#! /usr/bin/env perl # Copyright 2016 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 Andy Polyakov for the OpenSSL # project. The module is, however, dual licensed under OpenSSL and # CRYPTOGAMS licenses depending on where you obtain it. For further # details see http://www.openssl.org/~appro/cryptogams/. # ==================================================================== # March 2016 # # Initial support for Fujitsu SPARC64 X/X+ comprises minimally # required key setup and single-block procedures. # # April 2016 # # Add "teaser" CBC and CTR mode-specific subroutines. "Teaser" means # that parallelizeable nature of CBC decrypt and CTR is not utilized # yet. CBC encrypt on the other hand is as good as it can possibly # get processing one byte in 4.1 cycles with 128-bit key on SPARC64 X. # This is ~6x faster than pure software implementation... # # July 2016 # # Switch from faligndata to fshiftorx, which allows to omit alignaddr # instructions and improve single-block and short-input performance # with misaligned data. $output = pop; open STDOUT,">$output"; { my ($inp,$out,$key,$rounds,$tmp,$mask) = map("%o$_",(0..5)); $code.=<<___; #include "sparc_arch.h" #define LOCALS (STACK_BIAS+STACK_FRAME) .text .globl aes_fx_encrypt .align 32 aes_fx_encrypt: and $inp, 7, $tmp ! is input aligned? andn $inp, 7, $inp ldd [$key + 0], %f6 ! round[0] ldd [$key + 8], %f8 mov %o7, %g1 ld [$key + 240], $rounds 1: call .+8 add %o7, .Linp_align-1b, %o7 sll $tmp, 3, $tmp ldd [$inp + 0], %f0 ! load input brz,pt $tmp, .Lenc_inp_aligned ldd [$inp + 8], %f2 ldd [%o7 + $tmp], %f14 ! shift left params ldd [$inp + 16], %f4 fshiftorx %f0, %f2, %f14, %f0 fshiftorx %f2, %f4, %f14, %f2 .Lenc_inp_aligned: ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fxor %f0, %f6, %f0 ! ^=round[0] fxor %f2, %f8, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 add $key, 32, $key sub $rounds, 4, $rounds .Loop_enc: fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$key + 16], %f10 ldd [$key + 24], %f12 add $key, 32, $key fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [$key + 0], %f6 ldd [$key + 8], %f8 brnz,a $rounds, .Loop_enc sub $rounds, 2, $rounds andcc $out, 7, $tmp ! is output aligned? andn $out, 7, $out mov 0xff, $mask srl $mask, $tmp, $mask add %o7, 64, %o7 sll $tmp, 3, $tmp fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [%o7 + $tmp], %f14 ! shift right params fmovd %f0, %f4 faesenclx %f2, %f6, %f0 faesenclx %f4, %f8, %f2 bnz,pn %icc, .Lenc_out_unaligned mov %g1, %o7 std %f0, [$out + 0] retl std %f2, [$out + 8] .align 16 .Lenc_out_unaligned: add $out, 16, $inp orn %g0, $mask, $tmp fshiftorx %f0, %f0, %f14, %f4 fshiftorx %f0, %f2, %f14, %f6 fshiftorx %f2, %f2, %f14, %f8 stda %f4, [$out + $mask]0xc0 ! partial store std %f6, [$out + 8] stda %f8, [$inp + $tmp]0xc0 ! partial store retl nop .type aes_fx_encrypt,#function .size aes_fx_encrypt,.-aes_fx_encrypt .globl aes_fx_decrypt .align 32 aes_fx_decrypt: and $inp, 7, $tmp ! is input aligned? andn $inp, 7, $inp ldd [$key + 0], %f6 ! round[0] ldd [$key + 8], %f8 mov %o7, %g1 ld [$key + 240], $rounds 1: call .