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- #! /usr/bin/env perl
- # Copyright 2013-2016 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
- ######################################################################
- ## Constant-time SSSE3 AES core implementation.
- ## version 0.1
- ##
- ## By Mike Hamburg (Stanford University), 2009
- ## Public domain.
- ##
- ## For details see http://shiftleft.org/papers/vector_aes/ and
- ## http://crypto.stanford.edu/vpaes/.
- # CBC encrypt/decrypt performance in cycles per byte processed with
- # 128-bit key.
- #
- # aes-ppc.pl this
- # PPC74x0/G4e 35.5/52.1/(23.8) 11.9(*)/15.4
- # PPC970/G5 37.9/55.0/(28.5) 22.2/28.5
- # POWER6 42.7/54.3/(28.2) 63.0/92.8(**)
- # POWER7 32.3/42.9/(18.4) 18.5/23.3
- #
- # (*) This is ~10% worse than reported in paper. The reason is
- # twofold. This module doesn't make any assumption about
- # key schedule (or data for that matter) alignment and handles
- # it in-line. Secondly it, being transliterated from
- # vpaes-x86_64.pl, relies on "nested inversion" better suited
- # for Intel CPUs.
- # (**) Inadequate POWER6 performance is due to astronomic AltiVec
- # latency, 9 cycles per simple logical operation.
- # $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 && $ARGV[0] !~ m|\.| ? shift : undef;
- if ($flavour =~ /64/) {
- $SIZE_T =8;
- $LRSAVE =2*$SIZE_T;
- $STU ="stdu";
- $POP ="ld";
- $PUSH ="std";
- $UCMP ="cmpld";
- } elsif ($flavour =~ /32/) {
- $SIZE_T =4;
- $LRSAVE =$SIZE_T;
- $STU ="stwu";
- $POP ="lwz";
- $PUSH ="stw";
- $UCMP ="cmplw";
- } else { die "nonsense $flavour"; }
- $sp="r1";
- $FRAME=6*$SIZE_T+13*16; # 13*16 is for v20-v31 offload
- $0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
- ( $xlate="${dir}ppc-xlate.pl" and -f $xlate ) or
- ( $xlate="${dir}../../perlasm/ppc-xlate.pl" and -f $xlate) or
- die "can't locate ppc-xlate.pl";
- open STDOUT,"| $^X $xlate $flavour \"$output\""
- || die "can't call $xlate: $!";
- $code.=<<___;
- .machine "any"
- .text
- .align 7 # totally strategic alignment
- _vpaes_consts:
- Lk_mc_forward: # mc_forward
- .long 0x01020300, 0x05060704, 0x090a0b08, 0x0d0e0f0c ?inv
- .long 0x05060704, 0x090a0b08, 0x0d0e0f0c, 0x01020300 ?inv
- .long 0x090a0b08, 0x0d0e0f0c, 0x01020300, 0x05060704 ?inv
- .long 0x0d0e0f0c, 0x01020300, 0x05060704, 0x090a0b08 ?inv
- Lk_mc_backward: # mc_backward
- .long 0x03000102, 0x07040506, 0x0b08090a, 0x0f0c0d0e ?inv
- .long 0x0f0c0d0e, 0x03000102, 0x07040506, 0x0b08090a ?inv
- .long 0x0b08090a, 0x0f0c0d0e, 0x03000102, 0x07040506 ?inv
- .long 0x07040506, 0x0b08090a, 0x0f0c0d0e, 0x03000102 ?inv
- Lk_sr: # sr
- .long 0x00010203, 0x04050607, 0x08090a0b, 0x0c0d0e0f ?inv
- .long 0x00050a0f, 0x04090e03, 0x080d0207, 0x0c01060b ?inv
- .long 0x0009020b, 0x040d060f, 0x08010a03, 0x0c050e07 ?inv
- .long 0x000d0a07, 0x04010e0b, 0x0805020f, 0x0c090603 ?inv
- ##
- ## "Hot" constants
- ##
- Lk_inv: # inv, inva
- .long 0xf001080d, 0x0f06050e, 0x020c0b0a, 0x09030704 ?rev
- .long 0xf0070b0f, 0x060a0401, 0x09080502, 0x0c0e0d03 ?rev
- Lk_ipt: # input transform (lo, hi)
- .long 0x00702a5a, 0x98e8b2c2, 0x08782252, 0x90e0baca ?rev
- .long 0x004d7c31, 0x7d30014c, 0x81ccfdb0, 0xfcb180cd ?rev
- Lk_sbo: # sbou, sbot
- .long 0x00c7bd6f, 0x176dd2d0, 0x78a802c5, 0x7abfaa15 ?rev
- .long 0x006abb5f, 0xa574e4cf, 0xfa352b41, 0xd1901e8e ?rev
- Lk_sb1: # sb1u, sb1t
- .long 0x0023e2fa, 0x15d41836, 0xefd92e0d, 0xc1ccf73b ?rev
- .long 0x003e50cb, 0x8fe19bb1, 0x44f52a14, 0x6e7adfa5 ?rev
- Lk_sb2: # sb2u, sb2t
- .long 0x0029e10a, 0x4088eb69, 0x4a2382ab, 0xc863a1c2 ?rev
- .long 0x0024710b, 0xc6937ae2, 0xcd2f98bc, 0x55e9b75e ?rev
- ##
- ## Decryption stuff
- ##
- Lk_dipt: # decryption input transform
- .long 0x005f540b, 0x045b500f, 0x1a454e11, 0x1e414a15 ?rev
- .long 0x00650560, 0xe683e386, 0x94f191f4, 0x72177712 ?rev
- Lk_dsbo: # decryption sbox final output
- .long 0x0040f97e, 0x53ea8713, 0x2d3e94d4, 0xb96daac7 ?rev
- .long 0x001d4493, 0x0f56d712, 0x9c8ec5d8, 0x59814bca ?rev
- Lk_dsb9: # decryption sbox output *9*u, *9*t
- .long 0x00d6869a, 0x53031c85, 0xc94c994f, 0x501fd5ca ?rev
- .long 0x0049d7ec, 0x89173bc0, 0x65a5fbb2, 0x9e2c5e72 ?rev
- Lk_dsbd: # decryption sbox output *D*u, *D*t
- .long 0x00a2b1e6, 0xdfcc577d, 0x39442a88, 0x139b6ef5 ?rev
- .long 0x00cbc624, 0xf7fae23c, 0xd3efde15, 0x0d183129 ?rev
- Lk_dsbb: # decryption sbox output *B*u, *B*t
- .long 0x0042b496, 0x926422d0, 0x04d4f2b0, 0xf6462660 ?rev
- .long 0x006759cd, 0xa69894c1, 0x6baa5532, 0x3e0cfff3 ?rev
- Lk_dsbe: # decryption sbox output *E*u, *E*t
- .long 0x00d0d426, 0x9692f246, 0xb0f6b464, 0x04604222 ?rev
- .long 0x00c1aaff, 0xcda6550c, 0x323e5998, 0x6bf36794 ?rev
- ##
- ## Key schedule constants
- ##
- Lk_dksd: # decryption key schedule: invskew x*D
- .long 0x0047e4a3, 0x5d1ab9fe, 0xf9be1d5a, 0xa4e34007 ?rev
- .long 0x008336b5, 0xf477c241, 0x1e9d28ab, 0xea69dc5f ?rev
- Lk_dksb: # decryption key schedule: invskew x*B
- .long 0x00d55085, 0x1fca4f9a, 0x994cc91c, 0x8653d603 ?rev
- .long 0x004afcb6, 0xa7ed5b11, 0xc882347e, 0x6f2593d9 ?rev
- Lk_dkse: # decryption key schedule: invskew x*E + 0x63
- .long 0x00d6c91f, 0xca1c03d5, 0x86504f99, 0x4c9a8553 ?rev
- .long 0xe87bdc4f, 0x059631a2, 0x8714b320, 0x6af95ecd ?rev
- Lk_dks9: # decryption key schedule: invskew x*9
- .long 0x00a7d97e, 0xc86f11b6, 0xfc5b2582, 0x3493ed4a ?rev
- .long 0x00331427, 0x62517645, 0xcefddae9, 0xac9fb88b ?rev
- Lk_rcon: # rcon
- .long 0xb6ee9daf, 0xb991831f, 0x817d7c4d, 0x08982a70 ?asis
- Lk_s63:
- .long 0x5b5b5b5b, 0x5b5b5b5b, 0x5b5b5b5b, 0x5b5b5b5b ?asis
- Lk_opt: # output transform
- .long 0x0060b6d6, 0x29499fff, 0x0868bede, 0x214197f7 ?rev
- .long 0x00ecbc50, 0x51bded01, 0xe00c5cb0, 0xb15d0de1 ?rev
- Lk_deskew: # deskew tables: inverts the sbox's "skew"
- .long 0x00e3a447, 0x40a3e407, 0x1af9be5d, 0x5ab9fe1d ?rev
- .long 0x0069ea83, 0xdcb5365f, 0x771e9df4, 0xabc24128 ?rev
- .align 5
- Lconsts:
- mflr r0
- bcl 20,31,\$+4
- mflr r12 #vvvvv "distance between . and _vpaes_consts
- addi r12,r12,-0x308
- mtlr r0
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- .asciz "Vector Permutation AES for AltiVec, Mike Hamburg (Stanford University)"
- .align 6
- ___
- my ($inptail,$inpperm,$outhead,$outperm,$outmask,$keyperm) = map("v$_",(26..31));
- {
- my ($inp,$out,$key) = map("r$_",(3..5));
- my ($invlo,$invhi,$iptlo,$ipthi,$sbou,$sbot) = map("v$_",(10..15));
- my ($sb1u,$sb1t,$sb2u,$sb2t) = map("v$_",(16..19));
- my ($sb9u,$sb9t,$sbdu,$sbdt,$sbbu,$sbbt,$sbeu,$sbet)=map("v$_",(16..23));
- $code.=<<___;
- ##
- ## _aes_preheat
- ##
- ## Fills register %r10 -> .aes_consts (so you can -fPIC)
- ## and %xmm9-%xmm15 as specified below.
