nj ! np[1]
add $np, 16, $np
addcc $lo1, $lo0, $lo1
mulx $nj, $m1, $nlo ! np[1]*m1
addxc %g0, $hi1, $hi1
umulxhi $nj, $m1, $nj ! nhi=nj
ba .Linner
sub $num, 24, $cnt ! cnt=num-3
.align 16
.Linner:
addcc $alo, $hi0, $lo0
ldx [$tp+8], $tj ! tp[j]
addxc $aj, %g0, $hi0 ! ahi=aj
ldx [$ap+0], $aj ! ap[j]
add $ap, 8, $ap
addcc $nlo, $hi1, $lo1
mulx $aj, $m0, $alo ! ap[j]*bp[i]
addxc $nj, %g0, $hi1 ! nhi=nj
ldx [$np+0], $nj ! np[j]
add $np, 8, $np
umulxhi $aj, $m0, $aj ! ahi=aj
addcc $lo0, $tj, $lo0 ! ap[j]*bp[i]+tp[j]
mulx $nj, $m1, $nlo ! np[j]*m1
addxc %g0, $hi0, $hi0
umulxhi $nj, $m1, $nj ! nhi=nj
addcc $lo1, $lo0, $lo1 ! np[j]*m1+ap[j]*bp[i]+tp[j]
addxc %g0, $hi1, $hi1
stx $lo1, [$tp] ! tp[j-1]
add $tp, 8, $tp
brnz,pt $cnt, .Linner
sub $cnt, 8, $cnt
!.Linner
ldx [$tp+8], $tj ! tp[j]
addcc $alo, $hi0, $lo0
addxc $aj, %g0, $hi0 ! ahi=aj
addcc $lo0, $tj, $lo0 ! ap[j]*bp[i]+tp[j]
addxc %g0, $hi0, $hi0
addcc $nlo, $hi1, $lo1
addxc $nj, %g0, $hi1 ! nhi=nj
addcc $lo1, $lo0, $lo1 ! np[j]*m1+ap[j]*bp[i]+tp[j]
addxc %g0, $hi1, $hi1
stx $lo1, [$tp] ! tp[j-1]
subcc %g0, $ovf, %g0 ! move upmost overflow to CCR.xcc
addxccc $hi1, $hi0, $hi1
addxc %g0, %g0, $ovf
stx $hi1, [$tp+8]
add $tp, 16, $tp
brnz,pt $i, .Louter
sub $i, 8, $i
sub $ap, $num, $ap ! rewind
sub $np, $num, $np
sub $tp, $num, $tp
ba .Lsub
subcc $num, 8, $cnt ! cnt=num-1 and clear CCR.xcc
.align 16
.Lsub:
ldx [$tp], $tj
add $tp, 8, $tp
ldx [$np+0], $nj
add $np, 8, $np
subccc $tj, $nj, $t2 ! tp[j]-np[j]
srlx $tj, 32, $tj
srlx $nj, 32, $nj
subccc $tj, $nj, $t3
add $rp, 8, $rp
st $t2, [$rp-4] ! reverse order
st $t3, [$rp-8]
brnz,pt $cnt, .Lsub
sub $cnt, 8, $cnt
sub $np, $num, $np ! rewind
sub $tp, $num, $tp
sub $rp, $num, $rp
subccc $ovf, %g0, $ovf ! handle upmost overflow bit
ba .Lcopy
sub $num, 8, $cnt
.align 16
.Lcopy: ! conditional copy
ldx [$tp], $tj
ldx [$rp+0], $t2
stx %g0, [$tp] ! zap
add $tp, 8, $tp
movcs %icc, $tj, $t2
stx $t2, [$rp+0]
add $rp, 8, $rp
brnz $cnt, .Lcopy
sub $cnt, 8, $cnt
mov 1, %o0
ret
restore
.type bn_mul_mont_t4, #function
.size bn_mul_mont_t4, .-bn_mul_mont_t4
___
# int bn_mul_mont_gather5(
$rp="%o0"; # u64 *rp,
$ap="%o1"; # const u64 *ap,
$bp="%o2"; # const u64 *pwrtbl,
$np="%o3"; # const u64 *np,
$n0p="%o4"; # const BN_ULONG *n0,
$num="%o5"; # int num, # caller ensures that num is >=3
# int power);
$code.=<<___;
.globl bn_mul_mont_gather5_t4
.align 32
bn_mul_mont_gather5_t4:
add %sp, STACK_BIAS, %g4 ! real top of stack
sll $num, 3, $num ! size in bytes
add $num, 63, %g1
andn %g1, 63, %g1 ! buffer size rounded up to 64 bytes
sub %g4, %g1, %g1
andn %g1, 63, %g1 ! align at 64 byte
sub %g1, STACK_FRAME, %g1 ! new top of stack
sub %g1, %g4, %g1
LDPTR [%sp+STACK_7thARG], %g4 ! load power, 7th argument
save %sp, %g1, %sp
___
# +-------------------------------+<----- %sp
# . .
# +-------------------------------+<----- aligned at 64 bytes
# | __int64 tmp[0] |
# +-------------------------------+
# . .
# . .
# +-------------------------------+<----- aligned at 64 bytes
# . .
($rp,$ap,$bp,$np,$n0p,$num)=map("%i$_",(0..5));
($t0,$t1,$t2,$t3,$cnt,$tp,$bufsz,$ccr)=map("%l$_",(0..7));
($ovf,$i)=($t0,$t1);
&load_ccr($bp,"%g4",$ccr);
&load_b($bp,$m0,"%o7"); # m0=bp[0]
$code.=<<___;
ld [$n0p+0], $t0 ! pull n0[0..1] value
ld [$n0p+4], $t1
add %sp, STACK_BIAS+STACK_FRAME, $tp
sllx $t1, 32, $n0
or $t0, $n0, $n0
ldx [$ap+0], $aj ! ap[0]
mulx $aj, $m0, $lo0 ! ap[0]*bp[0]
umulxhi $aj, $m0, $hi0
ldx [$ap+8], $aj ! ap[1]
add $ap, 16, $ap
ldx [$np+0], $nj ! np[0]
mulx $lo0, $n0, $m1 ! "tp[0]"*n0
mulx $aj, $m0, $alo ! ap[1]*bp[0]
umulxhi $aj, $m0, $aj ! ahi=aj
mulx $nj, $m1, $lo1 ! np[0]*m1
umulxhi $nj, $m1, $hi1
ldx [$np+8], $nj ! np[1]
addcc $lo0, $lo1, $lo1
add $np, 16, $np
addxc %g0, $hi1, $hi1
mulx $nj, $m1, $nlo ! np[1]*m1
umulxhi $nj, $m1, $nj ! nhi=nj
ba .L1st_g5
sub $num, 24, $cnt ! cnt=num-3
.align 16
.L1st_g5:
addcc $alo, $hi0, $lo0
addxc $aj, %g0, $hi0
ldx [$ap+0], $aj ! ap[j]
addcc $nlo, $hi1, $lo1
add $ap, 8, $ap
addxc $nj, %g0, $hi1 ! nhi=nj
ldx [$np+0], $nj ! np[j]
mulx $aj, $m0, $alo ! ap[j]*bp[0]
add $np, 8, $np
umulxhi $aj, $m0, $aj ! ahi=aj
mulx $nj, $m1, $nlo ! np[j]*m1
addcc $lo0, $lo1, $lo1 ! np[j]*m1+ap[j]*bp[0]
umulxhi $nj, $m1, $nj ! nhi=nj
addxc %g0, $hi1, $hi1
stxa $lo1, [$tp]0xe2 ! tp[j-1]
add $tp, 8, $tp ! tp++
brnz,pt $cnt, .L1st_g5
sub $cnt, 8, $cnt ! j--
!.L1st_g5
addcc $alo, $hi0, $lo0
addxc $aj, %g0, $hi0 ! ahi=aj
addcc $nlo, $hi1, $lo1
addxc $nj, %g0, $hi1
