353 lines
9.9 KiB
ArmAsm
353 lines
9.9 KiB
ArmAsm
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// SPDX-License-Identifier: GPL-2.0
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/*
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* ARM64 NEON-accelerated implementation of Speck128-XTS and Speck64-XTS
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*
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* Copyright (c) 2018 Google, Inc
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*
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* Author: Eric Biggers <ebiggers@google.com>
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*/
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#include <linux/linkage.h>
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.text
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// arguments
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ROUND_KEYS .req x0 // const {u64,u32} *round_keys
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NROUNDS .req w1 // int nrounds
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NROUNDS_X .req x1
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DST .req x2 // void *dst
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SRC .req x3 // const void *src
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NBYTES .req w4 // unsigned int nbytes
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TWEAK .req x5 // void *tweak
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// registers which hold the data being encrypted/decrypted
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// (underscores avoid a naming collision with ARM64 registers x0-x3)
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X_0 .req v0
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Y_0 .req v1
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X_1 .req v2
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Y_1 .req v3
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X_2 .req v4
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Y_2 .req v5
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X_3 .req v6
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Y_3 .req v7
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// the round key, duplicated in all lanes
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ROUND_KEY .req v8
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// index vector for tbl-based 8-bit rotates
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ROTATE_TABLE .req v9
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ROTATE_TABLE_Q .req q9
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// temporary registers
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TMP0 .req v10
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TMP1 .req v11
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TMP2 .req v12
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TMP3 .req v13
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// multiplication table for updating XTS tweaks
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GFMUL_TABLE .req v14
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GFMUL_TABLE_Q .req q14
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// next XTS tweak value(s)
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TWEAKV_NEXT .req v15
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// XTS tweaks for the blocks currently being encrypted/decrypted
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TWEAKV0 .req v16
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TWEAKV1 .req v17
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TWEAKV2 .req v18
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TWEAKV3 .req v19
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TWEAKV4 .req v20
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TWEAKV5 .req v21
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TWEAKV6 .req v22
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TWEAKV7 .req v23
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.align 4
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.Lror64_8_table:
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.octa 0x080f0e0d0c0b0a090007060504030201
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.Lror32_8_table:
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.octa 0x0c0f0e0d080b0a090407060500030201
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.Lrol64_8_table:
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.octa 0x0e0d0c0b0a09080f0605040302010007
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.Lrol32_8_table:
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.octa 0x0e0d0c0f0a09080b0605040702010003
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.Lgf128mul_table:
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.octa 0x00000000000000870000000000000001
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.Lgf64mul_table:
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.octa 0x0000000000000000000000002d361b00
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/*
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* _speck_round_128bytes() - Speck encryption round on 128 bytes at a time
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*
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* Do one Speck encryption round on the 128 bytes (8 blocks for Speck128, 16 for
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* Speck64) stored in X0-X3 and Y0-Y3, using the round key stored in all lanes
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* of ROUND_KEY. 'n' is the lane size: 64 for Speck128, or 32 for Speck64.
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* 'lanes' is the lane specifier: "2d" for Speck128 or "4s" for Speck64.
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*/
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.macro _speck_round_128bytes n, lanes
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// x = ror(x, 8)
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tbl X_0.16b, {X_0.16b}, ROTATE_TABLE.16b
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tbl X_1.16b, {X_1.16b}, ROTATE_TABLE.16b
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tbl X_2.16b, {X_2.16b}, ROTATE_TABLE.16b
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tbl X_3.16b, {X_3.16b}, ROTATE_TABLE.16b
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// x += y
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add X_0.\lanes, X_0.\lanes, Y_0.\lanes
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add X_1.\lanes, X_1.\lanes, Y_1.\lanes
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add X_2.\lanes, X_2.\lanes, Y_2.\lanes
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add X_3.\lanes, X_3.\lanes, Y_3.\lanes
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// x ^= k
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eor X_0.16b, X_0.16b, ROUND_KEY.16b
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eor X_1.16b, X_1.16b, ROUND_KEY.16b
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eor X_2.16b, X_2.16b, ROUND_KEY.16b
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eor X_3.16b, X_3.16b, ROUND_KEY.16b
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// y = rol(y, 3)
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shl TMP0.\lanes, Y_0.\lanes, #3
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shl TMP1.\lanes, Y_1.\lanes, #3
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shl TMP2.\lanes, Y_2.\lanes, #3
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shl TMP3.\lanes, Y_3.\lanes, #3
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sri TMP0.\lanes, Y_0.\lanes, #(\n - 3)
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sri TMP1.\lanes, Y_1.\lanes, #(\n - 3)
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sri TMP2.\lanes, Y_2.\lanes, #(\n - 3)
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sri TMP3.\lanes, Y_3.\lanes, #(\n - 3)
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// y ^= x
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eor Y_0.16b, TMP0.16b, X_0.16b
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eor Y_1.16b, TMP1.16b, X_1.16b
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eor Y_2.16b, TMP2.16b, X_2.16b
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eor Y_3.16b, TMP3.16b, X_3.16b
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.endm
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/*
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* _speck_unround_128bytes() - Speck decryption round on 128 bytes at a time
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*
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* This is the inverse of _speck_round_128bytes().