- ##
- .align 4
- _vpaes_encrypt_preheat:
- mflr r8
- bl Lconsts
- mtlr r8
- li r11, 0xc0 # Lk_inv
- li r10, 0xd0
- li r9, 0xe0 # Lk_ipt
- li r8, 0xf0
- vxor v7, v7, v7 # 0x00..00
- vspltisb v8,4 # 0x04..04
- vspltisb v9,0x0f # 0x0f..0f
- lvx $invlo, r12, r11
- li r11, 0x100
- lvx $invhi, r12, r10
- li r10, 0x110
- lvx $iptlo, r12, r9
- li r9, 0x120
- lvx $ipthi, r12, r8
- li r8, 0x130
- lvx $sbou, r12, r11
- li r11, 0x140
- lvx $sbot, r12, r10
- li r10, 0x150
- lvx $sb1u, r12, r9
- lvx $sb1t, r12, r8
- lvx $sb2u, r12, r11
- lvx $sb2t, r12, r10
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- ##
- ## _aes_encrypt_core
- ##
- ## AES-encrypt %xmm0.
- ##
- ## Inputs:
- ## %xmm0 = input
- ## %xmm9-%xmm15 as in _vpaes_preheat
- ## (%rdx) = scheduled keys
- ##
- ## Output in %xmm0
- ## Clobbers %xmm1-%xmm6, %r9, %r10, %r11, %rax
- ##
- ##
- .align 5
- _vpaes_encrypt_core:
- lwz r8, 240($key) # pull rounds
- li r9, 16
- lvx v5, 0, $key # vmovdqu (%r9), %xmm5 # round0 key
- li r11, 0x10
- lvx v6, r9, $key
- addi r9, r9, 16
- ?vperm v5, v5, v6, $keyperm # align round key
- addi r10, r11, 0x40
- vsrb v1, v0, v8 # vpsrlb \$4, %xmm0, %xmm0
- vperm v0, $iptlo, $iptlo, v0 # vpshufb %xmm1, %xmm2, %xmm1
- vperm v1, $ipthi, $ipthi, v1 # vpshufb %xmm0, %xmm3, %xmm2
- vxor v0, v0, v5 # vpxor %xmm5, %xmm1, %xmm0
- vxor v0, v0, v1 # vpxor %xmm2, %xmm0, %xmm0
- mtctr r8
- b Lenc_entry
- .align 4
- Lenc_loop:
- # middle of middle round
- vperm v4, $sb1t, v7, v2 # vpshufb %xmm2, %xmm13, %xmm4 # 4 = sb1u
- lvx v1, r12, r11 # vmovdqa -0x40(%r11,%r10), %xmm1 # .Lk_mc_forward[]
- addi r11, r11, 16
- vperm v0, $sb1u, v7, v3 # vpshufb %xmm3, %xmm12, %xmm0 # 0 = sb1t
- vxor v4, v4, v5 # vpxor %xmm5, %xmm4, %xmm4 # 4 = sb1u + k
- andi. r11, r11, 0x30 # and \$0x30, %r11 # ... mod 4
- vperm v5, $sb2t, v7, v2 # vpshufb %xmm2, %xmm15, %xmm5 # 4 = sb2u
- vxor v0, v0, v4 # vpxor %xmm4, %xmm0, %xmm0 # 0 = A
- vperm v2, $sb2u, v7, v3 # vpshufb %xmm3, %xmm14, %xmm2 # 2 = sb2t
- lvx v4, r12, r10 # vmovdqa (%r11,%r10), %xmm4 # .Lk_mc_backward[]
- addi r10, r11, 0x40
- vperm v3, v0, v7, v1 # vpshufb %xmm1, %xmm0, %xmm3 # 0 = B
- vxor v2, v2, v5 # vpxor %xmm5, %xmm2, %xmm2 # 2 = 2A
- vperm v0, v0, v7, v4 # vpshufb %xmm4, %xmm0, %xmm0 # 3 = D
- vxor v3, v3, v2 # vpxor %xmm2, %xmm3, %xmm3 # 0 = 2A+B
- vperm v4, v3, v7, v1 # vpshufb %xmm1, %xmm3, %xmm4 # 0 = 2B+C
- vxor v0, v0, v3 # vpxor %xmm3, %xmm0, %xmm0 # 3 = 2A+B+D
- vxor v0, v0, v4 # vpxor %xmm4, %xmm0, %xmm0 # 0 = 2A+3B+C+D
- Lenc_entry:
- # top of round
- vsrb v1, v0, v8 # vpsrlb \$4, %xmm0, %xmm0 # 1 = i
- vperm v5, $invhi, $invhi, v0 # vpshufb %xmm1, %xmm11, %xmm5 # 2 = a/k
- vxor v0, v0, v1 # vpxor %xmm0, %xmm1, %xmm1 # 0 = j
- vperm v3, $invlo, $invlo, v1 # vpshufb %xmm0, %xmm10, %xmm3 # 3 = 1/i
- vperm v4, $invlo, $invlo, v0 # vpshufb %xmm1, %xmm10, %xmm4 # 4 = 1/j
- vand v0, v0, v9
- vxor v3, v3, v5 # vpxor %xmm5, %xmm3, %xmm3 # 3 = iak = 1/i + a/k
- vxor v4, v4, v5 # vpxor %xmm5, %xmm4, %xmm4 # 4 = jak = 1/j + a/k
- vperm v2, $invlo, v7, v3 # vpshufb %xmm3, %xmm10, %xmm2 # 2 = 1/iak
- vmr v5, v6
- lvx v6, r9, $key # vmovdqu (%r9), %xmm5
- vperm v3, $invlo, v7, v4 # vpshufb %xmm4, %xmm10, %xmm3 # 3 = 1/jak
- addi r9, r9, 16
- vxor v2, v2, v0 # vpxor %xmm1, %xmm2, %xmm2 # 2 = io
- ?vperm v5, v5, v6, $keyperm # align round key
- vxor v3, v3, v1 # vpxor %xmm0, %xmm3, %xmm3 # 3 = jo
- bdnz Lenc_loop
- # middle of last round
- addi r10, r11, 0x80
- # vmovdqa -0x60(%r10), %xmm4 # 3 : sbou .Lk_sbo
- # vmovdqa -0x50(%r10), %xmm0 # 0 : sbot .Lk_sbo+16
- vperm v4, $sbou, v7, v2 # vpshufb %xmm2, %xmm4, %xmm4 # 4 = sbou
- lvx v1, r12, r10 # vmovdqa 0x40(%r11,%r10), %xmm1 # .Lk_sr[]
- vperm v0, $sbot, v7, v3 # vpshufb %xmm3, %xmm0, %xmm0 # 0 = sb1t
- vxor v4, v4, v5 # vpxor %xmm5, %xmm4, %xmm4 # 4 = sb1u + k
- vxor v0, v0, v4 # vpxor %xmm4, %xmm0, %xmm0 # 0 = A
- vperm v0, v0, v7, v1 # vpshufb %xmm1, %xmm0, %xmm0
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- .globl .vpaes_encrypt
- .align 5
- .vpaes_encrypt:
- $STU $sp,-$FRAME($sp)
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mflr r6
- mfspr r7, 256 # save vrsave
- stvx v20,r10,$sp
- addi r10,r10,32
- stvx v21,r11,$sp
- addi r11,r11,32
- stvx v22,r10,$sp
- addi r10,r10,32
- stvx v23,r11,$sp
- addi r11,r11,32
- stvx v24,r10,$sp
- addi r10,r10,32
- stvx v25,r11,$sp
- addi r11,r11,32
- stvx v26,r10,$sp
