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cf1521a1a5
Patch adds AVX2/x86-64 implementation of Twofish cipher, requiring 16 parallel blocks for input (256 bytes). Table look-ups are performed using vpgatherdd instruction directly from vector registers and thus should be faster than earlier implementations. Implementation also uses 256-bit wide YMM registers, which should give additional speed up compared to the AVX implementation. Signed-off-by: Jussi Kivilinna <jussi.kivilinna@iki.fi> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
181 lines
5.2 KiB
ArmAsm
181 lines
5.2 KiB
ArmAsm
/*
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* Shared glue code for 128bit block ciphers, AVX2 assembler macros
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*
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* Copyright © 2012-2013 Jussi Kivilinna <jussi.kivilinna@mbnet.fi>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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*/
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#define load_16way(src, x0, x1, x2, x3, x4, x5, x6, x7) \
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vmovdqu (0*32)(src), x0; \
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vmovdqu (1*32)(src), x1; \
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vmovdqu (2*32)(src), x2; \
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vmovdqu (3*32)(src), x3; \
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vmovdqu (4*32)(src), x4; \
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vmovdqu (5*32)(src), x5; \
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vmovdqu (6*32)(src), x6; \
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vmovdqu (7*32)(src), x7;
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#define store_16way(dst, x0, x1, x2, x3, x4, x5, x6, x7) \
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vmovdqu x0, (0*32)(dst); \
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vmovdqu x1, (1*32)(dst); \
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vmovdqu x2, (2*32)(dst); \
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vmovdqu x3, (3*32)(dst); \
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vmovdqu x4, (4*32)(dst); \
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vmovdqu x5, (5*32)(dst); \
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vmovdqu x6, (6*32)(dst); \
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vmovdqu x7, (7*32)(dst);
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#define store_cbc_16way(src, dst, x0, x1, x2, x3, x4, x5, x6, x7, t0) \
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vpxor t0, t0, t0; \
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vinserti128 $1, (src), t0, t0; \
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vpxor t0, x0, x0; \
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vpxor (0*32+16)(src), x1, x1; \
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vpxor (1*32+16)(src), x2, x2; \
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vpxor (2*32+16)(src), x3, x3; \
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vpxor (3*32+16)(src), x4, x4; \
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vpxor (4*32+16)(src), x5, x5; \
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vpxor (5*32+16)(src), x6, x6; \
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vpxor (6*32+16)(src), x7, x7; \
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store_16way(dst, x0, x1, x2, x3, x4, x5, x6, x7);
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#define inc_le128(x, minus_one, tmp) \
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vpcmpeqq minus_one, x, tmp; \
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vpsubq minus_one, x, x; \
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vpslldq $8, tmp, tmp; \
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vpsubq tmp, x, x;
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#define add2_le128(x, minus_one, minus_two, tmp1, tmp2) \
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vpcmpeqq minus_one, x, tmp1; \
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vpcmpeqq minus_two, x, tmp2; \
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vpsubq minus_two, x, x; \
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vpor tmp2, tmp1, tmp1; \
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vpslldq $8, tmp1, tmp1; \
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vpsubq tmp1, x, x;
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#define load_ctr_16way(iv, bswap, x0, x1, x2, x3, x4, x5, x6, x7, t0, t0x, t1, \
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t1x, t2, t2x, t3, t3x, t4, t5) \
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vpcmpeqd t0, t0, t0; \
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vpsrldq $8, t0, t0; /* ab: -1:0 ; cd: -1:0 */ \
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vpaddq t0, t0, t4; /* ab: -2:0 ; cd: -2:0 */\
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\
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/* load IV and byteswap */ \
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vmovdqu (iv), t2x; \
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vmovdqa t2x, t3x; \
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inc_le128(t2x, t0x, t1x); \
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vbroadcasti128 bswap, t1; \
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vinserti128 $1, t2x, t3, t2; /* ab: le0 ; cd: le1 */ \
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vpshufb t1, t2, x0; \
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\
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/* construct IVs */ \
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add2_le128(t2, t0, t4, t3, t5); /* ab: le2 ; cd: le3 */ \
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vpshufb t1, t2, x1; \
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add2_le128(t2, t0, t4, t3, t5); \
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vpshufb t1, t2, x2; \
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add2_le128(t2, t0, t4, t3, t5); \
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vpshufb t1, t2, x3; \
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add2_le128(t2, t0, t4, t3, t5); \
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vpshufb t1, t2, x4; \
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add2_le128(t2, t0, t4, t3, t5); \
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vpshufb t1, t2, x5; \
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add2_le128(t2, t0, t4, t3, t5); \
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vpshufb t1, t2, x6; \
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add2_le128(t2, t0, t4, t3, t5); \
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vpshufb t1, t2, x7; \
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vextracti128 $1, t2, t2x; \
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inc_le128(t2x, t0x, t3x); \
