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author | Patrick Steuer <patrick.steuer@de.ibm.com> | 2017-02-06 10:54:54 +0100 |
---|---|---|
committer | Richard Levitte <levitte@openssl.org> | 2019-02-05 15:43:40 +0100 |
commit | d6f4b0a8bfbe901c72294d8923eb5b6f54ca7732 (patch) | |
tree | 5a9b2c895af277908ca8e90abd5f6a89733cbc02 /crypto/poly1305/asm/poly1305-s390x.pl | |
parent | Make some simple getters take const SSL/SSL_CTX (diff) | |
download | openssl-d6f4b0a8bfbe901c72294d8923eb5b6f54ca7732.tar.xz openssl-d6f4b0a8bfbe901c72294d8923eb5b6f54ca7732.zip |
crypto/poly1305/asm/poly1305-s390x.pl: add vx code path.
Signed-off-by: Patrick Steuer <patrick.steuer@de.ibm.com>
Reviewed-by: Matt Caswell <matt@openssl.org>
Reviewed-by: Richard Levitte <levitte@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/7991)
Diffstat (limited to '')
-rwxr-xr-x | crypto/poly1305/asm/poly1305-s390x.pl | 944 |
1 files changed, 780 insertions, 164 deletions
diff --git a/crypto/poly1305/asm/poly1305-s390x.pl b/crypto/poly1305/asm/poly1305-s390x.pl index 21ca86055e..390f9eefe7 100755 --- a/crypto/poly1305/asm/poly1305-s390x.pl +++ b/crypto/poly1305/asm/poly1305-s390x.pl @@ -24,204 +24,820 @@ # # On side note, z13 enables vector base 2^26 implementation... -$flavour = shift; +# +# January 2019 +# +# Add vx code path (base 2^26). +# +# Copyright IBM Corp. 2019 +# Author: Patrick Steuer <patrick.steuer@de.ibm.com> +use strict; +use FindBin qw($Bin); +use lib "$Bin/../.."; +use perlasm::s390x qw(:DEFAULT :VX AUTOLOAD LABEL); + +my $flavour = shift; + +my ($z,$SIZE_T); if ($flavour =~ /3[12]/) { + $z=0; # S/390 ABI $SIZE_T=4; - $g=""; } else { + $z=1; # zSeries ABI $SIZE_T=8; - $g="g"; } +my $output; while (($output=shift) && ($output!~/\w[\w\-]*\.\w+$/)) {} -open STDOUT,">$output"; -$sp="%r15"; +my $sp="%r15"; + +# novx code path ctx layout +# --------------------------------- +# var value base off +# --------------------------------- +# u64 h[3] hash 2^64 0 +# u32 pad[2] +# u64 r[2] key 2^64 32 + +# vx code path ctx layout +# --------------------------------- +# var value base off +# --------------------------------- +# u32 acc1[5] r^2-acc 2^26 0 +# u32 pad +# u32 acc2[5] r-acc 2^26 24 +# u32 pad +# u32 r1[5] r 2^26 48 +# u32 r15[5] 5*r 2^26 68 +# u32 r2[5] r^2 2^26 88 +# u32 r25[5] 5*r^2 2^26 108 +# u32 r4[5] r^4 2^26 128 +# u32 r45[5] 5*r^4 2^26 148 + +PERLASM_BEGIN($output); + +TEXT (); + +################ +# static void poly1305_init(void *ctx, const unsigned char key[16]) +{ +my ($ctx,$key)=map("%r$_",(2..3)); +my ($r0,$r1,$r2)=map("%r$_",(9,11,13)); -my ($ctx,$inp,$len,$padbit) = map("%r$_",(2..5)); +sub MUL_RKEY { # r*=key +my ($d0hi,$d0lo,$d1hi,$d1lo)=map("%r$_",(4..7)); +my ($t0,$t1,$s1)=map("%r$_",(8,10,12)); + + lg ("%r0","32($ctx)"); + lg ("%r1","40($ctx)"); + + srlg ($s1,"%r1",2); + algr ($s1,"%r1"); + + lgr ($d0lo,$r0); + lgr ($d1lo,$r1); + + mlgr ($d0hi,"%r0"); + lgr ($r1,$d1lo); + mlgr ($d1hi,$s1); + + mlgr ($t0,"%r1"); + mlgr ($t1,"%r0"); + + algr ($d0lo,$d1lo); + lgr ($d1lo,$r2); + alcgr ($d0hi,$d1hi); + lghi ($d1hi,0); + + algr ($r1,$r0); + alcgr ($t1,$t0); + + msgr ($d1lo,$s1); + msgr ($r2,"%r0"); + + algr ($r1,$d1lo); + alcgr ($t1,$d1hi); + + algr ($r1,$d0hi); + alcgr ($r2,$t1); + + lghi ($r0,-4); + ngr ($r0,$r2); + srlg ($t0,$r2,2); + algr ($r0,$t0); + lghi ($t1,3); + ngr ($r2,$t1); + + algr ($r0,$d0lo); + alcgr ($r1,$d1hi); + alcgr ($r2,$d1hi); +} + +sub ST_R5R { # store r,5*r -> base 2^26 +my @d=map("%r$_",(4..8)); +my @off=@_; + + lgr (@d[2],$r0); + lr ("%r1",@d[2]); + nilh ("%r1",1023); + lgr (@d[3],$r1); + lr (@d[0],"%r1"); + srlg ("%r1",@d[2],52); + lgr (@d[4],$r2); + srlg ("%r0",@d[2],26); + sll (@d[4],24); + lr (@d[2],@d[3]); + nilh ("%r0",1023); + sll (@d[2],12); + lr (@d[1],"%r0"); + &or (@d[2],"%r1"); + srlg ("%r1",@d[3],40); + nilh (@d[2],1023); + &or (@d[4],"%r1"); + srlg (@d[3],@d[3],14); + nilh (@d[4],1023); + nilh (@d[3],1023); + + stm (@d[0],@d[4],"@off[0]($ctx)"); + mhi (@d[$_],5) for (0..4); + stm (@d[0],@d[4],"@off[1]($ctx)"); +} -$code.=<<___; -.text - -.globl poly1305_init -.type poly1305_init,\@function -.align 16 -poly1305_init: - lghi %r0,0 - lghi %r1,-1 - stg %r0,0($ctx) # zero hash value - stg %r0,8($ctx) - stg %r0,16($ctx) - - cl${g}r $inp,%r0 - je .Lno_key - - lrvg %r4,0($inp) # load little-endian key - lrvg %r5,8($inp) - - nihl %r1,0xffc0 # 0xffffffc0ffffffff - srlg %r0,%r1,4 # 0x0ffffffc0fffffff - srlg %r1,%r1,4 - nill %r1,0xfffc # 0x0ffffffc0ffffffc - - ngr %r4,%r0 - ngr %r5,%r1 - - stg %r4,32($ctx) - stg %r5,40($ctx) - -.Lno_key: - lghi %r2,0 - br %r14 -.size poly1305_init,.-poly1305_init -___ +GLOBL ("poly1305_init"); +TYPE ("poly1305_init","\@function"); +ALIGN (16); +LABEL ("poly1305_init"); + lghi ("%r0",0); + lghi ("%r1",-1); + stg ("%r0","0($ctx)"); # zero hash value / acc1 + stg ("%r0","8($ctx)"); + stg ("%r0","16($ctx)"); + +&{$z? \&clgr:\&clr} ($key,"%r0"); + je (".Ldone"); + + lrvg ("%r4","0($key)"); # load little-endian key + lrvg ("%r5","8($key)"); + + nihl ("%r1",0xffc0); # 0xffffffc0ffffffff + srlg ("%r0","%r1",4); # 0x0ffffffc0fffffff + srlg ("%r1","%r1",4); + nill ("%r1",0xfffc); # 0x0ffffffc0ffffffc + + ngr ("%r4","%r0"); + ngr ("%r5","%r1"); + + stg ("%r4","32($ctx)"); + stg ("%r5","40($ctx)"); + + larl ("%r1","OPENSSL_s390xcap_P"); + lg ("%r0","16(%r1)"); + tmhh ("%r0",0x4000); # check for vector facility + jz (".Ldone"); + + larl ("%r4","poly1305_blocks_vx"); + larl ("%r5","poly1305_emit_vx"); + +&{$z? \&stmg:\&stm} ("%r6","%r13","6*$SIZE_T($sp)"); +&{$z? \&stmg:\&stm} ("%r4","%r5","4*$z+228($ctx)"); + + lg ($r0,"32($ctx)"); + lg ($r1,"40($ctx)"); + lghi ($r2,0); + + ST_R5R (48,68); # store r,5*r + + MUL_RKEY(); + ST_R5R (88,108); # store r^2,5*r^2 + + MUL_RKEY(); + MUL_RKEY(); + ST_R5R (128,148); # store r^4,5*r^4 + + lghi ("%r0",0); + stg ("%r0","24($ctx)"); # zero acc2 + stg ("%r0","32($ctx)"); + stg ("%r0","40($ctx)"); + +&{$z? \&lmg:\&lm} ("%r6","%r13","6*$SIZE_T($sp)"); + lghi ("%r2",1); + br ("%r14"); + +LABEL (".Ldone"); + lghi ("%r2",0); + br ("%r14"); +SIZE ("poly1305_init",".