- addi r10,r10,32
- stvx v27,r11,$sp
- addi r11,r11,32
- stvx v28,r10,$sp
- addi r10,r10,32
- stvx v29,r11,$sp
- addi r11,r11,32
- stvx v30,r10,$sp
- stvx v31,r11,$sp
- stw r7,`$FRAME-4`($sp) # save vrsave
- li r0, -1
- $PUSH r6,`$FRAME+$LRSAVE`($sp)
- mtspr 256, r0 # preserve all AltiVec registers
- bl _vpaes_encrypt_preheat
- ?lvsl $inpperm, 0, $inp # prepare for unaligned access
- lvx v0, 0, $inp
- addi $inp, $inp, 15 # 15 is not a typo
- ?lvsr $outperm, 0, $out
- ?lvsl $keyperm, 0, $key # prepare for unaligned access
- lvx $inptail, 0, $inp # redundant in aligned case
- ?vperm v0, v0, $inptail, $inpperm
- bl _vpaes_encrypt_core
- andi. r8, $out, 15
- li r9, 16
- beq Lenc_out_aligned
- vperm v0, v0, v0, $outperm # rotate right/left
- mtctr r9
- Lenc_out_unaligned:
- stvebx v0, 0, $out
- addi $out, $out, 1
- bdnz Lenc_out_unaligned
- b Lenc_done
- .align 4
- Lenc_out_aligned:
- stvx v0, 0, $out
- Lenc_done:
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mtlr r6
- mtspr 256, r7 # restore vrsave
- lvx v20,r10,$sp
- addi r10,r10,32
- lvx v21,r11,$sp
- addi r11,r11,32
- lvx v22,r10,$sp
- addi r10,r10,32
- lvx v23,r11,$sp
- addi r11,r11,32
- lvx v24,r10,$sp
- addi r10,r10,32
- lvx v25,r11,$sp
- addi r11,r11,32
- lvx v26,r10,$sp
- addi r10,r10,32
- lvx v27,r11,$sp
- addi r11,r11,32
- lvx v28,r10,$sp
- addi r10,r10,32
- lvx v29,r11,$sp
- addi r11,r11,32
- lvx v30,r10,$sp
- lvx v31,r11,$sp
- addi $sp,$sp,$FRAME
- blr
- .long 0
- .byte 0,12,0x04,1,0x80,0,3,0
- .long 0
- .size .vpaes_encrypt,.-.vpaes_encrypt
- .align 4
- _vpaes_decrypt_preheat:
- mflr r8
- bl Lconsts
- mtlr r8
- li r11, 0xc0 # Lk_inv
- li r10, 0xd0
- li r9, 0x160 # Ldipt
- li r8, 0x170
- vxor v7, v7, v7 # 0x00..00
- vspltisb v8,4 # 0x04..04
- vspltisb v9,0x0f # 0x0f..0f
- lvx $invlo, r12, r11
- li r11, 0x180
- lvx $invhi, r12, r10
- li r10, 0x190
- lvx $iptlo, r12, r9
- li r9, 0x1a0
- lvx $ipthi, r12, r8
- li r8, 0x1b0
- lvx $sbou, r12, r11
- li r11, 0x1c0
- lvx $sbot, r12, r10
- li r10, 0x1d0
- lvx $sb9u, r12, r9
- li r9, 0x1e0
- lvx $sb9t, r12, r8
- li r8, 0x1f0
- lvx $sbdu, r12, r11
- li r11, 0x200
- lvx $sbdt, r12, r10
- li r10, 0x210
- lvx $sbbu, r12, r9
- lvx $sbbt, r12, r8
- lvx $sbeu, r12, r11
- lvx $sbet, r12, r10
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- ##
- ## Decryption core
- ##
- ## Same API as encryption core.
- ##
- .align 4
- _vpaes_decrypt_core:
- lwz r8, 240($key) # pull rounds
- li r9, 16
- lvx v5, 0, $key # vmovdqu (%r9), %xmm4 # round0 key
- li r11, 0x30
- lvx v6, r9, $key
- addi r9, r9, 16
- ?vperm v5, v5, v6, $keyperm # align round key
- vsrb v1, v0, v8 # vpsrlb \$4, %xmm0, %xmm0
- vperm v0, $iptlo, $iptlo, v0 # vpshufb %xmm1, %xmm2, %xmm2
- vperm v1, $ipthi, $ipthi, v1 # vpshufb %xmm0, %xmm1, %xmm0
- vxor v0, v0, v5 # vpxor %xmm4, %xmm2, %xmm2
- vxor v0, v0, v1 # vpxor %xmm2, %xmm0, %xmm0
- mtctr r8
- b Ldec_entry
- .align 4
- Ldec_loop:
- #
- # Inverse mix columns
- #
- lvx v0, r12, r11 # v5 and v0 are flipped
- # vmovdqa -0x20(%r10),%xmm4 # 4 : sb9u
- # vmovdqa -0x10(%r10),%xmm1 # 0 : sb9t
- vperm v4, $sb9u, v7, v2 # vpshufb %xmm2, %xmm4, %xmm4 # 4 = sb9u
- subi r11, r11, 16
- vperm v1, $sb9t, v7, v3 # vpshufb %xmm3, %xmm1, %xmm1 # 0 = sb9t
- andi. r11, r11, 0x30
- vxor v5, v5, v4 # vpxor %xmm4, %xmm0, %xmm0
- # vmovdqa 0x00(%r10),%xmm4 # 4 : sbdu
- vxor v5, v5, v1 # vpxor %xmm1, %xmm0, %xmm0 # 0 = ch
- # vmovdqa 0x10(%r10),%xmm1 # 0 : sbdt
- vperm v4, $sbdu, v7, v2 # vpshufb %xmm2, %xmm4, %xmm4 # 4 = sbdu
- vperm v5, v5, v7, v0 # vpshufb %xmm5, %xmm0, %xmm0 # MC ch
- vperm v1, $sbdt, v7, v3 # vpshufb %xmm3, %xmm1, %xmm1 # 0 = sbdt
- vxor v5, v5, v4 # vpxor %xmm4, %xmm0, %xmm0 # 4 = ch
- # vmovdqa 0x20(%r10), %xmm4 # 4 : sbbu
- vxor v5, v5, v1 # vpxor %xmm1, %xmm0, %xmm0 # 0 = ch
- # vmovdqa 0x30(%r10), %xmm1 # 0 : sbbt
- vperm v4, $sbbu, v7, v2 # vpshufb %xmm2, %xmm4, %xmm4 # 4 = sbbu
- vperm v5, v5, v7, v0 # vpshufb %xmm5, %xmm0, %xmm0 # MC ch
- vperm v1, $sbbt, v7, v3 # vpshufb %xmm3, %xmm1, %xmm1 # 0 = sbbt
- vxor v5, v5, v4 # vpxor %xmm4, %xmm0, %xmm0 # 4 = ch
- # vmovdqa 0x40(%r10), %xmm4 # 4 : sbeu
- vxor v5, v5, v1 # vpxor %xmm1, %xmm0, %xmm0 # 0 = ch
- # vmovdqa 0x50(%r10), %xmm1 # 0 : sbet
- vperm v4, $sbeu, v7, v2 # vpshufb %xmm2, %xmm4, %xmm4 # 4 = sbeu
- vperm v5, v5, v7, v0 # vpshufb %xmm5, %xmm0, %xmm0 # MC ch
- vperm v1, $sbet, v7, v3 # vpshufb %xmm3, %xmm1, %xmm1 # 0 = sbet