addcc $lo0, $lo1, $lo1 ! np[j]*m1+ap[j]*bp[0]
addxc %g0, $hi1, $hi1
stxa $lo1, [$tp]0xe2 ! tp[j-1]
add $tp, 8, $tp
addcc $hi0, $hi1, $hi1
addxc %g0, %g0, $ovf ! upmost overflow bit
stxa $hi1, [$tp]0xe2
add $tp, 8, $tp
ba .Louter_g5
sub $num, 16, $i ! i=num-2
.align 16
.Louter_g5:
wr $ccr, %g0, %ccr
___
&load_b($bp,$m0); # m0=bp[i]
$code.=<<___;
sub $ap, $num, $ap ! rewind
sub $np, $num, $np
sub $tp, $num, $tp
ldx [$ap+0], $aj ! ap[0]
ldx [$np+0], $nj ! np[0]
mulx $aj, $m0, $lo0 ! ap[0]*bp[i]
ldx [$tp], $tj ! tp[0]
umulxhi $aj, $m0, $hi0
ldx [$ap+8], $aj ! ap[1]
addcc $lo0, $tj, $lo0 ! ap[0]*bp[i]+tp[0]
mulx $aj, $m0, $alo ! ap[1]*bp[i]
addxc %g0, $hi0, $hi0
mulx $lo0, $n0, $m1 ! tp[0]*n0
umulxhi $aj, $m0, $aj ! ahi=aj
mulx $nj, $m1, $lo1 ! np[0]*m1
add $ap, 16, $ap
umulxhi $nj, $m1, $hi1
ldx [$np+8], $nj ! np[1]
add $np, 16, $np
addcc $lo1, $lo0, $lo1
mulx $nj, $m1, $nlo ! np[1]*m1
addxc %g0, $hi1, $hi1
umulxhi $nj, $m1, $nj ! nhi=nj
ba .Linner_g5
sub $num, 24, $cnt ! cnt=num-3
.align 16
.Linner_g5:
addcc $alo, $hi0, $lo0
ldx [$tp+8], $tj ! tp[j]
addxc $aj, %g0, $hi0 ! ahi=aj
ldx [$ap+0], $aj ! ap[j]
add $ap, 8, $ap
addcc $nlo, $hi1, $lo1
mulx $aj, $m0, $alo ! ap[j]*bp[i]
addxc $nj, %g0, $hi1 ! nhi=nj
ldx [$np+0], $nj ! np[j]
add $np, 8, $np
umulxhi $aj, $m0, $aj ! ahi=aj
addcc $lo0, $tj, $lo0 ! ap[j]*bp[i]+tp[j]
mulx $nj, $m1, $nlo ! np[j]*m1
addxc %g0, $hi0, $hi0
umulxhi $nj, $m1, $nj ! nhi=nj
addcc $lo1, $lo0, $lo1 ! np[j]*m1+ap[j]*bp[i]+tp[j]
addxc %g0, $hi1, $hi1
stx $lo1, [$tp] ! tp[j-1]
add $tp, 8, $tp
brnz,pt $cnt, .Linner_g5
sub $cnt, 8, $cnt
!.Linner_g5
ldx [$tp+8], $tj ! tp[j]
addcc $alo, $hi0, $lo0
addxc $aj, %g0, $hi0 ! ahi=aj
addcc $lo0, $tj, $lo0 ! ap[j]*bp[i]+tp[j]
addxc %g0, $hi0, $hi0
addcc $nlo, $hi1, $lo1
addxc $nj, %g0, $hi1 ! nhi=nj
addcc $lo1, $lo0, $lo1 ! np[j]*m1+ap[j]*bp[i]+tp[j]
addxc %g0, $hi1, $hi1
stx $lo1, [$tp] ! tp[j-1]
subcc %g0, $ovf, %g0 ! move upmost overflow to CCR.xcc
addxccc $hi1, $hi0, $hi1
addxc %g0, %g0, $ovf
stx $hi1, [$tp+8]
add $tp, 16, $tp
brnz,pt $i, .Louter_g5
