forked from luck/tmp_suning_uos_patched
bbd61fa05c
[ Upstream commit 8d195e7a8ada68928f2aedb2c18302a4518fe68e ]
gcc-11 points out a mismatch between the declaration and the definition
of poly1305_core_setkey():
lib/crypto/poly1305-donna32.c:13:67: error: argument 2 of type ‘const u8[16]’ {aka ‘const unsigned char[16]’} with mismatched bound [-Werror=array-parameter=]
13 | void poly1305_core_setkey(struct poly1305_core_key *key, const u8 raw_key[16])
| ~~~~~~~~~^~~~~~~~~~~
In file included from lib/crypto/poly1305-donna32.c:11:
include/crypto/internal/poly1305.h:21:68: note: previously declared as ‘const u8 *’ {aka ‘const unsigned char *’}
21 | void poly1305_core_setkey(struct poly1305_core_key *key, const u8 *raw_key);
This is harmless in principle, as the calling conventions are the same,
but the more specific prototype allows better type checking in the
caller.
Change the declaration to match the actual function definition.
The poly1305_simd_init() is a bit suspicious here, as it previously
had a 32-byte argument type, but looks like it needs to take the
16-byte POLY1305_BLOCK_SIZE array instead.
Fixes: 1c08a10436
("crypto: poly1305 - add new 32 and 64-bit generic versions")
Signed-off-by: Arnd Bergmann <arnd@arndb.de>
Reviewed-by: Ard Biesheuvel <ardb@kernel.org>
Reviewed-by: Eric Biggers <ebiggers@google.com>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
Signed-off-by: Sasha Levin <sashal@kernel.org>
206 lines
4.7 KiB
C
206 lines
4.7 KiB
C
// SPDX-License-Identifier: GPL-2.0 OR MIT
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/*
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* Copyright (C) 2015-2019 Jason A. Donenfeld <Jason@zx2c4.com>. All Rights Reserved.
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*
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* This is based in part on Andrew Moon's poly1305-donna, which is in the
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* public domain.
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*/
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#include <linux/kernel.h>
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#include <asm/unaligned.h>
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#include <crypto/internal/poly1305.h>
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void poly1305_core_setkey(struct poly1305_core_key *key,
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const u8 raw_key[POLY1305_BLOCK_SIZE])
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{
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/* r &= 0xffffffc0ffffffc0ffffffc0fffffff */
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key->key.r[0] = (get_unaligned_le32(&raw_key[0])) & 0x3ffffff;
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key->key.r[1] = (get_unaligned_le32(&raw_key[3]) >> 2) & 0x3ffff03;
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key->key.r[2] = (get_unaligned_le32(&raw_key[6]) >> 4) & 0x3ffc0ff;
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key->key.r[3] = (get_unaligned_le32(&raw_key[9]) >> 6) & 0x3f03fff;
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key->key.r[4] = (get_unaligned_le32(&raw_key[12]) >> 8) & 0x00fffff;
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/* s = 5*r */
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key->precomputed_s.r[0] = key->key.r[1] * 5;
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key->precomputed_s.r[1] = key->key.r[2] * 5;
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key->precomputed_s.r[2] = key->key.r[3] * 5;
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key->precomputed_s.r[3] = key->key.r[4] * 5;
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}
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EXPORT_SYMBOL(poly1305_core_setkey);
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void poly1305_core_blocks(struct poly1305_state *state,
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const struct poly1305_core_key *key, const void *src,
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unsigned int nblocks, u32 hibit)
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{
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const u8 *input = src;
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u32 r0, r1, r2, r3, r4;
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u32 s1, s2, s3, s4;
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u32 h0, h1, h2, h3, h4;
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u64 d0, d1, d2, d3, d4;
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u32 c;
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if (!nblocks)
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return;
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hibit <<= 24;
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r0 = key->key.r[0];
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r1 = key->key.r[1];
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r2 = key->key.r[2];
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r3 = key->key.r[3];
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r4 = key->key.r[4];
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s1 = key->precomputed_s.r[0];
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s2 = key->precomputed_s.r[1];
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s3 = key->precomputed_s.r[2];
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s4 = key->precomputed_s.r[3];
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h0 = state->h[0];
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h1 = state->h[1];
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h2 = state->h[2];
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h3 = state->h[3];
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h4 = state->h[4];
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do {
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/* h += m[i] */
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h0 += (get_unaligned_le32(&input[0])) & 0x3ffffff;
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h1 += (get_unaligned_le32(&input[3]) >> 2) & 0x3ffffff;
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h2 += (get_unaligned_le32(&input[6]) >> 4) & 0x3ffffff;
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h3 += (get_unaligned_le32(&input[9]) >> 6) & 0x3ffffff;
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h4 += (get_unaligned_le32(&input[12]) >> 8) | hibit;
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/* h *= r */
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d0 = ((u64)h0 * r0) + ((u64)h1 * s4) +
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((u64)h2 * s3) + ((u64)h3 * s2) +
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((u64)h4 * s1);
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d1 = ((u64)h0 * r1) + ((u64)h1 * r0) +
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((u64)h2 * s4) + ((u64)h3 * s3) +
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((u64)h4 * s2);
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d2 = ((u64)h0 * r2) + ((u64)h1 * r1) +
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((u64)h2 * r0) + ((u64)h3 * s4) +
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((u64)h4 * s3);
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d3 = ((u64)h0 * r3) + ((u64)h1 * r2) +
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((u64)h2 * r1) + ((u64)h3 * r0) +
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((u64)h4 * s4);
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d4 = ((u64)h0 * r4) + ((u64)h1 * r3) +
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((u64)h2 * r2) + ((u64)h3 * r1) +
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((u64)h4 * r0);