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*/
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.macro _speck_unround_128bytes n, lanes
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// y ^= x
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eor TMP0.16b, Y_0.16b, X_0.16b
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eor TMP1.16b, Y_1.16b, X_1.16b
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eor TMP2.16b, Y_2.16b, X_2.16b
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eor TMP3.16b, Y_3.16b, X_3.16b
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// y = ror(y, 3)
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ushr Y_0.\lanes, TMP0.\lanes, #3
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ushr Y_1.\lanes, TMP1.\lanes, #3
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ushr Y_2.\lanes, TMP2.\lanes, #3
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ushr Y_3.\lanes, TMP3.\lanes, #3
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sli Y_0.\lanes, TMP0.\lanes, #(\n - 3)
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sli Y_1.\lanes, TMP1.\lanes, #(\n - 3)
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sli Y_2.\lanes, TMP2.\lanes, #(\n - 3)
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sli Y_3.\lanes, TMP3.\lanes, #(\n - 3)
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// x ^= k
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eor X_0.16b, X_0.16b, ROUND_KEY.16b
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eor X_1.16b, X_1.16b, ROUND_KEY.16b
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eor X_2.16b, X_2.16b, ROUND_KEY.16b
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eor X_3.16b, X_3.16b, ROUND_KEY.16b
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// x -= y
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sub X_0.\lanes, X_0.\lanes, Y_0.\lanes
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sub X_1.\lanes, X_1.\lanes, Y_1.\lanes
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sub X_2.\lanes, X_2.\lanes, Y_2.\lanes
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sub X_3.\lanes, X_3.\lanes, Y_3.\lanes
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// x = rol(x, 8)
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tbl X_0.16b, {X_0.16b}, ROTATE_TABLE.16b
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tbl X_1.16b, {X_1.16b}, ROTATE_TABLE.16b
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tbl X_2.16b, {X_2.16b}, ROTATE_TABLE.16b
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tbl X_3.16b, {X_3.16b}, ROTATE_TABLE.16b
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.endm
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.macro _next_xts_tweak next, cur, tmp, n
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.if \n == 64
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/*
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* Calculate the next tweak by multiplying the current one by x,
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* modulo p(x) = x^128 + x^7 + x^2 + x + 1.
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*/
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sshr \tmp\().2d, \cur\().2d, #63
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and \tmp\().16b, \tmp\().16b, GFMUL_TABLE.16b
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shl \next\().2d, \cur\().2d, #1
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ext \tmp\().16b, \tmp\().16b, \tmp\().16b, #8
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eor \next\().16b, \next\().16b, \tmp\().16b
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.else
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/*
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* Calculate the next two tweaks by multiplying the current ones by x^2,
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* modulo p(x) = x^64 + x^4 + x^3 + x + 1.