-poly1305_init"); +} + +# VX CODE PATH { -my ($d0hi,$d0lo,$d1hi,$d1lo,$t0,$h0,$t1,$h1,$h2) = map("%r$_",(6..14)); -my ($r0,$r1,$s1) = map("%r$_",(0..2)); +my $frame=8*16; +my @m01=map("%v$_",(0..4)); +my @m23=map("%v$_",(5..9)); +my @tmp=@m23; +my @acc=map("%v$_",(10..14)); +my @r=map("%v$_",(15..19)); +my @r5=map("%v$_",(20..24)); +my $padvec="%v26"; +my $mask4="%v27"; +my @vperm=map("%v$_",(28..30)); +my $mask="%v31"; + +sub REDUCE { + vesrlg (@tmp[0],@acc[0],26); + vesrlg (@tmp[3],@acc[3],26); + vn (@acc[0],@acc[0],$mask); + vn (@acc[3],@acc[3],$mask); + vag (@acc[1],@acc[1],@tmp[0]); # carry 0->1 + vag (@acc[4],@acc[4],@tmp[3]); # carry 3->4 + + vesrlg (@tmp[1],@acc[1],26); + vesrlg (@tmp[4],@acc[4],26); + vn (@acc[1],@acc[1],$mask); + vn (@acc[4],@acc[4],$mask); + veslg (@tmp[0],@tmp[4],2); + vag (@tmp[4],@tmp[4],@tmp[0]); # h[4]*=5 + vag (@acc[2],@acc[2],@tmp[1]); # carry 1->2 + vag (@acc[0],@acc[0],@tmp[4]); # carry 4->0 + + vesrlg (@tmp[2],@acc[2],26); + vesrlg (@tmp[0],@acc[0],26); + vn (@acc[2],@acc[2],$mask); + vn (@acc[0],@acc[0],$mask); + vag (@acc[3],@acc[3],@tmp[2]); # carry 2->3 + vag (@acc[1],@acc[1],@tmp[0]); # carry 0->1 + + vesrlg (@tmp[3],@acc[3],26); + vn (@acc[3],@acc[3],$mask); + vag (@acc[4],@acc[4],@tmp[3]); # carry 3->4 +} -$code.=<<___; -.globl poly1305_blocks -.type poly1305_blocks,\@function -.align 16 -poly1305_blocks: - srl${g} $len,4 # fixed-up in 64-bit build - lghi %r0,0 - cl${g}r $len,%r0 - je .Lno_data +################ +# static void poly1305_blocks_vx(void *ctx, const unsigned char *inp, +# size_t len, u32 padbit) +{ +my ($ctx,$inp,$len) = map("%r$_",(2..4)); +my $padbit="%r0"; + +GLOBL ("poly1305_blocks_vx"); +TYPE ("poly1305_blocks_vx","\@function"); +ALIGN (16); +LABEL ("poly1305_blocks_vx"); +if ($z) { + aghi ($sp,-$frame); + vstm ("%v8","%v15","0($sp)"); +} else { + std ("%f4","16*$SIZE_T+2*8($sp)"); + std ("%f6","16*$SIZE_T+3*8($sp)"); + llgfr ($len,$len); +} + llgfr ($padbit,"%r5"); + vlef (@acc[$_],"4*$_($ctx)",1) for (0..4); # load acc1 + larl ("%r5",".Lconst"); + vlef (@acc[$_],"24+4*$_($ctx)",3) for (0..4); # load acc2 + sllg ($padbit,$padbit,24); + vlm (@vperm[0],$mask,"0(%r5)"); # load vperm ops, mask + vgbm ($mask4,0x0707); + vlvgp ($padvec,$padbit,$padbit); + + srlg ("%r1",$len,6); + ltgr ("%r1","%r1"); + jz (".Lvx_4x_done"); + +ALIGN (16); +LABEL (".Lvx_4x"); + vlm ("%v20","%v23","0($inp)"); # load m0,m1,m2,m3 + + # m01,m23 -> base 2^26 + + vperm (@m01[0],"%v20","%v21",@vperm[0]); + vperm (@m23[0],"%v22","%v23",@vperm[0]); + vperm (@m01[2],"%v20","%v21",@vperm[1]); + vperm (@m23[2],"%v22","%v23",@vperm[1]); + vperm (@m01[4],"%v20","%v21",@vperm[2]); + vperm (@m23[4],"%v22","%v23",@vperm[2]); + + vesrlg (@m01[1],@m01[0],26); + vesrlg (@m23[1],@m23[0],26); + vesrlg (@m01[3],@m01[2],30); + vesrlg (@m23[3],@m23[2],30); + vesrlg (@m01[2],@m01[2],4); + vesrlg (@m23[2],@m23[2],4); + + vn (@m01[4],@m01[4],$mask4); + vn (@m23[4],@m23[4],$mask4); +for (0..3) { + vn (@m01[$_],@m01[$_],$mask); + vn (@m23[$_],@m23[$_],$mask); +} + vaf (@m01[4],@m01[4],$padvec); # pad m01 + vaf (@m23[4],@m23[4],$padvec); # pad m23 + + # acc = acc * r^4 + m01 * r^2 + m23 + + vlrepf (@r5[$_],"4*$_+108($ctx)") for (0..4); # load 5*r^2 + vlrepf (@r[$_],"4*$_+88($ctx)") for (0..4); # load r^2 + + vmalof (@tmp[0],@m01[4],@r5[1],@m23[0]); + vmalof (@tmp[1],@m01[4],@r5[2],@m23[1]); + vmalof (@tmp[2],@m01[4],@r5[3],@m23[2]); + vmalof (@tmp[3],@m01[4],@r5[4],@m23[3]); + vmalof (@tmp[4],@m01[4],@r[0],@m23[4]); + + vmalof (@tmp[0],@m01[3],@r5[2],@tmp[0]); + vmalof (@tmp[1],@m01[3],@r5[3],@tmp[1]); + vmalof (@tmp[2],@m01[3],@r5[4],@tmp[2]); + vmalof (@tmp[3],@m01[3],@r[0],@tmp[3]); + vmalof (@tmp[4],@m01[3],@r[1],@tmp[4]); + + vmalof (@tmp[0],@m01[2],@r5[3],@tmp[0]); + vmalof (@tmp[1],@m01[2],@r5[4],@tmp[1]); + vmalof (@tmp[2],@m01[2],@r[0],@tmp[2]); + vmalof (@tmp[3],@m01[2],@r[1],@tmp[3]); + vmalof (@tmp[4],@m01[2],@r[2],@tmp[4]); + + vmalof (@tmp[0],@m01[1],@r5[4],@tmp[0]); + vmalof (@tmp[1],@m01[1],@r[0],@tmp[1]); + vmalof (@tmp[2],@m01[1],@r[1],@tmp[2]); + vmalof (@tmp[3],@m01[1],@r[2],@tmp[3]); + vmalof (@tmp[4],@m01[1],@r[3],@tmp[4]); + + vmalof (@tmp[0],@m01[0],@r[0],@tmp[0]); + vmalof (@tmp[1],@m01[0],@r[1],@tmp[1]); + vmalof (@tmp[2],@m01[0],@r[2],@tmp[2]); + vmalof (@tmp[3],@m01[0],@r[3],@tmp[3]); + vmalof (@tmp[4],@m01[0],@r[4],@tmp[4]); + + vlrepf (@r5[$_],"4*$_+148($ctx)") for (0..4); # load 5*r^4 + vlrepf (@r[$_],"4*$_+128($ctx)") for (0..4); # load r^4 + + vmalof (@tmp[0],@acc[4],@r5[1],@tmp[0]); + vmalof (@tmp[1],@acc[4],@r5[2],@tmp[1]); + vmalof (@tmp[2],@acc[4],@r5[3],@tmp[2]); + vmalof (@tmp[3],@acc[4],@r5[4],@tmp[3]); + vmalof (@tmp[4],@acc[4],@r[0],@tmp[4]); + + vmalof (@tmp[0],@acc[3],@r5[2],@tmp[0]); + vmalof (@tmp[1],@acc[3],@r5[3],@tmp[1]); + vmalof (@tmp[2],@acc[3],@r5[4],@tmp[2]); + vmalof (@tmp[3],@acc[3],@r[0],@tmp[3]); + vmalof (@tmp[4],@acc[3],@r[1],@tmp[4]); + + vmalof (@tmp[0],@acc[2],@r5[3],@tmp[0]); + vmalof (@tmp[1],@acc[2],@r5[4],@tmp[1]); + vmalof (@tmp[2],@acc[2],@r[0],@tmp[2]); + vmalof (@tmp[3],@acc[2],@r[1],@tmp[3]); + vmalof (@tmp[4],@acc[2],@r[2],@tmp[4]); + + vmalof (@tmp[0],@acc[1],@r5[4],@tmp[0]); + vmalof (@tmp[1],@acc[1],@r[0],@tmp[1]); + vmalof (@tmp[2],@acc[1],@r[1],@tmp[2]); + vmalof (@tmp[3],@acc[1],@r[2],@tmp[3]); + vmalof (@tmp[4],@acc[1],@r[3],@tmp[4]); + + vmalof (@acc[1],@acc[0],@r[1],@tmp[1]); + vmalof (@acc[2],@acc[0],@r[2],@tmp[2]); + vmalof (@acc[3],@acc[0],@r[3],@tmp[3]); + vmalof (@acc[4],@acc[0],@r[4],@tmp[4]); + vmalof (@acc[0],@acc[0],@r[0],@tmp[0]); + + REDUCE (); + + la ($inp,"64($inp)"); + brctg ("%r1",".Lvx_4x"); + +ALIGN (16); +LABEL (".Lvx_4x_done"); + tml ($len,32); + jz (".Lvx_2x_done"); + + vlm ("%v20","%v21","0($inp)"); # load m0,m1 + + # m01 -> base 2^26 + + vperm (@m01[0],"%v20","%v21",@vperm[0]); + vperm (@m01[2],"%v20","%v21",@vperm[1]); + vperm (@m01[4],"%v20","%v21",@vperm[2]); + + vesrlg (@m01[1],@m01[0],26); + vesrlg (@m01[3],@m01[2],30); + vesrlg (@m01[2],@m01[2],4); + + vn (@m01[4],@m01[4],$mask4); + vn (@m01[$_],@m01[$_],$mask) for (0..3); + + vaf (@m01[4],@m01[4],$padvec); # pad m01 + + # acc = acc * r^2+ m01 + + vlrepf (@r5[$_],"4*$_+108($ctx)") for (0..4); # load 5*r^2 + vlrepf (@r[$_],"4*$_+88($ctx)") for (0..4); # load r^2 + + vmalof (@tmp[0],@acc[4],@r5[1],@m01[0]); + vmalof (@tmp[1],@acc[4],@r5[2],@m01[1]); + vmalof (@tmp[2],@acc[4],@r5[3],@m01[2]); + vmalof (@tmp[3],@acc[4],@r5[4],@m01[3]); + vmalof (@tmp[4],@acc[4],@r[0],@m01[4]); + + vmalof (@tmp[0],@acc[3],@r5[2],@tmp[0]); + vmalof (@tmp[1],@acc[3],@r5[3],@tmp[1]); + vmalof (@tmp[2],@acc[3],@r5[4],@tmp[2]); + vmalof (@tmp[3],@acc[3],@r[0],@tmp[3]); + vmalof (@tmp[4],@acc[3],@r[1],@tmp[4]); + + vmalof (@tmp[0],@acc[2],@r5[3],@tmp[0]); + vmalof (@tmp[1],@acc[2],@r5[4],@tmp[1]); + vmalof (@tmp[2],@acc[2],@r[0],@tmp[2]); + vmalof (@tmp[3],@acc[2],@r[1],@tmp[3]); + vmalof (@tmp[4],@acc[2],@r[2],@tmp[4]); + + vmalof (@tmp[0],@acc[1],@r5[4],@tmp[0]); + vmalof (@tmp[1],@acc[1],@r[0],@tmp[1]); + vmalof (@tmp[2],@acc[1],@r[1],@tmp[2]); + vmalof (@tmp[3],@acc[1],@r[2],@tmp[3]); + vmalof (@tmp[4],@acc[1],@r[3],@tmp[4]); + + vmalof (@acc[1],@acc[0],@r[1],@tmp[1]); + vmalof (@acc[2],@acc[0],@r[2],@tmp[2]); + vmalof (@acc[3],@acc[0],@r[3],@tmp[3]); + vmalof (@acc[4],@acc[0],@r[4],@tmp[4]); + vmalof (@acc[0],@acc[0],@r[0],@tmp[0]); + + REDUCE (); + + la ($inp,"32($inp)"); + +ALIGN (16); +LABEL (".Lvx_2x_done"); + tml ($len,16); + jz (".Lvx_done"); + + vleig ($padvec,0,0); + + vzero ("%v20"); + vl ("%v21","0($inp)"); # load m0 + + # m0 -> base 2^26 + + vperm (@m01[0],"%v20","%v21",@vperm[0]); + vperm (@m01[2],"%v20","%v21",@vperm[1]); + vperm (@m01[4],"%v20","%v21",@vperm[2]); + + vesrlg (@m01[1],@m01[0],26); + vesrlg (@m01[3],@m01[2],30); + vesrlg (@m01[2],@m01[2],4); + + vn (@m01[4],@m01[4],$mask4); + vn (@m01[$_],@m01[$_],$mask) for (0..3); + + vaf (@m01[4],@m01[4],$padvec); # pad m0 + + # acc = acc * r + m01 + + vlrepf (@r5[$_],"4*$_+68($ctx)") for (0..4); # load 5*r + vlrepf (@r[$_],"4*$_+48($ctx)") for (0..4); # load r + + vmalof (@tmp[0],@acc[4],@r5[1],@m01[0]); + vmalof (@tmp[1],@acc[4],@r5[2],@m01[1]); + vmalof (@tmp[2],@acc[4],@r5[3],@m01[2]); + vmalof (@tmp[3],@acc[4],@r5[4],@m01[3]); + vmalof (@tmp[4],@acc[4],@r[0],@m01[4]); + + vmalof (@tmp[0],@acc[3],@r5[2],@tmp[0]); + vmalof (@tmp[1],@acc[3],@r5[3],@tmp[1]); + vmalof (@tmp[2],@acc[3],@r5[4],@tmp[2]); + vmalof (@tmp[3],@acc[3],@r[0],@tmp[3]); + vmalof (@tmp[4],@acc[3],@r[1],@tmp[4]); + + vmalof (@tmp[0],@acc[2],@r5[3],@tmp[0]); + vmalof (@tmp[1],@acc[2],@r5[4],@tmp[1]); + vmalof (@tmp[2],@acc[2],@r[0],@tmp[2]); + vmalof (@tmp[3],@acc[2],@r[1],@tmp[3]); + vmalof (@tmp[4],@acc[2],@r[2],@tmp[4]); + + vmalof (@tmp[0],@acc[1],@r5[4],@tmp[0]); + vmalof (@tmp[1],@acc[1],@r[0],@tmp[1]); + vmalof (@tmp[2],@acc[1],@r[1],@tmp[2]); + vmalof (@tmp[3],@acc[1],@r[2],@tmp[3]); + vmalof (@tmp[4],@acc[1],@r[3],@tmp[4]); + + vmalof (@acc[1],@acc[0],@r[1],@tmp[1]); + vmalof (@acc[2],@acc[0],@r[2],@tmp[2]); + vmalof (@acc[3],@acc[0],@r[3],@tmp[3]); + vmalof (@acc[4],@acc[0],@r[4],@tmp[4]); + vmalof (@acc[0],@acc[0],@r[0],@tmp[0]); + + REDUCE (); + +ALIGN (16); +LABEL (".Lvx_done"); + vstef (@acc[$_],"4*$_($ctx)",1) for (0..4); # store acc + vstef (@acc[$_],"24+4*$_($ctx)",3) for (0..4); + +if ($z) { + vlm ("%v8","%v15","0($sp)"); + la ($sp,"$frame($sp)"); +} else { + ld ("%f4","16*$SIZE_T+2*8($sp)"); + ld ("%f6","16*$SIZE_T+3*8($sp)"); +} + br ("%r14"); +SIZE ("poly1305_blocks_vx",".