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vmovdqu t2x, (iv);
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#define store_ctr_16way(src, dst, x0, x1, x2, x3, x4, x5, x6, x7) \
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vpxor (0*32)(src), x0, x0; \
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vpxor (1*32)(src), x1, x1; \
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vpxor (2*32)(src), x2, x2; \
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vpxor (3*32)(src), x3, x3; \
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vpxor (4*32)(src), x4, x4; \
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vpxor (5*32)(src), x5, x5; \
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vpxor (6*32)(src), x6, x6; \
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vpxor (7*32)(src), x7, x7; \
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store_16way(dst, x0, x1, x2, x3, x4, x5, x6, x7);
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#define gf128mul_x_ble(iv, mask, tmp) \
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vpsrad $31, iv, tmp; \
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vpaddq iv, iv, iv; \
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vpshufd $0x13, tmp, tmp; \
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vpand mask, tmp, tmp; \
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vpxor tmp, iv, iv;
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#define gf128mul_x2_ble(iv, mask1, mask2, tmp0, tmp1) \
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vpsrad $31, iv, tmp0; \
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vpaddq iv, iv, tmp1; \
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vpsllq $2, iv, iv; \
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vpshufd $0x13, tmp0, tmp0; \
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vpsrad $31, tmp1, tmp1; \
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vpand mask2, tmp0, tmp0; \
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vpshufd $0x13, tmp1, tmp1; \
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vpxor tmp0, iv, iv; \
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vpand mask1, tmp1, tmp1; \
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vpxor tmp1, iv, iv;
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#define load_xts_16way(iv, src, dst, x0, x1, x2, x3, x4, x5, x6, x7, tiv, \
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tivx, t0, t0x, t1, t1x, t2, t2x, t3, \
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xts_gf128mul_and_shl1_mask_0, \
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xts_gf128mul_and_shl1_mask_1) \
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vbroadcasti128 xts_gf128mul_and_shl1_mask_0, t1; \
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\
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/* load IV and construct second IV */ \
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vmovdqu (iv), tivx; \
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vmovdqa tivx, t0x; \
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gf128mul_x_ble(tivx, t1x, t2x); \
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vbroadcasti128 xts_gf128mul_and_shl1_mask_1, t2; \
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vinserti128 $1, tivx, t0, tiv; \
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vpxor (0*32)(src), tiv, x0; \
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vmovdqu tiv, (0*32)(dst); \
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\
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/* construct and store IVs, also xor with source */ \
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gf128mul_x2_ble(tiv, t1, t2, t0, t3); \
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vpxor (1*32)(src), tiv, x1; \
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vmovdqu tiv, (1*32)(dst); \
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\
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gf128mul_x2_ble(tiv, t1, t2, t0, t3); \
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vpxor (2*32)(src), tiv, x2; \
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vmovdqu tiv, (2*32)(dst); \
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\
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gf128mul_x2_ble(tiv, t1, t2, t0, t3); \
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vpxor (3*32)(src), tiv, x3; \
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vmovdqu tiv, (3*32)(dst); \
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\
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gf128mul_x2_ble(tiv, t1, t2, t0, t3); \
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vpxor (4*32)(src), tiv, x4; \
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vmovdqu tiv, (4*32)(dst); \
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\
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gf128mul_x2_ble(tiv, t1, t2, t0, t3); \
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vpxor (5*32)(src), tiv, x5; \
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vmovdqu tiv, (5*32)(dst); \
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\
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gf128mul_x2_ble(tiv, t1, t2, t0, t3); \
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vpxor (6*32)(src), tiv, x6; \
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vmovdqu tiv, (6*32)(dst); \
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\
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gf128mul_x2_ble(tiv, t1, t2, t0, t3); \
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vpxor (7*32)(src), tiv, x7; \
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vmovdqu tiv, (7*32)(dst); \
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\
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vextracti128 $1, tiv, tivx; \
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gf128mul_x_ble(tivx, t1x, t2x); \
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vmovdqu tivx, (iv);
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#define store_xts_16way(dst, x0, x1, x2, x3, x4, x5, x6, x7) \
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vpxor (0*32)(dst), x0, x0; \
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vpxor (1*32)(dst), x1, x1; \
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vpxor (2*32)(dst), x2, x2; \
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vpxor (3*32)(dst), x3, x3; \
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vpxor (4*32)(dst), x4, x4; \
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vpxor (5*32)(dst), x5, x5; \
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vpxor (6*32)(dst), x6, x6; \
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vpxor (7*32)(dst), x7, x7; \
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store_16way(dst, x0, x1, x2, x3, x4, x5, x6, x7);
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