- vxor v0, v5, v4 # vpxor %xmm4, %xmm0, %xmm0 # 4 = ch
- vxor v0, v0, v1 # vpxor %xmm1, %xmm0, %xmm0 # 0 = ch
- Ldec_entry:
- # top of round
- vsrb v1, v0, v8 # vpsrlb \$4, %xmm0, %xmm0 # 1 = i
- vperm v2, $invhi, $invhi, v0 # vpshufb %xmm1, %xmm11, %xmm2 # 2 = a/k
- vxor v0, v0, v1 # vpxor %xmm0, %xmm1, %xmm1 # 0 = j
- vperm v3, $invlo, $invlo, v1 # vpshufb %xmm0, %xmm10, %xmm3 # 3 = 1/i
- vperm v4, $invlo, $invlo, v0 # vpshufb %xmm1, %xmm10, %xmm4 # 4 = 1/j
- vand v0, v0, v9
- vxor v3, v3, v2 # vpxor %xmm2, %xmm3, %xmm3 # 3 = iak = 1/i + a/k
- vxor v4, v4, v2 # vpxor %xmm2, %xmm4, %xmm4 # 4 = jak = 1/j + a/k
- vperm v2, $invlo, v7, v3 # vpshufb %xmm3, %xmm10, %xmm2 # 2 = 1/iak
- vmr v5, v6
- lvx v6, r9, $key # vmovdqu (%r9), %xmm0
- vperm v3, $invlo, v7, v4 # vpshufb %xmm4, %xmm10, %xmm3 # 3 = 1/jak
- addi r9, r9, 16
- vxor v2, v2, v0 # vpxor %xmm1, %xmm2, %xmm2 # 2 = io
- ?vperm v5, v5, v6, $keyperm # align round key
- vxor v3, v3, v1 # vpxor %xmm0, %xmm3, %xmm3 # 3 = jo
- bdnz Ldec_loop
- # middle of last round
- addi r10, r11, 0x80
- # vmovdqa 0x60(%r10), %xmm4 # 3 : sbou
- vperm v4, $sbou, v7, v2 # vpshufb %xmm2, %xmm4, %xmm4 # 4 = sbou
- # vmovdqa 0x70(%r10), %xmm1 # 0 : sbot
- lvx v2, r12, r10 # vmovdqa -0x160(%r11), %xmm2 # .Lk_sr-.Lk_dsbd=-0x160
- vperm v1, $sbot, v7, v3 # vpshufb %xmm3, %xmm1, %xmm1 # 0 = sb1t
- vxor v4, v4, v5 # vpxor %xmm0, %xmm4, %xmm4 # 4 = sb1u + k
- vxor v0, v1, v4 # vpxor %xmm4, %xmm1, %xmm0 # 0 = A
- vperm v0, v0, v7, v2 # vpshufb %xmm2, %xmm0, %xmm0
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- .globl .vpaes_decrypt
- .align 5
- .vpaes_decrypt:
- $STU $sp,-$FRAME($sp)
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mflr r6
- mfspr r7, 256 # save vrsave
- stvx v20,r10,$sp
- addi r10,r10,32
- stvx v21,r11,$sp
- addi r11,r11,32
- stvx v22,r10,$sp
- addi r10,r10,32
- stvx v23,r11,$sp
- addi r11,r11,32
- stvx v24,r10,$sp
- addi r10,r10,32
- stvx v25,r11,$sp
- addi r11,r11,32
- stvx v26,r10,$sp
- addi r10,r10,32
- stvx v27,r11,$sp
- addi r11,r11,32
- stvx v28,r10,$sp
- addi r10,r10,32
- stvx v29,r11,$sp
- addi r11,r11,32
- stvx v30,r10,$sp
- stvx v31,r11,$sp
- stw r7,`$FRAME-4`($sp) # save vrsave
- li r0, -1
- $PUSH r6,`$FRAME+$LRSAVE`($sp)
- mtspr 256, r0 # preserve all AltiVec registers
- bl _vpaes_decrypt_preheat
- ?lvsl $inpperm, 0, $inp # prepare for unaligned access
- lvx v0, 0, $inp
- addi $inp, $inp, 15 # 15 is not a typo
- ?lvsr $outperm, 0, $out
- ?lvsl $keyperm, 0, $key
- lvx $inptail, 0, $inp # redundant in aligned case
- ?vperm v0, v0, $inptail, $inpperm
- bl _vpaes_decrypt_core
- andi. r8, $out, 15
- li r9, 16
- beq Ldec_out_aligned
- vperm v0, v0, v0, $outperm # rotate right/left
- mtctr r9
- Ldec_out_unaligned:
- stvebx v0, 0, $out
- addi $out, $out, 1
- bdnz Ldec_out_unaligned
- b Ldec_done
- .align 4
- Ldec_out_aligned:
- stvx v0, 0, $out
- Ldec_done:
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mtlr r6
- mtspr 256, r7 # restore vrsave
- lvx v20,r10,$sp
- addi r10,r10,32
- lvx v21,r11,$sp
- addi r11,r11,32
- lvx v22,r10,$sp
- addi r10,r10,32
- lvx v23,r11,$sp
- addi r11,r11,32
- lvx v24,r10,$sp
- addi r10,r10,32
- lvx v25,r11,$sp
- addi r11,r11,32
- lvx v26,r10,$sp
- addi r10,r10,32
- lvx v27,r11,$sp
- addi r11,r11,32
- lvx v28,r10,$sp
- addi r10,r10,32
- lvx v29,r11,$sp
- addi r11,r11,32
- lvx v30,r10,$sp
- lvx v31,r11,$sp
- addi $sp,$sp,$FRAME
- blr
- .long 0
- .byte 0,12,0x04,1,0x80,0,3,0
- .long 0
- .size .vpaes_decrypt,.-.vpaes_decrypt
- .globl .vpaes_cbc_encrypt
- .align 5
- .vpaes_cbc_encrypt:
- ${UCMP}i r5,16
- bltlr-
- $STU $sp,-`($FRAME+2*$SIZE_T)`($sp)
- mflr r0
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mfspr r12, 256
- stvx v20,r10,$sp
- addi r10,r10,32
- stvx v21,r11,$sp
- addi r11,r11,32
- stvx v22,r10,$sp
- addi r10,r10,32
- stvx v23,r11,$sp
- addi r11,r11,32
- stvx v24,r10,$sp
- addi r10,r10,32
- stvx v25,r11,$sp
- addi r11,r11,32
- stvx v26,r10,$sp
- addi r10,r10,32
- stvx v27,r11,$sp
- addi r11,r11,32
- stvx v28,r10,$sp
- addi r10,r10,32
- stvx v29,r11,$sp
- addi r11,r11,32
- stvx v30,r10,$sp
- stvx v31,r11,$sp
- stw r12,`$FRAME-4`($sp) # save vrsave
- $PUSH r30,`$FRAME+$SIZE_T*0`($sp)
- $PUSH r31,`$FRAME+$SIZE_T*1`($sp)
- li r9, -16
- $PUSH r0, `$FRAME+$SIZE_T*2+$LRSAVE`($sp)
- and r30, r5, r9 # copy length&-16
- andi. r9, $out, 15 # is $out aligned?