+8 add %o7, .Linp_align-1b, %o7 sll $tmp, 3, $tmp ldd [$inp + 0], %f0 ! load input brz,pt $tmp, .Ldec_inp_aligned ldd [$inp + 8], %f2 ldd [%o7 + $tmp], %f14 ! shift left params ldd [$inp + 16], %f4 fshiftorx %f0, %f2, %f14, %f0 fshiftorx %f2, %f4, %f14, %f2 .Ldec_inp_aligned: ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fxor %f0, %f6, %f0 ! ^=round[0] fxor %f2, %f8, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 add $key, 32, $key sub $rounds, 4, $rounds .Loop_dec: fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$key + 16], %f10 ldd [$key + 24], %f12 add $key, 32, $key fmovd %f0, %f4 faesdecx %f2, %f6, %f0 faesdecx %f4, %f8, %f2 ldd [$key + 0], %f6 ldd [$key + 8], %f8 brnz,a $rounds, .Loop_dec sub $rounds, 2, $rounds andcc $out, 7, $tmp ! is output aligned? andn $out, 7, $out mov 0xff, $mask srl $mask, $tmp, $mask add %o7, 64, %o7 sll $tmp, 3, $tmp fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [%o7 + $tmp], %f14 ! shift right params fmovd %f0, %f4 faesdeclx %f2, %f6, %f0 faesdeclx %f4, %f8, %f2 bnz,pn %icc, .Ldec_out_unaligned mov %g1, %o7 std %f0, [$out + 0] retl std %f2, [$out + 8] .align 16 .Ldec_out_unaligned: add $out, 16, $inp orn %g0, $mask, $tmp fshiftorx %f0, %f0, %f14, %f4 fshiftorx %f0, %f2, %f14, %f6 fshiftorx %f2, %f2, %f14, %f8 stda %f4, [$out + $mask]0xc0 ! partial store std %f6, [$out + 8] stda %f8, [$inp + $tmp]0xc0 ! partial store retl nop .type aes_fx_decrypt,#function .size aes_fx_decrypt,.-aes_fx_decrypt ___ } { my ($inp,$bits,$out,$tmp,$inc) = map("%o$_",(0..5)); $code.=<<___; .globl aes_fx_set_decrypt_key .align 32 aes_fx_set_decrypt_key: b .Lset_encrypt_key mov -1, $inc retl nop .type aes_fx_set_decrypt_key,#function .size aes_fx_set_decrypt_key,.-aes_fx_set_decrypt_key .globl aes_fx_set_encrypt_key .align 32 aes_fx_set_encrypt_key: mov 1, $inc nop .Lset_encrypt_key: and $inp, 7, $tmp andn $inp, 7, $inp sll $tmp, 3, $tmp mov %o7, %g1 1: call .+8 add %o7, .Linp_align-1b, %o7 ldd [%o7 + $tmp], %f10 ! shift left params mov %g1, %o7 cmp $bits, 192 ldd [$inp + 0], %f0 bl,pt %icc, .L128 ldd [$inp + 8], %f2 be,pt %icc, .L192 ldd [$inp + 16], %f4 brz,pt $tmp, .L256aligned ldd [$inp + 24], %f6 ldd [$inp + 32], %f8 fshiftorx %f0, %f2, %f10, %f0 fshiftorx %f2, %f4, %f10, %f2 fshiftorx %f4, %f6, %f10, %f4 fshiftorx %f6, %f8, %f10, %f6 .L256aligned: mov 14, $bits and $inc, `14*16`, $tmp st $bits, [$out + 240] ! store rounds add $out, $tmp, $out ! start or end of key schedule sllx $inc, 4, $inc ! 16 or -16 ___ for ($i=0; $i<6; $i++) { $code.=<<___; std %f0, [$out + 0] faeskeyx %f6, `0x10+$i`, %f0 std %f2, [$out + 8] add $out, $inc, $out faeskeyx %f0, 0x00, %f2 std %f4, [$out + 0] faeskeyx %f2, 0x01, %f4 std %f6, [$out + 8] add $out, $inc, $out faeskeyx %f4, 0x00, %f6 ___ } $code.=<<___; std %f0, [$out + 0] faeskeyx %f6, `0x10+$i`, %f0 std %f2, [$out + 8] add $out, $inc, $out faeskeyx %f0, 0x00, %f2 std %f4,[$out + 0] std %f6,[$out + 8] add $out, $inc, $out std %f0,[$out + 0] std %f2,[$out + 8] retl xor %o0, %o0, %o0 ! return 0 .align 16 .L192: brz,pt $tmp, .L192aligned nop ldd [$inp + 24], %f6 fshiftorx %f0, %f2, %f10, %f0 fshiftorx %f2, %f4, %f10, %f2 fshiftorx %f4, %f6, %f10, %f4 .L192aligned: mov 12, $bits and $inc, `12*16`, $tmp st $bits, [$out + 240] ! store rounds add $out, $tmp, $out ! start or end of key schedule sllx $inc, 4, $inc ! 