-poly1305_blocks_vx"); +} - stm${g} %r6,%r14,`6*$SIZE_T`($sp) +################ +# static void poly1305_emit_vx(void *ctx, unsigned char mac[16], +# const u32 nonce[4]) +{ +my ($ctx,$mac,$nonce) = map("%r$_",(2..4)); + +GLOBL ("poly1305_emit_vx"); +TYPE ("poly1305_emit_vx","\@function"); +ALIGN (16); +LABEL ("poly1305_emit_vx"); +if ($z) { + aghi ($sp,-$frame); + vstm ("%v8","%v15","0($sp)"); +} else { + std ("%f4","16*$SIZE_T+2*8($sp)"); + std ("%f6","16*$SIZE_T+3*8($sp)"); +} + larl ("%r5",".Lconst"); - llgfr $padbit,$padbit # clear upper half, much needed with + vlef (@acc[$_],"4*$_($ctx)",1) for (0..4); # load acc1 + vlef (@acc[$_],"24+4*$_($ctx)",3) for (0..4); # load acc2 + vlef (@r5[$_],"108+4*$_($ctx)",1) for (0..4); # load 5*r^2 + vlef (@r[$_],"88+4*$_($ctx)",1) for (0..4); # load r^2 + vlef (@r5[$_],"68+4*$_($ctx)",3) for (0..4); # load 5*r + vlef (@r[$_],"48+4*$_($ctx)",3) for (0..4); # load r + vl ($mask,"48(%r5)"); # load mask + + # acc = acc1 * r^2 + acc2 * r + + vmlof (@tmp[0],@acc[4],@r5[1]); + vmlof (@tmp[1],@acc[4],@r5[2]); + vmlof (@tmp[2],@acc[4],@r5[3]); + vmlof (@tmp[3],@acc[4],@r5[4]); + vmlof (@tmp[4],@acc[4],@r[0]); + + vmalof (@tmp[0],@acc[3],@r5[2],@tmp[0]); + vmalof (@tmp[1],@acc[3],@r5[3],@tmp[1]); + vmalof (@tmp[2],@acc[3],@r5[4],@tmp[2]); + vmalof (@tmp[3],@acc[3],@r[0],@tmp[3]); + vmalof (@tmp[4],@acc[3],@r[1],@tmp[4]); + + vmalof (@tmp[0],@acc[2],@r5[3],@tmp[0]); + vmalof (@tmp[1],@acc[2],@r5[4],@tmp[1]); + vmalof (@tmp[2],@acc[2],@r[0],@tmp[2]); + vmalof (@tmp[3],@acc[2],@r[1],@tmp[3]); + vmalof (@tmp[4],@acc[2],@r[2],@tmp[4]); + + vmalof (@tmp[0],@acc[1],@r5[4],@tmp[0]); + vmalof (@tmp[1],@acc[1],@r[0],@tmp[1]); + vmalof (@tmp[2],@acc[1],@r[1],@tmp[2]); + vmalof (@tmp[3],@acc[1],@r[2],@tmp[3]); + vmalof (@tmp[4],@acc[1],@r[3],@tmp[4]); + + vmalof (@acc[1],@acc[0],@r[1],@tmp[1]); + vmalof (@acc[2],@acc[0],@r[2],@tmp[2]); + vmalof (@acc[3],@acc[0],@r[3],@tmp[3]); + vmalof (@acc[4],@acc[0],@r[4],@tmp[4]); + vmalof (@acc[0],@acc[0],@r[0],@tmp[0]); + + vzero ("%v27"); + vsumqg (@acc[$_],@acc[$_],"%v27") for (0..4); + + REDUCE (); + + vesrlg (@tmp[1],@acc[1],26); + vn (@acc[1],@acc[1],$mask); + vag (@acc[2],@acc[2],@tmp[1]); # carry 1->2 + + vesrlg (@tmp[2],@acc[2],26); + vn (@acc[2],@acc[2],$mask); + vag (@acc[3],@acc[3],@tmp[2]); # carry 2->3 + + vesrlg (@tmp[3],@acc[3],26); + vn (@acc[3],@acc[3],$mask); + vag (@acc[4],@acc[4],@tmp[3]); # carry 3->4 + + # acc -> base 2^64 + vleib ("%v30",6*8,7); + vleib ("%v29",13*8,7); + vleib ("%v28",3*8,7); + + veslg (@acc[1],@acc[1],26); + veslg (@acc[3],@acc[3],26); + vo (@acc[0],@acc[0],@acc[1]); + vo (@acc[2],@acc[2],@acc[3]); + + veslg (@acc[2],@acc[2],4); + vslb (@acc[2],@acc[2],"%v30"); # <<52 + vo (@acc[0],@acc[0],@acc[2]); + + vslb (@tmp[4],@acc[4],"%v29"); # <<104 + vo (@acc[0],@acc[0],@tmp[4]); + + vsrlb (@acc[1],@acc[4],"%v28"); # >>24 + + # acc %= 2^130-5 + vone ("%v26"); + vleig ("%v27",5,1); + vone ("%v29"); + vleig ("%v26",-4,1); + + vaq (@tmp[0],@acc[0],"%v27"); + vaccq (@tmp[1],@acc[0],"%v27"); + + vaq (@tmp[1],@tmp[1],"%v26"); + vaccq (@tmp[1],@tmp[1],@acc[1]); + + vaq (@tmp[1],@tmp[1],"%v29"); + + vn (@tmp[2],@tmp[1],@acc[0]); + vnc (@tmp[3],@tmp[0],@tmp[1]); + vo (@acc[0],@tmp[2],@tmp[3]); + + # acc += nonce + vl (@vperm[0],"64(%r5)"); + vlef (@tmp[0],"4*$_($nonce)",3-$_) for (0..3); + + vaq (@acc[0],@acc[0],@tmp[0]); + + vperm (@acc[0],@acc[0],@acc[0],@vperm[0]); + vst (@acc[0],"0($mac)"); # store mac + +if ($z) { + vlm ("%v8","%v15","0($sp)"); + la ($sp,"$frame($sp)"); +} else { + ld ("%f4","16*$SIZE_T+2*8($sp)"); + ld ("%f6","16*$SIZE_T+3*8($sp)"); +} + br ("%r14"); +SIZE ("poly1305_emit_vx",".