sub $i, 8, $i
sub $ap, $num, $ap ! rewind
sub $np, $num, $np
sub $tp, $num, $tp
ba .Lsub_g5
subcc $num, 8, $cnt ! cnt=num-1 and clear CCR.xcc
.align 16
.Lsub_g5:
ldx [$tp], $tj
add $tp, 8, $tp
ldx [$np+0], $nj
add $np, 8, $np
subccc $tj, $nj, $t2 ! tp[j]-np[j]
srlx $tj, 32, $tj
srlx $nj, 32, $nj
subccc $tj, $nj, $t3
add $rp, 8, $rp
st $t2, [$rp-4] ! reverse order
st $t3, [$rp-8]
brnz,pt $cnt, .Lsub_g5
sub $cnt, 8, $cnt
sub $np, $num, $np ! rewind
sub $tp, $num, $tp
sub $rp, $num, $rp
subccc $ovf, %g0, $ovf ! handle upmost overflow bit
ba .Lcopy_g5
sub $num, 8, $cnt
.align 16
.Lcopy_g5: ! conditional copy
ldx [$tp], $tj
ldx [$rp+0], $t2
stx %g0, [$tp] ! zap
add $tp, 8, $tp
movcs %icc, $tj, $t2
stx $t2, [$rp+0]
add $rp, 8, $rp
brnz $cnt, .Lcopy_g5
sub $cnt, 8, $cnt
mov 1, %o0
ret
restore
.type bn_mul_mont_gather5_t4, #function
.size bn_mul_mont_gather5_t4, .-bn_mul_mont_gather5_t4
___
}
$code.=<<___;
.globl bn_flip_t4
.align 32
bn_flip_t4:
.Loop_flip:
ld [%o1+0], %o4
sub %o2, 1, %o2
ld [%o1+4], %o5
add %o1, 8, %o1
st %o5, [%o0+0]
st %o4, [%o0+4]
brnz %o2, .Loop_flip
add %o0, 8, %o0
retl
nop
.type bn_flip_t4, #function
.size bn_flip_t4, .-bn_flip_t4
.globl bn_flip_n_scatter5_t4
.align 32
bn_flip_n_scatter5_t4:
sll %o3, 3, %o3
srl %o1, 1, %o1
add %o3, %o2, %o2 ! &pwrtbl[pwr]
sub %o1, 1, %o1
.Loop_flip_n_scatter5:
ld [%o0+0], %o4 ! inp[i]
ld [%o0+4], %o5
add %o0, 8, %o0
sllx %o5, 32, %o5
or %o4, %o5, %o5
stx %o5, [%o2]
add %o2, 32*8, %o2
brnz %o1, .Loop_flip_n_scatter5
sub %o1, 1, %o1
retl
nop
.type bn_flip_n_scatter5_t4, #function
.size bn_flip_n_scatter5_t4, .-bn_flip_n_scatter5_t4
.globl bn_gather5_t4
.align 32
bn_gather5_t4:
___
&load_ccr("%o2","%o3","%g1");
$code.=<<___;
sub %o1, 1, %o1
.Loop_gather5:
___
&load_b("%o2","%g1");
$code.=<<___;
stx %g1, [%o0]
add %o0, 8, %o0
brnz %o1, .Loop_gather5
sub %o1, 1, %o1
retl
nop
.type bn_gather5_t4, #function
.size bn_gather5_t4, .-bn_gather5_t4
.asciz "Montgomery Multiplication for SPARC T4, David S. Miller, Andy Polyakov"
.align 4
___
&emit_assembler();
close STDOUT;