- mr r5, r6 # copy pointer to key
- mr r31, r7 # copy pointer to iv
- li r6, -1
- mcrf cr1, cr0 # put aside $out alignment flag
- mr r7, r12 # copy vrsave
- mtspr 256, r6 # preserve all AltiVec registers
- lvx v24, 0, r31 # load [potentially unaligned] iv
- li r9, 15
- ?lvsl $inpperm, 0, r31
- lvx v25, r9, r31
- ?vperm v24, v24, v25, $inpperm
- cmpwi r8, 0 # test direction
- neg r8, $inp # prepare for unaligned access
- vxor v7, v7, v7
- ?lvsl $keyperm, 0, $key
- ?lvsr $outperm, 0, $out
- ?lvsr $inpperm, 0, r8 # -$inp
- vnor $outmask, v7, v7 # 0xff..ff
- lvx $inptail, 0, $inp
- ?vperm $outmask, v7, $outmask, $outperm
- addi $inp, $inp, 15 # 15 is not a typo
- beq Lcbc_decrypt
- bl _vpaes_encrypt_preheat
- li r0, 16
- beq cr1, Lcbc_enc_loop # $out is aligned
- vmr v0, $inptail
- lvx $inptail, 0, $inp
- addi $inp, $inp, 16
- ?vperm v0, v0, $inptail, $inpperm
- vxor v0, v0, v24 # ^= iv
- bl _vpaes_encrypt_core
- andi. r8, $out, 15
- vmr v24, v0 # put aside iv
- sub r9, $out, r8
- vperm $outhead, v0, v0, $outperm # rotate right/left
- Lcbc_enc_head:
- stvebx $outhead, r8, r9
- cmpwi r8, 15
- addi r8, r8, 1
- bne Lcbc_enc_head
- sub. r30, r30, r0 # len -= 16
- addi $out, $out, 16
- beq Lcbc_unaligned_done
- Lcbc_enc_loop:
- vmr v0, $inptail
- lvx $inptail, 0, $inp
- addi $inp, $inp, 16
- ?vperm v0, v0, $inptail, $inpperm
- vxor v0, v0, v24 # ^= iv
- bl _vpaes_encrypt_core
- vmr v24, v0 # put aside iv
- sub. r30, r30, r0 # len -= 16
- vperm v0, v0, v0, $outperm # rotate right/left
- vsel v1, $outhead, v0, $outmask
- vmr $outhead, v0
- stvx v1, 0, $out
- addi $out, $out, 16
- bne Lcbc_enc_loop
- b Lcbc_done
- .align 5
- Lcbc_decrypt:
- bl _vpaes_decrypt_preheat
- li r0, 16
- beq cr1, Lcbc_dec_loop # $out is aligned
- vmr v0, $inptail
- lvx $inptail, 0, $inp
- addi $inp, $inp, 16
- ?vperm v0, v0, $inptail, $inpperm
- vmr v25, v0 # put aside input
- bl _vpaes_decrypt_core
- andi. r8, $out, 15
- vxor v0, v0, v24 # ^= iv
- vmr v24, v25
- sub r9, $out, r8
- vperm $outhead, v0, v0, $outperm # rotate right/left
- Lcbc_dec_head:
- stvebx $outhead, r8, r9
- cmpwi r8, 15
- addi r8, r8, 1
- bne Lcbc_dec_head
- sub. r30, r30, r0 # len -= 16
- addi $out, $out, 16
- beq Lcbc_unaligned_done
- Lcbc_dec_loop:
- vmr v0, $inptail
- lvx $inptail, 0, $inp
- addi $inp, $inp, 16
- ?vperm v0, v0, $inptail, $inpperm
- vmr v25, v0 # put aside input
- bl _vpaes_decrypt_core
- vxor v0, v0, v24 # ^= iv
- vmr v24, v25
- sub. r30, r30, r0 # len -= 16
- vperm v0, v0, v0, $outperm # rotate right/left
- vsel v1, $outhead, v0, $outmask
- vmr $outhead, v0
- stvx v1, 0, $out
- addi $out, $out, 16
- bne Lcbc_dec_loop
- Lcbc_done:
- beq cr1, Lcbc_write_iv # $out is aligned
- Lcbc_unaligned_done:
- andi. r8, $out, 15
- sub $out, $out, r8
- li r9, 0
- Lcbc_tail:
- stvebx $outhead, r9, $out
- addi r9, r9, 1
- cmpw r9, r8
- bne Lcbc_tail
- Lcbc_write_iv:
- neg r8, r31 # write [potentially unaligned] iv
- li r10, 4
- ?lvsl $outperm, 0, r8
- li r11, 8
- li r12, 12
- vperm v24, v24, v24, $outperm # rotate right/left
- stvewx v24, 0, r31 # ivp is at least 32-bit aligned
- stvewx v24, r10, r31
- stvewx v24, r11, r31
- stvewx v24, r12, r31
- mtspr 256, r7 # restore vrsave
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- lvx v20,r10,$sp
- addi r10,r10,32
- lvx v21,r11,$sp
- addi r11,r11,32
- lvx v22,r10,$sp
- addi r10,r10,32
- lvx v23,r11,$sp
- addi r11,r11,32
- lvx v24,r10,$sp
- addi r10,r10,32
- lvx v25,r11,$sp
- addi r11,r11,32
- lvx v26,r10,$sp
- addi r10,r10,32
- lvx v27,r11,$sp
- addi r11,r11,32
- lvx v28,r10,$sp
- addi r10,r10,32
- lvx v29,r11,$sp
- addi r11,r11,32
- lvx v30,r10,$sp
- lvx v31,r11,$sp
- Lcbc_abort:
- $POP r0, `$FRAME+$SIZE_T*2+$LRSAVE`($sp)
- $POP r30,`$FRAME+$SIZE_T*0`($sp)
- $POP r31,`$FRAME+$SIZE_T*1`($sp)
- mtlr r0
- addi $sp,$sp,`$FRAME+$SIZE_T*2`
- blr
- .long 0
- .byte 0,12,0x04,1,0x80,2,6,0
- .long 0
- .size .vpaes_cbc_encrypt,.-.vpaes_cbc_encrypt
- ___
- }
- {
- my ($inp,$bits,$out)=map("r$_",(3..5));
- my $dir="cr1";
- my ($invlo,$invhi,$iptlo,$ipthi,$rcon) = map("v$_",(10..13,24));
- $code.=<<___;
- ########################################################
- ## ##
- ## AES key schedule ##
- ## ##
- ########################################################
- .align 4
- _vpaes_key_preheat:
- mflr r8
- bl Lconsts
- mtlr r8
- li r11, 0xc0 # Lk_inv
- li r10, 0xd0
- li r9, 0xe0 # L_ipt
- li r8, 0xf0
- vspltisb v8,4 # 0x04..04
- vxor v9,v9,v9 # 0x00..00
- lvx $invlo, r12, r11 # Lk_inv
- li r11, 0x120
- lvx $invhi, r12, r10
- li r10, 0x130
- lvx $iptlo, r12, r9 # Lk_ipt
- li r9, 0x220
- lvx $ipthi, r12, r8
- li r8, 0x230
- lvx v14, r12, r11 # Lk_sb1
- li r11, 0x240
- lvx v15, r12, r10
- li r10, 0x250
- lvx v16, r12, r9 # Lk_dksd
- li r9, 0x260
- lvx v17, r12, r8
- li r8, 0x270
- lvx v18, r12, r11 # Lk_dksb
- li r11, 0x280
- lvx v19, r12, r10
- li r10, 0x290
- lvx v20, r12, r9 # Lk_dkse
- li r9, 0x2a0
- lvx v21, r12, r8
- li r8, 0x2b0
- lvx v22, r12, r11 # Lk_dks9
- lvx v23, r12, r10
- lvx v24, r12, r9 # Lk_rcon
- lvx v25, 0, r12 # Lk_mc_forward[0]
- lvx v26, r12, r8 # Lks63
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- .align 4
- _vpaes_schedule_core:
- mflr r7
- bl _vpaes_key_preheat # load the tables
- #lvx v0, 0, $inp # vmovdqu (%rdi), %xmm0 # load key (unaligned)
- neg r8, $inp # prepare for unaligned access
- lvx v0, 0, $inp
- addi $inp, $inp, 15 # 15 is not typo
- ?lvsr $inpperm, 0, r8 # -$inp
- lvx v6, 0, $inp # v6 serves as inptail
- addi $inp, $inp, 8
- ?vperm v0, v0, v6, $inpperm
- # input transform
- vmr v3, v0 # vmovdqa %xmm0, %xmm3
- bl _vpaes_schedule_transform
- vmr v7, v0 # vmovdqa %xmm0, %xmm7
- bne $dir, Lschedule_am_decrypting
- # encrypting, output zeroth round key after transform
- li r8, 0x30 # mov \$0x30,%r8d
- li r9, 4
- li r10, 8
- li r11, 12
- ?lvsr $outperm, 0, $out # prepare for unaligned access
- vnor $outmask, v9, v9 # 0xff..ff
- ?vperm $outmask, v9, $outmask, $outperm
- #stvx v0, 0, $out # vmovdqu %xmm0, (%rdx)
- vperm $outhead, v0, v0, $outperm # rotate right/left
- stvewx $outhead, 0, $out # some are superfluous
- stvewx $outhead, r9, $out
- stvewx $outhead, r10, $out
- addi r10, r12, 0x80 # lea .Lk_sr(%rip),%r10
- stvewx $outhead, r11, $out
- b Lschedule_go
- Lschedule_am_decrypting:
- srwi r8, $bits, 1 # shr \$1,%r8d
- andi. r8, r8, 32 # and \$32,%r8d
- xori r8, r8, 32 # xor \$32,%r8d # nbits==192?0:32
- addi r10, r12, 0x80 # lea .Lk_sr(%rip),%r10
- # decrypting, output zeroth round key after shiftrows
- lvx v1, r8, r10 # vmovdqa (%r8,%r10), %xmm1
- li r9, 4
- li r10, 8
- li r11, 12
- vperm v4, v3, v3, v1 # vpshufb %xmm1, %xmm3, %xmm3
- neg r0, $out # prepare for unaligned access
- ?lvsl $outperm, 0, r0
- vnor $outmask, v9, v9 # 0xff..ff
- ?vperm $outmask, $outmask, v9, $outperm
- #stvx v4, 0, $out # vmovdqu %xmm3, (%rdx)
- vperm $outhead, v4, v4, $outperm # rotate right/left
- stvewx $outhead, 0, $out # some are superfluous
- stvewx $outhead, r9, $out
- stvewx $outhead, r10, $out
- addi r10, r12, 0x80 # lea .Lk_sr(%rip),%r10
- stvewx $outhead, r11, $out
- addi $out, $out, 15 # 15 is not typo
- xori r8, r8, 0x30 # xor \$0x30, %r8
- Lschedule_go:
- cmplwi $bits, 192 # cmp \$192, %esi
- bgt Lschedule_256
- beq Lschedule_192
- # 128: fall though
- ##
- ## .schedule_128
- ##
- ## 128-bit specific part of key schedule.