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/* (partial) h %= p */
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c = (u32)(d0 >> 26);
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h0 = (u32)d0 & 0x3ffffff;
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d1 += c;
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c = (u32)(d1 >> 26);
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h1 = (u32)d1 & 0x3ffffff;
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d2 += c;
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c = (u32)(d2 >> 26);
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h2 = (u32)d2 & 0x3ffffff;
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d3 += c;
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c = (u32)(d3 >> 26);
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h3 = (u32)d3 & 0x3ffffff;
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d4 += c;
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c = (u32)(d4 >> 26);
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h4 = (u32)d4 & 0x3ffffff;
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h0 += c * 5;
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c = (h0 >> 26);
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h0 = h0 & 0x3ffffff;
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h1 += c;
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input += POLY1305_BLOCK_SIZE;
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} while (--nblocks);
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state->h[0] = h0;
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state->h[1] = h1;
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state->h[2] = h2;
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state->h[3] = h3;
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state->h[4] = h4;
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}
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EXPORT_SYMBOL(poly1305_core_blocks);
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void poly1305_core_emit(const struct poly1305_state *state, const u32 nonce[4],
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void *dst)
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{
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u8 *mac = dst;
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u32 h0, h1, h2, h3, h4, c;
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u32 g0, g1, g2, g3, g4;
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u64 f;
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u32 mask;
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/* fully carry h */
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h0 = state->h[0];
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h1 = state->h[1];
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h2 = state->h[2];
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h3 = state->h[3];
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h4 = state->h[4];
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c = h1 >> 26;
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h1 = h1 & 0x3ffffff;
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h2 += c;
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c = h2 >> 26;
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h2 = h2 & 0x3ffffff;
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h3 += c;
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c = h3 >> 26;
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h3 = h3 & 0x3ffffff;
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h4 += c;
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c = h4 >> 26;
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h4 = h4 & 0x3ffffff;
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h0 += c * 5;
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c = h0 >> 26;
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h0 = h0 & 0x3ffffff;
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h1 += c;
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/* compute h + -p */
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g0 = h0 + 5;
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c = g0 >> 26;
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g0 &= 0x3ffffff;
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g1 = h1 + c;
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c = g1 >> 26;
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g1 &= 0x3ffffff;
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g2 = h2 + c;
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c = g2 >> 26;
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g2 &= 0x3ffffff;
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g3 = h3 + c;
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c = g3 >> 26;
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g3 &= 0x3ffffff;
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g4 = h4 + c - (1UL << 26);
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/* select h if h < p, or h + -p if h >= p */
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mask = (g4 >> ((sizeof(u32) * 8) - 1)) - 1;
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g0 &= mask;
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g1 &= mask;
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g2 &= mask;
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g3 &= mask;
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g4 &= mask;
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mask = ~mask;
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h0 = (h0 & mask) | g0;
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h1 = (h1 & mask) | g1;
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h2 = (h2 & mask) | g2;
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h3 = (h3 & mask) | g3;
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h4 = (h4 & mask) | g4;
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/* h = h % (2^128) */
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h0 = ((h0) | (h1 << 26)) & 0xffffffff;
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h1 = ((h1 >> 6) | (h2 << 20)) & 0xffffffff;
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h2 = ((h2 >> 12) | (h3 << 14)) & 0xffffffff;
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h3 = ((h3 >> 18) | (h4 << 8)) & 0xffffffff;
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if (likely(nonce)) {
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/* mac = (h + nonce) % (2^128) */
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f = (u64)h0 + nonce[0];
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h0 = (u32)f;
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f = (u64)h1 + nonce[1] + (f >> 32);
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h1 = (u32)f;
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f = (u64)h2 + nonce[2] + (f >> 32);
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h2 = (u32)f;
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f = (u64)h3 + nonce[3] + (f >> 32);
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h3 = (u32)f;
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}
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put_unaligned_le32(h0, &mac[0]);
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put_unaligned_le32(h1, &mac[4]);
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put_unaligned_le32(h2, &mac[8]);
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put_unaligned_le32(h3, &mac[12]);
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}
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EXPORT_SYMBOL(poly1305_core_emit);
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