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*/
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ushr \tmp\().2d, \cur\().2d, #62
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shl \next\().2d, \cur\().2d, #2
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tbl \tmp\().16b, {GFMUL_TABLE.16b}, \tmp\().16b
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eor \next\().16b, \next\().16b, \tmp\().16b
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.endif
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.endm
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/*
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* _speck_xts_crypt() - Speck-XTS encryption/decryption
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*
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* Encrypt or decrypt NBYTES bytes of data from the SRC buffer to the DST buffer
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* using Speck-XTS, specifically the variant with a block size of '2n' and round
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* count given by NROUNDS. The expanded round keys are given in ROUND_KEYS, and
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* the current XTS tweak value is given in TWEAK. It's assumed that NBYTES is a
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* nonzero multiple of 128.
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*/
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.macro _speck_xts_crypt n, lanes, decrypting
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/*
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* If decrypting, modify the ROUND_KEYS parameter to point to the last
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* round key rather than the first, since for decryption the round keys
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* are used in reverse order.
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*/
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.if \decrypting
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mov NROUNDS, NROUNDS /* zero the high 32 bits */
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.if \n == 64
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add ROUND_KEYS, ROUND_KEYS, NROUNDS_X, lsl #3
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sub ROUND_KEYS, ROUND_KEYS, #8
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.else
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add ROUND_KEYS, ROUND_KEYS, NROUNDS_X, lsl #2
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sub ROUND_KEYS, ROUND_KEYS, #4
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.endif
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.endif
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// Load the index vector for tbl-based 8-bit rotates
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.if \decrypting
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ldr ROTATE_TABLE_Q, .Lrol\n\()_8_table
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.else
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ldr ROTATE_TABLE_Q, .Lror\n\()_8_table
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.endif
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// One-time XTS preparation
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.if \n == 64
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// Load first tweak
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ld1 {TWEAKV0.16b}, [TWEAK]
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// Load GF(2^128) multiplication table
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ldr GFMUL_TABLE_Q, .Lgf128mul_table
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.else
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// Load first tweak
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ld1 {TWEAKV0.8b}, [TWEAK]
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// Load GF(2^64) multiplication table
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ldr GFMUL_TABLE_Q, .Lgf64mul_table
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// Calculate second tweak, packing it together with the first
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ushr TMP0.2d, TWEAKV0.2d, #63
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shl TMP1.2d, TWEAKV0.2d, #1
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tbl TMP0.8b, {GFMUL_TABLE.16b}, TMP0.8b
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eor TMP0.8b, TMP0.8b, TMP1.8b
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mov TWEAKV0.d[1], TMP0.d[0]
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.endif
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.Lnext_128bytes_\@:
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// Calculate XTS tweaks for next 128 bytes
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_next_xts_tweak TWEAKV1, TWEAKV0, TMP0, \n
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_next_xts_tweak TWEAKV2, TWEAKV1, TMP0, \n
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_next_xts_tweak TWEAKV3, TWEAKV2, TMP0, \n
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_next_xts_tweak TWEAKV4, TWEAKV3, TMP0, \n
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_next_xts_tweak TWEAKV5, TWEAKV4, TMP0, \n
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_next_xts_tweak TWEAKV6, TWEAKV5, TMP0, \n
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_next_xts_tweak TWEAKV7, TWEAKV6, TMP0, \n
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_next_xts_tweak TWEAKV_NEXT, TWEAKV7, TMP0, \n
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// Load the next source blocks into {X,Y}[0-3]
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ld1 {X_0.16b-Y_1.16b}, [SRC], #64
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ld1 {X_2.16b-Y_3.16b}, [SRC], #64
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// XOR the source blocks with their XTS tweaks
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eor TMP0.16b, X_0.16b, TWEAKV0.16b
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eor Y_0.16b, Y_0.16b, TWEAKV1.16b
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eor TMP1.16b, X_1.16b, TWEAKV2.16b
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eor Y_1.16b, Y_1.16b, TWEAKV3.16b
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eor TMP2.16b, X_2.16b, TWEAKV4.16b
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eor Y_2.16b, Y_2.16b, TWEAKV5.16b
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eor TMP3.16b, X_3.16b, TWEAKV6.16b
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eor Y_3.16b, Y_3.16b, TWEAKV7.16b
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/*
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* De-interleave the 'x' and 'y' elements of each block, i.e. make it so
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* that the X[0-3] registers contain only the second halves of blocks,
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* and the Y[0-3] registers contain only the first halves of blocks.
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* (Speck uses the order (y, x) rather than the more intuitive (x, y).)