- ##
- ## This schedule is really simple, because all its parts
- ## are accomplished by the subroutines.
- ##
- Lschedule_128:
- li r0, 10 # mov \$10, %esi
- mtctr r0
- Loop_schedule_128:
- bl _vpaes_schedule_round
- bdz Lschedule_mangle_last # dec %esi
- bl _vpaes_schedule_mangle # write output
- b Loop_schedule_128
- ##
- ## .aes_schedule_192
- ##
- ## 192-bit specific part of key schedule.
- ##
- ## The main body of this schedule is the same as the 128-bit
- ## schedule, but with more smearing. The long, high side is
- ## stored in %xmm7 as before, and the short, low side is in
- ## the high bits of %xmm6.
- ##
- ## This schedule is somewhat nastier, however, because each
- ## round produces 192 bits of key material, or 1.5 round keys.
- ## Therefore, on each cycle we do 2 rounds and produce 3 round
- ## keys.
- ##
- .align 4
- Lschedule_192:
- li r0, 4 # mov \$4, %esi
- lvx v0, 0, $inp
- ?vperm v0, v6, v0, $inpperm
- ?vsldoi v0, v3, v0, 8 # vmovdqu 8(%rdi),%xmm0 # load key part 2 (very unaligned)
- bl _vpaes_schedule_transform # input transform
- ?vsldoi v6, v0, v9, 8
- ?vsldoi v6, v9, v6, 8 # clobber "low" side with zeros
- mtctr r0
- Loop_schedule_192:
- bl _vpaes_schedule_round
- ?vsldoi v0, v6, v0, 8 # vpalignr \$8,%xmm6,%xmm0,%xmm0
- bl _vpaes_schedule_mangle # save key n
- bl _vpaes_schedule_192_smear
- bl _vpaes_schedule_mangle # save key n+1
- bl _vpaes_schedule_round
- bdz Lschedule_mangle_last # dec %esi
- bl _vpaes_schedule_mangle # save key n+2
- bl _vpaes_schedule_192_smear
- b Loop_schedule_192
- ##
- ## .aes_schedule_256
- ##
- ## 256-bit specific part of key schedule.
- ##
- ## The structure here is very similar to the 128-bit
- ## schedule, but with an additional "low side" in
- ## %xmm6. The low side's rounds are the same as the
- ## high side's, except no rcon and no rotation.
- ##
- .align 4
- Lschedule_256:
- li r0, 7 # mov \$7, %esi
- addi $inp, $inp, 8
- lvx v0, 0, $inp # vmovdqu 16(%rdi),%xmm0 # load key part 2 (unaligned)
- ?vperm v0, v6, v0, $inpperm
- bl _vpaes_schedule_transform # input transform
- mtctr r0
- Loop_schedule_256:
- bl _vpaes_schedule_mangle # output low result
- vmr v6, v0 # vmovdqa %xmm0, %xmm6 # save cur_lo in xmm6
- # high round
- bl _vpaes_schedule_round
- bdz Lschedule_mangle_last # dec %esi
- bl _vpaes_schedule_mangle
- # low round. swap xmm7 and xmm6
- ?vspltw v0, v0, 3 # vpshufd \$0xFF, %xmm0, %xmm0
- vmr v5, v7 # vmovdqa %xmm7, %xmm5
- vmr v7, v6 # vmovdqa %xmm6, %xmm7
- bl _vpaes_schedule_low_round
- vmr v7, v5 # vmovdqa %xmm5, %xmm7
- b Loop_schedule_256
- ##
- ## .aes_schedule_mangle_last
- ##
- ## Mangler for last round of key schedule
- ## Mangles %xmm0
- ## when encrypting, outputs out(%xmm0) ^ 63
- ## when decrypting, outputs unskew(%xmm0)
- ##
- ## Always called right before return... jumps to cleanup and exits
- ##
- .align 4
- Lschedule_mangle_last:
- # schedule last round key from xmm0
- li r11, 0x2e0 # lea .Lk_deskew(%rip),%r11
- li r9, 0x2f0
- bne $dir, Lschedule_mangle_last_dec
- # encrypting
- lvx v1, r8, r10 # vmovdqa (%r8,%r10),%xmm1
- li r11, 0x2c0 # lea .Lk_opt(%rip), %r11 # prepare to output transform
- li r9, 0x2d0 # prepare to output transform
- vperm v0, v0, v0, v1 # vpshufb %xmm1, %xmm0, %xmm0 # output permute
- lvx $iptlo, r11, r12 # reload $ipt
- lvx $ipthi, r9, r12
- addi $out, $out, 16 # add \$16, %rdx
- vxor v0, v0, v26 # vpxor .Lk_s63(%rip), %xmm0, %xmm0
- bl _vpaes_schedule_transform # output transform
- #stvx v0, r0, $out # vmovdqu %xmm0, (%rdx) # save last key
- vperm v0, v0, v0, $outperm # rotate right/left
- li r10, 4
- vsel v2, $outhead, v0, $outmask
- li r11, 8
- stvx v2, 0, $out
- li r12, 12
- stvewx v0, 0, $out # some (or all) are redundant
- stvewx v0, r10, $out
- stvewx v0, r11, $out
- stvewx v0, r12, $out
- b Lschedule_mangle_done
- .align 4
- Lschedule_mangle_last_dec:
- lvx $iptlo, r11, r12 # reload $ipt
- lvx $ipthi, r9, r12
- addi $out, $out, -16 # add \$-16, %rdx
- vxor v0, v0, v26 # vpxor .Lk_s63(%rip), %xmm0, %xmm0
- bl _vpaes_schedule_transform # output transform
- #stvx v0, r0, $out # vmovdqu %xmm0, (%rdx) # save last key
- addi r9, $out, -15 # -15 is not typo
- vperm v0, v0, v0, $outperm # rotate right/left
- li r10, 4
- vsel v2, $outhead, v0, $outmask
- li r11, 8
- stvx v2, 0, $out
- li r12, 12
- stvewx v0, 0, r9 # some (or all) are redundant
- stvewx v0, r10, r9
- stvewx v0, r11, r9
- stvewx v0, r12, r9
- Lschedule_mangle_done:
- mtlr r7
- # cleanup
- vxor v0, v0, v0 # vpxor %xmm0, %xmm0, %xmm0
- vxor v1, v1, v1 # vpxor %xmm1, %xmm1, %xmm1
- vxor v2, v2, v2 # vpxor %xmm2, %xmm2, %xmm2
- vxor v3, v3, v3 # vpxor %xmm3, %xmm3, %xmm3
- vxor v4, v4, v4 # vpxor %xmm4, %xmm4, %xmm4
- vxor v5, v5, v5 # vpxor %xmm5, %xmm5, %xmm5
- vxor v6, v6, v6 # vpxor %xmm6, %xmm6, %xmm6
- vxor v7, v7, v7 # vpxor %xmm7, %xmm7, %xmm7
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- ##
- ## .aes_schedule_192_smear
- ##
- ## Smear the short, low side in the 192-bit key schedule.
- ##
- ## Inputs:
- ## %xmm7: high side, b a x y
- ## %xmm6: low side, d c 0 0
- ## %xmm13: 0
- ##
- ## Outputs:
- ## %xmm6: b+c+d b+c 0 0
- ## %xmm0: b+c+d b+c b a
- ##
- .align 4
- _vpaes_schedule_192_smear:
- ?vspltw v0, v7, 3
- ?vsldoi v1, v9, v6, 12 # vpshufd \$0x80, %xmm6, %xmm1 # d c 0 0 -> c 0 0 0
- ?vsldoi v0, v7, v0, 8 # vpshufd \$0xFE, %xmm7, %xmm0 # b a _ _ -> b b b a
- vxor v6, v6, v1 # vpxor %xmm1, %xmm6, %xmm6 # -> c+d c 0 0
- vxor v6, v6, v0 # vpxor %xmm0, %xmm6, %xmm6 # -> b+c+d b+c b a
- vmr v0, v6
- ?vsldoi v6, v6, v9, 8
- ?vsldoi v6, v9, v6, 8 # clobber low side with zeros
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- ##
- ## .aes_schedule_round
- ##
- ## Runs one main round of the key schedule on %xmm0, %xmm7
- ##
- ## Specifically, runs subbytes on the high dword of %xmm0
- ## then rotates it by one byte and xors into the low dword of
- ## %xmm7.
- ##
- ## Adds rcon from low byte of %xmm8, then rotates %xmm8 for
- ## next rcon.
- ##
- ## Smears the dwords of %xmm7 by xoring the low into the
- ## second low, result into third, result into highest.