16 or -16 ___ for ($i=0; $i<8; $i+=2) { $code.=<<___; std %f0, [$out + 0] faeskeyx %f4, `0x10+$i`, %f0 std %f2, [$out + 8] add $out, $inc, $out faeskeyx %f0, 0x00, %f2 std %f4, [$out + 0] faeskeyx %f2, 0x00, %f4 std %f0, [$out + 8] add $out, $inc, $out faeskeyx %f4, `0x10+$i+1`, %f0 std %f2, [$out + 0] faeskeyx %f0, 0x00, %f2 std %f4, [$out + 8] add $out, $inc, $out ___ $code.=<<___ if ($i<6); faeskeyx %f2, 0x00, %f4 ___ } $code.=<<___; std %f0, [$out + 0] std %f2, [$out + 8] retl xor %o0, %o0, %o0 ! return 0 .align 16 .L128: brz,pt $tmp, .L128aligned nop ldd [$inp + 16], %f4 fshiftorx %f0, %f2, %f10, %f0 fshiftorx %f2, %f4, %f10, %f2 .L128aligned: mov 10, $bits and $inc, `10*16`, $tmp st $bits, [$out + 240] ! store rounds add $out, $tmp, $out ! start or end of key schedule sllx $inc, 4, $inc ! 16 or -16 ___ for ($i=0; $i<10; $i++) { $code.=<<___; std %f0, [$out + 0] faeskeyx %f2, `0x10+$i`, %f0 std %f2, [$out + 8] add $out, $inc, $out faeskeyx %f0, 0x00, %f2 ___ } $code.=<<___; std %f0, [$out + 0] std %f2, [$out + 8] retl xor %o0, %o0, %o0 ! return 0 .type aes_fx_set_encrypt_key,#function .size aes_fx_set_encrypt_key,.-aes_fx_set_encrypt_key ___ } { my ($inp,$out,$len,$key,$ivp,$dir) = map("%i$_",(0..5)); my ($rounds,$inner,$end,$inc,$ialign,$oalign,$mask) = map("%l$_",(0..7)); my ($iv0,$iv1,$r0hi,$r0lo,$rlhi,$rllo,$in0,$in1,$intail,$outhead,$fshift) = map("%f$_",grep { !($_ & 1) } (16 .. 62)); my ($ileft,$iright) = ($ialign,$oalign); $code.=<<___; .globl aes_fx_cbc_encrypt .align 32 aes_fx_cbc_encrypt: save %sp, -STACK_FRAME-16, %sp srln $len, 4, $len and $inp, 7, $ialign andn $inp, 7, $inp brz,pn $len, .Lcbc_no_data sll $ialign, 3, $ileft 1: call .+8 add %o7, .Linp_align-1b, %o7 ld [$key + 240], $rounds and $out, 7, $oalign ld [$ivp + 0], %f0 ! load ivec andn $out, 7, $out ld [$ivp + 4], %f1 sll $oalign, 3, $mask ld [$ivp + 8], %f2 ld [$ivp + 12], %f3 sll $rounds, 4, $rounds add $rounds, $key, $end ldd [$key + 0], $r0hi ! round[0] ldd [$key + 8], $r0lo add $inp, 16, $inp sub $len, 1, $len ldd [$end + 0], $rlhi ! round[last] ldd [$end + 8], $rllo mov 16, $inc movrz $len, 0, $inc ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 ldd [%o7 + $ileft], $fshift ! shift left params add %o7, 64, %o7 ldd [$inp - 16], $in0 ! load input ldd [$inp - 8], $in1 ldda [$inp]0x82, $intail ! non-faulting load brz $dir, .Lcbc_decrypt add $inp, $inc, $inp ! inp+=16 fxor $r0hi, %f0, %f0 ! ivec^=round[0] fxor $r0lo, %f2, %f2 fshiftorx $in0, $in1, $fshift, $in0 fshiftorx $in1, $intail, $fshift, $in1 nop .Loop_cbc_enc: fxor $in0, %f0, %f0 ! inp^ivec^round[0] fxor $in1, %f2, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 add $key, 32, $end sub $rounds, 16*6, $inner .Lcbc_enc: fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ldd [$end + 24], %f12 add $end, 32, $end fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [$end + 0], %f6 ldd [$end + 8], %f8 brnz,a $inner, .Lcbc_enc sub $inner, 