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*/
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uzp2 X_0.\lanes, TMP0.\lanes, Y_0.\lanes
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uzp1 Y_0.\lanes, TMP0.\lanes, Y_0.\lanes
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uzp2 X_1.\lanes, TMP1.\lanes, Y_1.\lanes
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uzp1 Y_1.\lanes, TMP1.\lanes, Y_1.\lanes
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uzp2 X_2.\lanes, TMP2.\lanes, Y_2.\lanes
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uzp1 Y_2.\lanes, TMP2.\lanes, Y_2.\lanes
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uzp2 X_3.\lanes, TMP3.\lanes, Y_3.\lanes
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uzp1 Y_3.\lanes, TMP3.\lanes, Y_3.\lanes
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// Do the cipher rounds
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mov x6, ROUND_KEYS
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mov w7, NROUNDS
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.Lnext_round_\@:
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.if \decrypting
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ld1r {ROUND_KEY.\lanes}, [x6]
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sub x6, x6, #( \n / 8 )
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_speck_unround_128bytes \n, \lanes
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.else
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ld1r {ROUND_KEY.\lanes}, [x6], #( \n / 8 )
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_speck_round_128bytes \n, \lanes
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.endif
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subs w7, w7, #1
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bne .Lnext_round_\@
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// Re-interleave the 'x' and 'y' elements of each block
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zip1 TMP0.\lanes, Y_0.\lanes, X_0.\lanes
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zip2 Y_0.\lanes, Y_0.\lanes, X_0.\lanes
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zip1 TMP1.\lanes, Y_1.\lanes, X_1.\lanes
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zip2 Y_1.\lanes, Y_1.\lanes, X_1.\lanes
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zip1 TMP2.\lanes, Y_2.\lanes, X_2.\lanes
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zip2 Y_2.\lanes, Y_2.\lanes, X_2.\lanes
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zip1 TMP3.\lanes, Y_3.\lanes, X_3.\lanes
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zip2 Y_3.\lanes, Y_3.\lanes, X_3.\lanes
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// XOR the encrypted/decrypted blocks with the tweaks calculated earlier
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eor X_0.16b, TMP0.16b, TWEAKV0.16b
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eor Y_0.16b, Y_0.16b, TWEAKV1.16b
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eor X_1.16b, TMP1.16b, TWEAKV2.16b
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eor Y_1.16b, Y_1.16b, TWEAKV3.16b
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eor X_2.16b, TMP2.16b, TWEAKV4.16b
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eor Y_2.16b, Y_2.16b, TWEAKV5.16b
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eor X_3.16b, TMP3.16b, TWEAKV6.16b
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eor Y_3.16b, Y_3.16b, TWEAKV7.16b
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mov TWEAKV0.16b, TWEAKV_NEXT.16b
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// Store the ciphertext in the destination buffer
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st1 {X_0.16b-Y_1.16b}, [DST], #64
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st1 {X_2.16b-Y_3.16b}, [DST], #64
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// Continue if there are more 128-byte chunks remaining
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subs NBYTES, NBYTES, #128
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bne .Lnext_128bytes_\@
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// Store the next tweak and return
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.if \n == 64
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st1 {TWEAKV_NEXT.16b}, [TWEAK]
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.else
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st1 {TWEAKV_NEXT.8b}, [TWEAK]
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.endif
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ret
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.endm
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ENTRY(speck128_xts_encrypt_neon)
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_speck_xts_crypt n=64, lanes=2d, decrypting=0
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ENDPROC(speck128_xts_encrypt_neon)
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ENTRY(speck128_xts_decrypt_neon)
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_speck_xts_crypt n=64, lanes=2d, decrypting=1
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ENDPROC(speck128_xts_decrypt_neon)
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ENTRY(speck64_xts_encrypt_neon)
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_speck_xts_crypt n=32, lanes=4s, decrypting=0
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ENDPROC(speck64_xts_encrypt_neon)
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|
||
|
ENTRY(speck64_xts_decrypt_neon)
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||
|
_speck_xts_crypt n=32, lanes=4s, decrypting=1
|
||
|
ENDPROC(speck64_xts_decrypt_neon)
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