- ##
- ## Returns results in %xmm7 = %xmm0.
- ## Clobbers %xmm1-%xmm4, %r11.
- ##
- .align 4
- _vpaes_schedule_round:
- # extract rcon from xmm8
- #vxor v4, v4, v4 # vpxor %xmm4, %xmm4, %xmm4
- ?vsldoi v1, $rcon, v9, 15 # vpalignr \$15, %xmm8, %xmm4, %xmm1
- ?vsldoi $rcon, $rcon, $rcon, 15 # vpalignr \$15, %xmm8, %xmm8, %xmm8
- vxor v7, v7, v1 # vpxor %xmm1, %xmm7, %xmm7
- # rotate
- ?vspltw v0, v0, 3 # vpshufd \$0xFF, %xmm0, %xmm0
- ?vsldoi v0, v0, v0, 1 # vpalignr \$1, %xmm0, %xmm0, %xmm0
- # fall through...
- # low round: same as high round, but no rotation and no rcon.
- _vpaes_schedule_low_round:
- # smear xmm7
- ?vsldoi v1, v9, v7, 12 # vpslldq \$4, %xmm7, %xmm1
- vxor v7, v7, v1 # vpxor %xmm1, %xmm7, %xmm7
- vspltisb v1, 0x0f # 0x0f..0f
- ?vsldoi v4, v9, v7, 8 # vpslldq \$8, %xmm7, %xmm4
- # subbytes
- vand v1, v1, v0 # vpand %xmm9, %xmm0, %xmm1 # 0 = k
- vsrb v0, v0, v8 # vpsrlb \$4, %xmm0, %xmm0 # 1 = i
- vxor v7, v7, v4 # vpxor %xmm4, %xmm7, %xmm7
- vperm v2, $invhi, v9, v1 # vpshufb %xmm1, %xmm11, %xmm2 # 2 = a/k
- vxor v1, v1, v0 # vpxor %xmm0, %xmm1, %xmm1 # 0 = j
- vperm v3, $invlo, v9, v0 # vpshufb %xmm0, %xmm10, %xmm3 # 3 = 1/i
- vxor v3, v3, v2 # vpxor %xmm2, %xmm3, %xmm3 # 3 = iak = 1/i + a/k
- vperm v4, $invlo, v9, v1 # vpshufb %xmm1, %xmm10, %xmm4 # 4 = 1/j
- vxor v7, v7, v26 # vpxor .Lk_s63(%rip), %xmm7, %xmm7
- vperm v3, $invlo, v9, v3 # vpshufb %xmm3, %xmm10, %xmm3 # 2 = 1/iak
- vxor v4, v4, v2 # vpxor %xmm2, %xmm4, %xmm4 # 4 = jak = 1/j + a/k
- vperm v2, $invlo, v9, v4 # vpshufb %xmm4, %xmm10, %xmm2 # 3 = 1/jak
- vxor v3, v3, v1 # vpxor %xmm1, %xmm3, %xmm3 # 2 = io
- vxor v2, v2, v0 # vpxor %xmm0, %xmm2, %xmm2 # 3 = jo
- vperm v4, v15, v9, v3 # vpshufb %xmm3, %xmm13, %xmm4 # 4 = sbou
- vperm v1, v14, v9, v2 # vpshufb %xmm2, %xmm12, %xmm1 # 0 = sb1t
- vxor v1, v1, v4 # vpxor %xmm4, %xmm1, %xmm1 # 0 = sbox output
- # add in smeared stuff
- vxor v0, v1, v7 # vpxor %xmm7, %xmm1, %xmm0
- vxor v7, v1, v7 # vmovdqa %xmm0, %xmm7
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- ##
- ## .aes_schedule_transform
- ##
- ## Linear-transform %xmm0 according to tables at (%r11)
- ##
- ## Requires that %xmm9 = 0x0F0F... as in preheat
- ## Output in %xmm0
- ## Clobbers %xmm2
- ##
- .align 4
- _vpaes_schedule_transform:
- #vand v1, v0, v9 # vpand %xmm9, %xmm0, %xmm1
- vsrb v2, v0, v8 # vpsrlb \$4, %xmm0, %xmm0
- # vmovdqa (%r11), %xmm2 # lo
- vperm v0, $iptlo, $iptlo, v0 # vpshufb %xmm1, %xmm2, %xmm2
- # vmovdqa 16(%r11), %xmm1 # hi
- vperm v2, $ipthi, $ipthi, v2 # vpshufb %xmm0, %xmm1, %xmm0
- vxor v0, v0, v2 # vpxor %xmm2, %xmm0, %xmm0
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- ##
- ## .aes_schedule_mangle
- ##
- ## Mangle xmm0 from (basis-transformed) standard version
- ## to our version.
- ##
- ## On encrypt,
- ## xor with 0x63
- ## multiply by circulant 0,1,1,1
- ## apply shiftrows transform
- ##
- ## On decrypt,
- ## xor with 0x63
- ## multiply by "inverse mixcolumns" circulant E,B,D,9
- ## deskew
- ## apply shiftrows transform
- ##
- ##
- ## Writes out to (%rdx), and increments or decrements it
- ## Keeps track of round number mod 4 in %r8
- ## Preserves xmm0
- ## Clobbers xmm1-xmm5
- ##
- .align 4
- _vpaes_schedule_mangle:
- #vmr v4, v0 # vmovdqa %xmm0, %xmm4 # save xmm0 for later
- # vmovdqa .Lk_mc_forward(%rip),%xmm5
- bne $dir, Lschedule_mangle_dec
- # encrypting
- vxor v4, v0, v26 # vpxor .Lk_s63(%rip), %xmm0, %xmm4
- addi $out, $out, 16 # add \$16, %rdx
- vperm v4, v4, v4, v25 # vpshufb %xmm5, %xmm4, %xmm4
- vperm v1, v4, v4, v25 # vpshufb %xmm5, %xmm4, %xmm1
- vperm v3, v1, v1, v25 # vpshufb %xmm5, %xmm1, %xmm3
- vxor v4, v4, v1 # vpxor %xmm1, %xmm4, %xmm4
- lvx v1, r8, r10 # vmovdqa (%r8,%r10), %xmm1
- vxor v3, v3, v4 # vpxor %xmm4, %xmm3, %xmm3
- vperm v3, v3, v3, v1 # vpshufb %xmm1, %xmm3, %xmm3
- addi r8, r8, -16 # add \$-16, %r8
- andi. r8, r8, 0x30 # and \$0x30, %r8
- #stvx v3, 0, $out # vmovdqu %xmm3, (%rdx)
- vperm v1, v3, v3, $outperm # rotate right/left
- vsel v2, $outhead, v1, $outmask
- vmr $outhead, v1
- stvx v2, 0, $out
- blr
- .align 4
- Lschedule_mangle_dec:
- # inverse mix columns
- # lea .Lk_dksd(%rip),%r11
- vsrb v1, v0, v8 # vpsrlb \$4, %xmm4, %xmm1 # 1 = hi
- #and v4, v0, v9 # vpand %xmm9, %xmm4, %xmm4 # 4 = lo
- # vmovdqa 0x00(%r11), %xmm2
- vperm v2, v16, v16, v0 # vpshufb %xmm4, %xmm2, %xmm2
- # vmovdqa 0x10(%r11), %xmm3
- vperm v3, v17, v17, v1 # vpshufb %xmm1, %xmm3, %xmm3
- vxor v3, v3, v2 # vpxor %xmm2, %xmm3, %xmm3
- vperm v3, v3, v9, v25 # vpshufb %xmm5, %xmm3, %xmm3
- # vmovdqa 0x20(%r11), %xmm2
- vperm v2, v18, v18, v0 # vpshufb %xmm4, %xmm2, %xmm2
- vxor v2, v2, v3 # vpxor %xmm3, %xmm2, %xmm2
- # vmovdqa 0x30(%r11), %xmm3
- vperm v3, v19, v19, v1 # vpshufb %xmm1, %xmm3, %xmm3
- vxor v3, v3, v2 # vpxor %xmm2, %xmm3, %xmm3
- vperm v3, v3, v9, v25 # vpshufb %xmm5, %xmm3, %xmm3
- # vmovdqa 0x40(%r11), %xmm2
- vperm v2, v20, v20, v0 # vpshufb %xmm4, %xmm2, %xmm2
- vxor v2, v2, v3 # vpxor %xmm3, %xmm2, %xmm2
- # vmovdqa 0x50(%r11), %xmm3
- vperm v3, v21, v21, v1 # vpshufb %xmm1, %xmm3, %xmm3
- vxor v3, v3, v2 # vpxor %xmm2, %xmm3, %xmm3
- # vmovdqa 0x60(%r11), %xmm2
- vperm v2, v22, v22, v0 # vpshufb %xmm4, %xmm2, %xmm2
- vperm v3, v3, v9, v25 # vpshufb %xmm5, %xmm3, %xmm3
- # vmovdqa 0x70(%r11), %xmm4