16*2, $inner fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ! round[last-1] ldd [$end + 24], %f12 movrz $len, 0, $inc fmovd $intail, $in0 ldd [$inp - 8], $in1 ! load next input block ldda [$inp]0x82, $intail ! non-faulting load add $inp, $inc, $inp ! inp+=16 fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 fshiftorx $in0, $in1, $fshift, $in0 fshiftorx $in1, $intail, $fshift, $in1 fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fxor $r0hi, $in0, $in0 ! inp^=round[0] fxor $r0lo, $in1, $in1 fmovd %f0, %f4 faesenclx %f2, $rlhi, %f0 faesenclx %f4, $rllo, %f2 brnz,pn $oalign, .Lcbc_enc_unaligned_out nop std %f0, [$out + 0] std %f2, [$out + 8] add $out, 16, $out brnz,a $len, .Loop_cbc_enc sub $len, 1, $len st %f0, [$ivp + 0] ! output ivec st %f1, [$ivp + 4] st %f2, [$ivp + 8] st %f3, [$ivp + 12] .Lcbc_no_data: ret restore .align 32 .Lcbc_enc_unaligned_out: ldd [%o7 + $mask], $fshift ! shift right params mov 0xff, $mask srl $mask, $oalign, $mask sub %g0, $ileft, $iright fshiftorx %f0, %f0, $fshift, %f6 fshiftorx %f0, %f2, $fshift, %f8 stda %f6, [$out + $mask]0xc0 ! partial store orn %g0, $mask, $mask std %f8, [$out + 8] add $out, 16, $out brz $len, .Lcbc_enc_unaligned_out_done sub $len, 1, $len b .Loop_cbc_enc_unaligned_out nop .align 32 .Loop_cbc_enc_unaligned_out: fmovd %f2, $outhead fxor $in0, %f0, %f0 ! inp^ivec^round[0] fxor $in1, %f2, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$key + 48], %f10 ! round[3] ldd [$key + 56], %f12 ldx [$inp - 16], %o0 ldx [$inp - 8], %o1 brz $ileft, .Lcbc_enc_aligned_inp movrz $len, 0, $inc ldx [$inp], %o2 sllx %o0, $ileft, %o0 srlx %o1, $iright, %g1 sllx %o1, $ileft, %o1 or %g1, %o0, %o0 srlx %o2, $iright, %o2 or %o2, %o1, %o1 .Lcbc_enc_aligned_inp: fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [$key + 64], %f6 ! round[4] ldd [$key + 72], %f8 add $key, 64, $end sub $rounds, 16*8, $inner stx %o0, [%sp + LOCALS + 0] stx %o1, [%sp + LOCALS + 8] add $inp, $inc, $inp ! inp+=16 nop .Lcbc_enc_unaligned: fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ldd [$end + 24], %f12 add $end, 32, $end fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [$end + 0], %f6 ldd [$end + 8], %f8 brnz,a $inner, .Lcbc_enc_unaligned sub $inner, 16*2, $inner fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ! round[last-1] ldd [$end + 24], %f12 fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [%sp + LOCALS + 0], $in0 ldd [%sp + LOCALS + 8], $in1 fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fxor $r0hi, $in0, $in0 ! inp^=round[0] fxor $r0lo, $in1, $in1 fmovd %f0, %f4 faesenclx %f2, $rlhi, %f0 faesenclx %f4, $rllo, %f2 fshiftorx $outhead, %f0, $fshift, %f6 fshiftorx %f0, %f2, $fshift, %f8 std %f6, [$out + 0] std %f8, [$out + 8] add $out, 16, $out brnz,a $len, .Loop_cbc_enc_unaligned_out sub $len, 1, $len .Lcbc_enc_unaligned_out_done: fshiftorx %f2, %f2, $fshift, %f8 stda %f8, [$out + $mask]0xc0 ! partial store st %f0, [$ivp + 0] ! output ivec st %f1, [$ivp + 4] st %f2, [$ivp + 8] st %f3, [$ivp + 12] ret restore .align 32 .Lcbc_decrypt: fshiftorx $in0, $in1, $fshift, $in0 fshiftorx $in1, $intail, $fshift, $in1 fmovd %f0, $iv0 fmovd %f2, $iv1 .Loop_cbc_dec: fxor $in0, $r0hi, %f0 ! inp^round[0] fxor $in1, $r0lo, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 add $key, 32, $end sub $rounds, 16*6, $inner .Lcbc_dec: fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$end + 16], %f10 ldd [$end + 24], %f12 add $end, 32, $end fmovd %f0, %f4 faesdecx %f2, %f6, %f0 faesdecx %f4, %f8, %f2 ldd [$end + 0], %f6 ldd [$end + 8], %f8 brnz,a $inner, .Lcbc_dec sub $inner, 16*2, $inner fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$end + 16], %f10 ! round[last-1] ldd [$end + 24], %f12 fmovd %f0, %f4 faesdecx %f2, %f6, %f0 faesdecx %f4, %f8, %f2 fxor $iv0, $rlhi, %f6 ! ivec^round[last] fxor $iv1, $rllo, %f8 fmovd $in0, $iv0 fmovd $in1, $iv1 movrz $len, 0, $inc fmovd $intail, $in0 ldd [$inp - 8], $in1 ! load next input block ldda [$inp]0x82, $intail ! non-faulting load add $inp, $inc, $inp ! inp+=16 fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fshiftorx $in0, $in1, $fshift, $in0 fshiftorx $in1, $intail, $fshift, $in1 fmovd %f0, %f4 faesdeclx %f2, %f6, %f0 faesdeclx %f4, %f8, %f2 brnz,pn $oalign, .Lcbc_dec_unaligned_out nop std %f0, [$out + 0] std %f2, [$out + 8] add $out, 16, $out brnz,a $len, .Loop_cbc_dec sub $len, 1, $len st $iv0, [$ivp + 0] ! output ivec st $iv0#lo, [$ivp + 4] st $iv1, [$ivp + 8] st $iv1#lo, [$ivp + 12] ret restore .align 32 .Lcbc_dec_unaligned_out: ldd [%o7 + $mask], $fshift ! shift right params mov 0xff, $mask srl $mask, $oalign, $mask sub %g0, $ileft, $iright fshiftorx %f0, %f0, $fshift, %f6 fshiftorx %f0, %f2, $fshift, %f8 stda %f6, [$out + $mask]0xc0 ! partial store orn %g0, $mask, $mask std %f8, [$out + 8] add $out, 16, $out brz $len, .Lcbc_dec_unaligned_out_done sub $len, 1, $len b .Loop_cbc_dec_unaligned_out nop .align 32 .Loop_cbc_dec_unaligned_out: fmovd %f2, $outhead fxor $in0, $r0hi, %f0 ! inp^round[0] fxor $in1, $r0lo, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$key + 48], %f10 ! round[3] ldd [$key + 56], %f12 ldx [$inp - 16], %o0 ldx [$inp - 8], %o1 brz $ileft, .Lcbc_dec_aligned_inp movrz $len, 0, $inc ldx [$inp], %o2 sllx %o0, $ileft, %o0 srlx %o1, $iright, %g1 sllx %o1, $ileft, %o1 or %g1, %o0, %o0 srlx %o2, $iright, %o2 or %o2, %o1, %o1 .Lcbc_dec_aligned_inp: fmovd %f0, %f4 faesdecx %f2, %f6, %f0 faesdecx %f4, %f8, %f2 ldd [$key + 64], %f6 ! round[4] ldd [$key + 72], %f8 add $key, 64, $end sub $rounds, 16*8, $inner stx %o0, [%sp + LOCALS + 0] stx %o1, [%sp + LOCALS + 8] add $inp, $inc, $inp ! inp+=16 nop .Lcbc_dec_unaligned: fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$end + 16], %f10 ldd [$end + 24], %f12 add $end, 32, $end fmovd %f0, %f4 faesdecx %f2, %f6, %f0 faesdecx %f4, %f8, %f2 ldd [$end + 0], %f6 ldd [$end + 8], %f8 brnz,a $inner, .Lcbc_dec_unaligned sub $inner, 16*2, $inner fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$end + 16], %f10 ! round[last-1] ldd [$end + 24], %f12 fmovd %f0, %f4 faesdecx %f2, %f6, %f0 faesdecx %f4, %f8, %f2 fxor $iv0, $rlhi, %f6 ! ivec^round[last] fxor $iv1, $rllo, %f8 fmovd $in0, $iv0 fmovd $in1, $iv1 ldd [%sp + LOCALS + 0], $in0 ldd [%sp + LOCALS + 8], $in1 fmovd %f0, %f4 faesdecx %f2, %f10, %f0 faesdecx %f4, %f12, %f2 ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fmovd %f0, %f4 faesdeclx %f2, %f6, %f0 faesdeclx %f4, %f8, %f2 fshiftorx $outhead, %f0, $fshift, %f6 fshiftorx %f0, %f2, $fshift, %f8 std %f6, [$out + 0] std %f8, [$out + 8] add $out, 16, $out brnz,a $len, .Loop_cbc_dec_unaligned_out sub $len, 1, $len .Lcbc_dec_unaligned_out_done: fshiftorx %f2, %f2, $fshift, %f8 stda %f8, [$out + $mask]0xc0 ! partial store st $iv0, [$ivp + 0] ! output ivec st $iv0#lo, [$ivp + 4] st $iv1, [$ivp + 8] st $iv1#lo, [$ivp + 12] ret restore .type aes_fx_cbc_encrypt,#function .size aes_fx_cbc_encrypt,.-aes_fx_cbc_encrypt ___ } { my ($inp,$out,$len,$key,$ivp) = map("%i$_",(0..5)); my ($rounds,$inner,$end,$inc,$ialign,$oalign,$mask) = map("%l$_",(0..7)); my ($ctr0,$ctr1,$r0hi,$r0lo,$rlhi,$rllo,$in0,$in1,$intail,$outhead,$fshift) = map("%f$_",grep { !($_ & 1) } (16 .. 62)); my ($ileft,$iright) = ($ialign, $oalign); my $one = "%f14"; $code.=<<___; .globl aes_fx_ctr32_encrypt_blocks .align 32 aes_fx_ctr32_encrypt_blocks: save %sp, -STACK_FRAME-16, %sp srln $len, 0, $len and $inp, 7, $ialign andn $inp, 7, $inp brz,pn $len, .Lctr32_no_data sll $ialign, 3, $ileft .Lpic: call .+8 add %o7, .Linp_align - .Lpic, %o7 ld [$key + 240], $rounds and $out, 7, $oalign ld [$ivp + 0], $ctr0 ! load counter andn $out, 7, $out ld [$ivp + 4], $ctr0#lo sll $oalign, 3, $mask ld [$ivp + 8], $ctr1 ld [$ivp + 12], $ctr1#lo ldd [%o7 + 128], $one sll $rounds, 4, $rounds add $rounds, $key, $end ldd [$key + 0], $r0hi ! round[0] ldd [$key + 8], $r0lo add $inp, 16, $inp sub $len, 1, $len ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 mov 16, $inc movrz $len, 0, $inc ldd [$end + 0], $rlhi ! round[last] ldd [$end + 8], $rllo ldd [%o7 + $ileft], $fshift ! shiftleft params add %o7, 64, %o7 ldd [$inp - 16], $in0 ! load input ldd [$inp - 8], $in1 ldda [$inp]0x82, $intail ! non-faulting load add $inp, $inc, $inp ! inp+=16 fshiftorx $in0, $in1, $fshift, $in0 fshiftorx $in1, $intail, $fshift, $in1 .Loop_ctr32: fxor $ctr0, $r0hi, %f0 ! counter^round[0] fxor $ctr1, $r0lo, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 add $key, 32, $end sub $rounds, 16*6, $inner .Lctr32_enc: fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ldd [$end + 24], %f12 add $end, 32, $end fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [$end + 0], %f6 ldd [$end + 8], %f8 brnz,a $inner, .Lctr32_enc sub $inner, 16*2, $inner fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ! round[last-1] ldd [$end + 24], %f12 fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 fxor $in0, $rlhi, %f6 ! inp^round[last] fxor $in1, $rllo, %f8 movrz $len, 0, $inc fmovd $intail, $in0 ldd [$inp - 8], $in1 ! load next input block ldda [$inp]0x82, $intail ! non-faulting load add $inp, $inc, $inp ! inp+=16 fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fshiftorx $in0, $in1, $fshift, $in0 fshiftorx $in1, $intail, $fshift, $in1 fpadd32 $ctr1, $one, $ctr1 ! increment counter fmovd %f0, %f4 faesenclx %f2, %f6, %f0 faesenclx %f4, %f8, %f2 brnz,pn $oalign, .Lctr32_unaligned_out nop std %f0, [$out + 0] std %f2, [$out + 8] add $out, 16, $out brnz,a $len, .Loop_ctr32 sub $len, 1, $len .Lctr32_no_data: ret restore .align 32 .Lctr32_unaligned_out: ldd [%o7 + $mask], $fshift ! shift right params mov 0xff, $mask srl $mask, $oalign, $mask sub %g0, $ileft, $iright fshiftorx %f0, %f0, $fshift, %f6 fshiftorx %f0, %f2, $fshift, %f8 stda %f6, [$out + $mask]0xc0 ! partial store orn %g0, $mask, $mask std %f8, [$out + 8] add $out, 16, $out brz $len, .Lctr32_unaligned_out_done sub $len, 1, $len b .Loop_ctr32_unaligned_out nop .align 32 .Loop_ctr32_unaligned_out: fmovd %f2, $outhead fxor $ctr0, $r0hi, %f0 ! counter^round[0] fxor $ctr1, $r0lo, %f2 ldd [$key + 32], %f6 ! round[2] ldd [$key + 40], %f8 fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$key + 48], %f10 ! round[3] ldd [$key + 56], %f12 ldx [$inp - 16], %o0 ldx [$inp - 8], %o1 brz $ileft, .Lctr32_aligned_inp movrz $len, 0, $inc ldx [$inp], %o2 sllx %o0, $ileft, %o0 srlx %o1, $iright, %g1 sllx %o1, $ileft, %o1 or %g1, %o0, %o0 srlx %o2, $iright, %o2 or %o2, %o1, %o1 .Lctr32_aligned_inp: fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [$key + 64], %f6 ! round[4] ldd [$key + 72], %f8 add $key, 64, $end sub $rounds, 16*8, $inner stx %o0, [%sp + LOCALS + 0] stx %o1, [%sp + LOCALS + 8] add $inp, $inc, $inp ! inp+=16 nop .Lctr32_enc_unaligned: fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ldd [$end + 24], %f12 add $end, 32, $end fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 ldd [$end + 0], %f6 ldd [$end + 8], %f8 brnz,a $inner, .Lctr32_enc_unaligned sub $inner, 16*2, $inner fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$end + 16], %f10 ! round[last-1] ldd [$end + 24], %f12 fpadd32 $ctr1, $one, $ctr1 ! increment counter fmovd %f0, %f4 faesencx %f2, %f6, %f0 faesencx %f4, %f8, %f2 fxor $in0, $rlhi, %f6 ! inp^round[last] fxor $in1, $rllo, %f8 ldd [%sp + LOCALS + 0], $in0 ldd [%sp + LOCALS + 8], $in1 fmovd %f0, %f4 faesencx %f2, %f10, %f0 faesencx %f4, %f12, %f2 ldd [$key + 16], %f10 ! round[1] ldd [$key + 24], %f12 fmovd %f0, %f4 faesenclx %f2, %f6, %f0 faesenclx %f4, %f8, %f2 fshiftorx $outhead, %f0, $fshift, %f6 fshiftorx %f0, %f2, $fshift, %f8 std %f6, [$out + 0] std %f8, [$out + 8] add $out, 16, $out brnz,a $len, .Loop_ctr32_unaligned_out sub $len, 1, $len .Lctr32_unaligned_out_done: fshiftorx %f2, %f2, $fshift, %f8 stda %f8, [$out + $mask]0xc0 ! partial store ret restore .type aes_fx_ctr32_encrypt_blocks,#function .size aes_fx_ctr32_encrypt_blocks,.-aes_fx_ctr32_encrypt_blocks .align 32 .Linp_align: ! fshiftorx parameters for left shift toward %rs1 .byte 0, 0, 64, 0, 0, 64, 0, -64 .byte 0, 0, 56, 8, 0, 56, 8, -56 .byte 0, 0, 48, 16, 0, 48, 16, -48 .byte 0, 0, 40, 24, 0, 40, 24, -40 .byte 0, 0, 32, 32, 0, 32, 32, -32 .byte 0, 0, 24, 40, 0, 24, 40, -24 .byte 0, 0, 16, 48, 0, 16, 48, -16 .byte 0, 0, 8, 56, 0, 8, 56, -8 .Lout_align: ! fshiftorx parameters for right shift toward %rs2 .byte 0, 0, 0, 64, 0, 0, 64, 0 .byte 0, 0, 8, 56, 0, 8, 56, -8 .byte 0, 0, 16, 48, 0, 16, 48, -16 .byte 0, 0, 24, 40, 0, 24, 40, -24 .byte 0, 0, 32, 32, 0, 32, 32, -32 .byte 0, 0, 40, 24, 0, 40, 24, -40 .byte 0, 0, 48, 16, 0, 48, 16, -48 .byte 0, 0, 56, 8, 0, 56, 8, -56 .Lone: .word 0, 1 .asciz "AES for Fujitsu SPARC64 X, CRYPTOGAMS by " .align 4 ___ } # Purpose of these subroutines is to explicitly encode VIS instructions, # so that one can compile the module without having to specify VIS # extensions on compiler command line, e.g. -xarch=v9 vs. -xarch=v9a. # Idea is to reserve for option to produce "universal" binary and let # programmer detect if current CPU is VIS capable at run-time. sub unvis { my ($mnemonic,$rs1,$rs2,$rd)=@_; my ($ref,$opf); my %visopf = ( "faligndata" => 0x048, "bshuffle" => 0x04c, "fpadd32" => 0x052, "fxor" => 0x06c, "fsrc2" => 0x078 ); $ref = "$mnemonic\t$rs1,$rs2,$rd"; if ($opf=$visopf{$mnemonic}) { foreach ($rs1,$rs2,$rd) { return $ref if (!/%f([0-9]{1,2})/); $_=$1; if ($1>=32) { return $ref if ($1&1); # re-encode for upper double register addressing $_=($1|$1>>5)&31; } } return sprintf ".word\t0x%08x !%s", 0x81b00000|$rd<<25|$rs1<<14|$opf<<5|$rs2, $ref; } else { return $ref; } } sub unvis3 { my ($mnemonic,$rs1,$rs2,$rd)=@_; my %bias = ( "g" => 0, "o" => 8, "l" => 16, "i" => 24 ); my ($ref,$opf); my %visopf = ( "alignaddr" => 0x018, "bmask" => 0x019, "alignaddrl" => 0x01a ); $ref = "$mnemonic\t$rs1,$rs2,$rd"; if ($opf=$visopf{$mnemonic}) { foreach ($rs1,$rs2,$rd) { return $ref if (!/%([goli])([0-9])/); $_=$bias{$1}+$2; } return sprintf ".word\t0x%08x !%s", 0x81b00000|$rd<<25|$rs1<<14|$opf<<5|$rs2, $ref; } else { return $ref; } } sub unfx { my ($mnemonic,$rs1,$rs2,$rd)=@_; my ($ref,$opf); my %aesopf = ( "faesencx" => 0x90, "faesdecx" => 0x91, "faesenclx" => 0x92, "faesdeclx" => 0x93, "faeskeyx" => 0x94 ); $ref = "$mnemonic\t$rs1,$rs2,$rd"; if (defined($opf=$aesopf{$mnemonic})) { $rs2 = ($rs2 =~ /%f([0-6]*[02468])/) ? (($1|$1>>5)&31) : $rs2; $rs2 = oct($rs2) if ($rs2 =~ /^0/); foreach ($rs1,$rd) { return $ref if (!/%f([0-9]{1,2})/); $_=$1; if ($1>=32) { return $ref if ($1&1); # re-encode for upper double register addressing $_=($1|$1>>5)&31; } } return sprintf ".word\t0x%08x !%s", 2<<30|$rd<<25|0x36<<19|$rs1<<14|$opf<<5|$rs2, $ref; } else { return $ref; } } sub unfx3src { my ($mnemonic,$rs1,$rs2,$rs3,$rd)=@_; my ($ref,$opf); my %aesopf = ( "fshiftorx" => 0x0b ); $ref = "$mnemonic\t$rs1,$rs2,$rs3,$rd"; if (defined($opf=$aesopf{$mnemonic})) { foreach ($rs1,$rs2,$rs3,$rd) { return $ref if (!/%f([0-9]{1,2})/); $_=$1; if ($1>=32) { return $ref if ($1&1); # re-encode for upper double register addressing $_=($1|$1>>5)&31; } } return sprintf ".word\t0x%08x !%s", 2<<30|$rd<<25|0x37<<19|$rs1<<14|$rs3<<9|$opf<<5|$rs2, $ref; } else { return $ref; } } foreach (split("\n",$code)) { s/\`([^\`]*)\`/eval $1/ge; s/%f([0-9]+)#lo/sprintf "%%f%d",$1+1/ge; s/\b(faes[^x]{3,4}x)\s+(%f[0-9]{1,2}),\s*([%fx0-9]+),\s*(%f[0-9]{1,2})/ &unfx($1,$2,$3,$4) /ge or s/\b([f][^\s]*)\s+(%f[0-9]{1,2}),\s*(%f[0-9]{1,2}),\s*(%f[0-9]{1,2}),\s*(%f[0-9]{1,2})/ &unfx3src($1,$2,$3,$4,$5) /ge or s/\b([fb][^\s]*)\s+(%f[0-9]{1,2}),\s*(%f[0-9]{1,2}),\s*(%f[0-9]{1,2})/ &unvis($1,$2,$3,$4) /ge or s/\b(alignaddr[l]*)\s+(%[goli][0-7]),\s*(%[goli][0-7]),\s*(%[goli][0-7])/ &unvis3($1,$2,$3,$4) /ge; print $_,"\n"; } close STDOUT;