-poly1305_emit_vx"); +} +} + +# NOVX CODE PATH +{ +################ +# static void poly1305_blocks(void *ctx, const unsigned char *inp, size_t len, +# u32 padbit) +{ +my ($ctx,$inp,$len,$padbit) = map("%r$_",(2..5)); + +my ($d0hi,$d0lo,$d1hi,$d1lo,$t0,$h0,$t1,$h1,$h2) = map("%r$_",(6..14)); +my ($r0,$r1,$s1) = map("%r$_",(0..2)); +GLOBL ("poly1305_blocks"); +TYPE ("poly1305_blocks","\@function"); +ALIGN (16); +LABEL ("poly1305_blocks"); +$z? srlg ($len,$len,4) :srl ($len,4); + lghi ("%r0",0); +&{$z? \&clgr:\&clr} ($len,"%r0"); + je (".Lno_data"); + +&{$z? \&stmg:\&stm} ("%r6","%r14","6*$SIZE_T($sp)"); + + llgfr ($padbit,$padbit); # clear upper half, much needed with # non-64-bit ABI - lg $r0,32($ctx) # load key - lg $r1,40($ctx) + lg ($r0,"32($ctx)"); # load key + lg ($r1,"40($ctx)"); - lg $h0,0($ctx) # load hash value - lg $h1,8($ctx) - lg $h2,16($ctx) + lg ($h0,"0($ctx)"); # load hash value + lg ($h1,"8($ctx)"); + lg ($h2,"16($ctx)"); - st$g $ctx,`2*$SIZE_T`($sp) # off-load $ctx - srlg $s1,$r1,2 - algr $s1,$r1 # s1 = r1 + r1>>2 - j .Loop +&{$z? \&stg:\&st} ($ctx,"2*$SIZE_T($sp)"); # off-load $ctx + srlg ($s1,$r1,2); + algr ($s1,$r1); # s1 = r1 + r1>>2 + j (".Loop"); -.align 16 -.Loop: - lrvg $d0lo,0($inp) # load little-endian input - lrvg $d1lo,8($inp) - la $inp,16($inp) +ALIGN (16); +LABEL (".Loop"); + lrvg ($d0lo,"0($inp)"); # load little-endian input + lrvg ($d1lo,"8($inp)"); + la ($inp,"16($inp)"); - algr $d0lo,$h0 # accumulate input - alcgr $d1lo,$h1 + algr ($d0lo,$h0); # accumulate input + alcgr ($d1lo,$h1); - lgr $h0,$d0lo - mlgr $d0hi,$r0 # h0*r0 -> $d0hi:$d0lo - lgr $h1,$d1lo - mlgr $d1hi,$s1 # h1*5*r1 -> $d1hi:$d1lo + lgr ($h0,$d0lo); + mlgr ($d0hi,$r0); # h0*r0 -> $d0hi:$d0lo + lgr ($h1,$d1lo); + mlgr ($d1hi,$s1); # h1*5*r1 -> $d1hi:$d1lo - mlgr $t0,$r1 # h0*r1 -> $t0:$h0 - mlgr $t1,$r0 # h1*r0 -> $t1:$h1 - alcgr $h2,$padbit + mlgr ($t0,$r1); # h0*r1 -> $t0:$h0 + mlgr ($t1,$r0); # h1*r0 -> $t1:$h1 + alcgr ($h2,$padbit); - algr $d0lo,$d1lo - lgr $d1lo,$h2 - alcgr $d0hi,$d1hi - lghi $d1hi,0 + algr ($d0lo,$d1lo); + lgr ($d1lo,$h2); + alcgr ($d0hi,$d1hi); + lghi ($d1hi,0); - algr $h1,$h0 - alcgr $t1,$t0 + algr ($h1,$h0); + alcgr ($t1,$t0); - msgr $d1lo,$s1 # h2*s1 - msgr $h2,$r0 # h2*r0 + msgr ($d1lo,$s1); # h2*s1 + msgr ($h2,$r0); # h2*r0 - algr $h1,$d1lo - alcgr $t1,$d1hi # $d1hi is zero + algr ($h1,$d1lo); + alcgr ($t1,$d1hi); # $d1hi is zero - algr $h1,$d0hi - alcgr $h2,$t1 + algr ($h1,$d0hi); + alcgr ($h2,$t1); - lghi $h0,-4 # final reduction step - ngr $h0,$h2 - srlg $t0,$h2,2 - algr $h0,$t0 - lghi $t1,3 - ngr $h2,$t1 + lghi ($h0,-4); # final reduction step + ngr ($h0,$h2); + srlg ($t0,$h2,2); + algr ($h0,$t0); + lghi ($t1,3); + ngr ($h2,$t1); - algr $h0,$d0lo - alcgr $h1,$d1hi # $d1hi is still zero - alcgr $h2,$d1hi # $d1hi is still zero + algr ($h0,$d0lo); + alcgr ($h1,$d1hi); # $d1hi is still zero + alcgr ($h2,$d1hi); # $d1hi is still zero - brct$g $len,.Loop +&{$z? \&brctg:\&brct} ($len,".Loop"); - l$g $ctx,`2*$SIZE_T`($sp) # restore $ctx +&{$z? \&lg:\&l} ($ctx,"2*$SIZE_T($sp)");# restore $ctx - stg $h0,0($ctx) # store hash value - stg $h1,8($ctx) - stg $h2,16($ctx) + stg ($h0,"0($ctx)"); # store hash value + stg ($h1,"8($ctx)"); + stg ($h2,"16($ctx)"); - lm${g} %r6,%r14,`6*$SIZE_T`($sp) -.Lno_data: - br %r14 -.size poly1305_blocks,.