- vperm v4, v23, v23, v1 # vpshufb %xmm1, %xmm4, %xmm4
- lvx v1, r8, r10 # vmovdqa (%r8,%r10), %xmm1
- vxor v2, v2, v3 # vpxor %xmm3, %xmm2, %xmm2
- vxor v3, v4, v2 # vpxor %xmm2, %xmm4, %xmm3
- addi $out, $out, -16 # add \$-16, %rdx
- vperm v3, v3, v3, v1 # vpshufb %xmm1, %xmm3, %xmm3
- addi r8, r8, -16 # add \$-16, %r8
- andi. r8, r8, 0x30 # and \$0x30, %r8
- #stvx v3, 0, $out # vmovdqu %xmm3, (%rdx)
- vperm v1, v3, v3, $outperm # rotate right/left
- vsel v2, $outhead, v1, $outmask
- vmr $outhead, v1
- stvx v2, 0, $out
- blr
- .long 0
- .byte 0,12,0x14,0,0,0,0,0
- .globl .vpaes_set_encrypt_key
- .align 5
- .vpaes_set_encrypt_key:
- $STU $sp,-$FRAME($sp)
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mflr r0
- mfspr r6, 256 # save vrsave
- stvx v20,r10,$sp
- addi r10,r10,32
- stvx v21,r11,$sp
- addi r11,r11,32
- stvx v22,r10,$sp
- addi r10,r10,32
- stvx v23,r11,$sp
- addi r11,r11,32
- stvx v24,r10,$sp
- addi r10,r10,32
- stvx v25,r11,$sp
- addi r11,r11,32
- stvx v26,r10,$sp
- addi r10,r10,32
- stvx v27,r11,$sp
- addi r11,r11,32
- stvx v28,r10,$sp
- addi r10,r10,32
- stvx v29,r11,$sp
- addi r11,r11,32
- stvx v30,r10,$sp
- stvx v31,r11,$sp
- stw r6,`$FRAME-4`($sp) # save vrsave
- li r7, -1
- $PUSH r0, `$FRAME+$LRSAVE`($sp)
- mtspr 256, r7 # preserve all AltiVec registers
- srwi r9, $bits, 5 # shr \$5,%eax
- addi r9, r9, 6 # add \$5,%eax
- stw r9, 240($out) # mov %eax,240(%rdx) # AES_KEY->rounds = nbits/32+5;
- cmplw $dir, $bits, $bits # set encrypt direction
- li r8, 0x30 # mov \$0x30,%r8d
- bl _vpaes_schedule_core
- $POP r0, `$FRAME+$LRSAVE`($sp)
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mtspr 256, r6 # restore vrsave
- mtlr r0
- xor r3, r3, r3
- lvx v20,r10,$sp
- addi r10,r10,32
- lvx v21,r11,$sp
- addi r11,r11,32
- lvx v22,r10,$sp
- addi r10,r10,32
- lvx v23,r11,$sp
- addi r11,r11,32
- lvx v24,r10,$sp
- addi r10,r10,32
- lvx v25,r11,$sp
- addi r11,r11,32
- lvx v26,r10,$sp
- addi r10,r10,32
- lvx v27,r11,$sp
- addi r11,r11,32
- lvx v28,r10,$sp
- addi r10,r10,32
- lvx v29,r11,$sp
- addi r11,r11,32
- lvx v30,r10,$sp
- lvx v31,r11,$sp
- addi $sp,$sp,$FRAME
- blr
- .long 0
- .byte 0,12,0x04,1,0x80,0,3,0
- .long 0
- .size .vpaes_set_encrypt_key,.-.vpaes_set_encrypt_key
- .globl .vpaes_set_decrypt_key
- .align 4
- .vpaes_set_decrypt_key:
- $STU $sp,-$FRAME($sp)
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mflr r0
- mfspr r6, 256 # save vrsave
- stvx v20,r10,$sp
- addi r10,r10,32
- stvx v21,r11,$sp
- addi r11,r11,32
- stvx v22,r10,$sp
- addi r10,r10,32
- stvx v23,r11,$sp
- addi r11,r11,32
- stvx v24,r10,$sp
- addi r10,r10,32
- stvx v25,r11,$sp
- addi r11,r11,32
- stvx v26,r10,$sp
- addi r10,r10,32
- stvx v27,r11,$sp
- addi r11,r11,32
- stvx v28,r10,$sp
- addi r10,r10,32
- stvx v29,r11,$sp
- addi r11,r11,32
- stvx v30,r10,$sp
- stvx v31,r11,$sp
- stw r6,`$FRAME-4`($sp) # save vrsave
- li r7, -1
- $PUSH r0, `$FRAME+$LRSAVE`($sp)
- mtspr 256, r7 # preserve all AltiVec registers
- srwi r9, $bits, 5 # shr \$5,%eax
- addi r9, r9, 6 # add \$5,%eax
- stw r9, 240($out) # mov %eax,240(%rdx) # AES_KEY->rounds = nbits/32+5;
- slwi r9, r9, 4 # shl \$4,%eax
- add $out, $out, r9 # lea (%rdx,%rax),%rdx
- cmplwi $dir, $bits, 0 # set decrypt direction
- srwi r8, $bits, 1 # shr \$1,%r8d
- andi. r8, r8, 32 # and \$32,%r8d
- xori r8, r8, 32 # xor \$32,%r8d # nbits==192?0:32
- bl _vpaes_schedule_core
- $POP r0, `$FRAME+$LRSAVE`($sp)
- li r10,`15+6*$SIZE_T`
- li r11,`31+6*$SIZE_T`
- mtspr 256, r6 # restore vrsave
- mtlr r0
- xor r3, r3, r3
- lvx v20,r10,$sp
- addi r10,r10,32
- lvx v21,r11,$sp
- addi r11,r11,32
- lvx v22,r10,$sp
- addi r10,r10,32
- lvx v23,r11,$sp
- addi r11,r11,32
- lvx v24,r10,$sp
- addi r10,r10,32
- lvx v25,r11,$sp
- addi r11,r11,32
- lvx v26,r10,$sp
- addi r10,r10,32
- lvx v27,r11,$sp
- addi r11,r11,32
- lvx v28,r10,$sp
- addi r10,r10,32
- lvx v29,r11,$sp
- addi r11,r11,32
- lvx v30,r10,$sp
- lvx v31,r11,$sp
- addi $sp,$sp,$FRAME
- blr
- .long 0
- .byte 0,12,0x04,1,0x80,0,3,0
- .long 0
- .size .vpaes_set_decrypt_key,.-.vpaes_set_decrypt_key
- ___
- }
- my $consts=1;
- foreach (split("\n",$code)) {
- s/\`([^\`]*)\`/eval $1/geo;
- # constants table endian-specific conversion
- if ($consts && m/\.long\s+(.+)\s+(\?[a-z]*)$/o) {
- my $conv=$2;
- my @bytes=();
- # convert to endian-agnostic format
- foreach (split(/,\s+/,$1)) {
- my $l = /^0/?oct:int;
- push @bytes,($l>>24)&0xff,($l>>16)&0xff,($l>>8)&0xff,$l&0xff;
- }
- # little-endian conversion
- if ($flavour =~ /le$/o) {
- SWITCH: for($conv) {
- /\?inv/ && do { @bytes=map($_^0xf,@bytes); last; };
- /\?rev/ && do { @bytes=reverse(@bytes); last; };
- }
- }
- #emit
- print ".byte\t",join(',',map (sprintf("0x%02x",$_),@bytes)),"\n";
- next;
- }
- $consts=0 if (m/Lconsts:/o); # end of table
- # instructions prefixed with '?' are endian-specific and need
- # to be adjusted accordingly...
- if ($flavour =~ /le$/o) { # little-endian
- s/\?lvsr/lvsl/o or
- s/\?lvsl/lvsr/o or
- s/\?(vperm\s+v[0-9]+,\s*)(v[0-9]+,\s*)(v[0-9]+,\s*)(v[0-9]+)/$1$3$2$4/o or
- s/\?(vsldoi\s+v[0-9]+,\s*)(v[0-9]+,)\s*(v[0-9]+,\s*)([0-9]+)/$1$3$2 16-$4/o or
- s/\?(vspltw\s+v[0-9]+,\s*)(v[0-9]+,)\s*([0-9])/$1$2 3-$3/o;
- } else { # big-endian
- s/\?([a-z]+)/$1/o;
- }
- print $_,"\n";
- }
- close STDOUT;
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