-poly1305_blocks -___ +&{$z? \&lmg:\&lm} ("%r6","%r14","6*$SIZE_T($sp)"); +LABEL (".Lno_data"); + br ("%r14"); +SIZE ("poly1305_blocks",".-poly1305_blocks"); } + +################ +# static void poly1305_emit(void *ctx, unsigned char mac[16], +# const u32 nonce[4]) { -my ($mac,$nonce)=($inp,$len); +my ($ctx,$mac,$nonce) = map("%r$_",(2..4)); my ($h0,$h1,$h2,$d0,$d1)=map("%r$_",(5..9)); -$code.=<<___; -.globl poly1305_emit -.type poly1305_emit,\@function -.align 16 -poly1305_emit: - stm${g} %r6,%r9,`6*$SIZE_T`($sp) - - lg $h0,0($ctx) - lg $h1,8($ctx) - lg $h2,16($ctx) - - lghi %r0,5 - lghi %r1,0 - lgr $d0,$h0 - lgr $d1,$h1 - - algr $h0,%r0 # compare to modulus - alcgr $h1,%r1 - alcgr $h2,%r1 - - srlg $h2,$h2,2 # did it borrow/carry? - slgr %r1,$h2 # 0-$h2>>2 - lg $h2,0($nonce) # load nonce - lghi %r0,-1 - lg $ctx,8($nonce) - xgr %r0,%r1 # ~%r1 - - ngr $h0,%r1 - ngr $d0,%r0 - ngr $h1,%r1 - ngr $d1,%r0 - ogr $h0,$d0 - rllg $d0,$h2,32 # flip nonce words - ogr $h1,$d1 - rllg $d1,$ctx,32 - - algr $h0,$d0 # accumulate nonce - alcgr $h1,$d1 - - strvg $h0,0($mac) # write little-endian result - strvg $h1,8($mac) - - lm${g} %r6,%r9,`6*$SIZE_T`($sp) - br %r14 -.size poly1305_emit,.-poly1305_emit - -.string "Poly1305 for s390x, CRYPTOGAMS by <appro\@openssl.org>" -___ -} - -$code =~ s/\`([^\`]*)\`/eval $1/gem; -$code =~ s/\b(srlg\s+)(%r[0-9]+\s*,)\s*([0-9]+)/$1$2$2$3/gm; - -print $code; -close STDOUT; +GLOBL ("poly1305_emit"); +TYPE ("poly1305_emit","\@function"); +ALIGN (16); +LABEL ("poly1305_emit"); +&{$z? \&stmg:\&stm} ("%r6","%r9","6*$SIZE_T($sp)"); + + lg ($h0,"0($ctx)"); + lg ($h1,"8($ctx)"); + lg ($h2,"16($ctx)"); + + lghi ("%r0",5); + lghi ("%r1",0); + lgr ($d0,$h0); + lgr ($d1,$h1); + + algr ($h0,"%r0"); # compare to modulus + alcgr ($h1,"%r1"); + alcgr ($h2,"%r1"); + + srlg ($h2,$h2,2); # did it borrow/carry? + slgr ("%r1",$h2); # 0-$h2>>2 + lg ($h2,"0($nonce)"); # load nonce + lghi ("%r0",-1); + lg ($ctx,"8($nonce)"); + xgr ("%r0","%r1"); # ~%r1 + + ngr ($h0,"%r1"); + ngr ($d0,"%r0"); + ngr ($h1,"%r1"); + ngr ($d1,"%r0"); + ogr ($h0,$d0); + rllg ($d0,$h2,32); # flip nonce words + ogr ($h1,$d1); + rllg ($d1,$ctx,32); + + algr ($h0,$d0); # accumulate nonce + alcgr ($h1,$d1); + + strvg ($h0,"0($mac)"); # write little-endian result + strvg ($h1,"8($mac)"); + +&{$z? \&lmg:\&lm} ("%r6","%r9","6*$SIZE_T($sp)"); + br ("%r14"); +SIZE ("poly1305_emit",".-poly1305_emit"); +} +} +################ + +ALIGN (128); +LABEL (".Lconst"); +LONG (0x00060504,0x03020100,0x00161514,0x13121110); # vperm op[m[1],m[0]] +LONG (0x000c0b0a,0x09080706,0x001c1b1a,0x19181716); # vperm op[m[3],m[2]] +LONG (0x00000000,0x000f0e0d,0x00000000,0x001f1e1d); # vperm op[ - ,m[4]] +LONG (0x00000000,0x03ffffff,0x00000000,0x03ffffff); # [0,2^26-1,0,2^26-1] +LONG (0x0f0e0d0c,0x0b0a0908,0x07060504,0x03020100); # vperm op endian +STRING ("\"Poly1305 for s390x, CRYPTOGAMS by <appro\@openssl.org>\""); + +PERLASM_END(); |