mirror of
https://github.com/DarkMatterCore/nxdumptool.git
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c1e3dc719f
* Made ncaGenerateEncryptedFsSectionBlock() entirely private. There's no point in keeping it public. * Moved NCA FS section context initialization into its own function, ncaInitializeFsSectionContext(). * Hash data boundaries are now checked while initializing each NCA FS section context, using ncaFsSectionValidateHashDataBoundaries(). Both ncaValidateHierarchicalSha256Offsets() and ncaValidateHierarchicalIntegrityOffsets() have been removed. * Improved hash region access detection in _ncaReadFsSection() by implementing ncaFsSectionCheckHashRegionAccess(). * ncaGetFsSectionHashTargetProperties() is now used in pfs.c, romfs.c and bktr.c to retrieve the properties from the target hash layer. * Updated sanity checks in pfsInitializeContext(), romfsInitializeContext() and bktrInitializeContext().
264 lines
7.2 KiB
C
264 lines
7.2 KiB
C
/*
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* sha3.c
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*
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* Copyright (c) Atmosphère-NX
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* Copyright (c) 2022, DarkMatterCore <pabloacurielz@gmail.com>.
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*
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* This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool).
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* Loosely based on crypto_sha3_impl.cpp from Atmosphere-libs.
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*
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* nxdumptool 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 3 of the License, or
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* (at your option) any later version.
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*
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* nxdumptool is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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#include "nxdt_utils.h"
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#include "sha3.h"
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#define SHA3_NUM_ROUNDS 24
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#define _SHA3_CTX_OPS(bits) \
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void sha3##bits##ContextCreate(Sha3Context *out) { \
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sha3ContextCreate(out, bits); \
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} \
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void sha3##bits##CalculateHash(void *dst, const void *src, size_t size) { \
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Sha3Context ctx; \
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sha3##bits##ContextCreate(&ctx); \
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sha3ContextUpdate(&ctx, src, size); \
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sha3ContextGetHash(&ctx, dst); \
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}
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/* Global constants. */
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static const u64 g_iotaRoundConstant[SHA3_NUM_ROUNDS] = {
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0x0000000000000001, 0x0000000000008082,
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0x800000000000808A, 0x8000000080008000,
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0x000000000000808B, 0x0000000080000001,
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0x8000000080008081, 0x8000000000008009,
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0x000000000000008A, 0x0000000000000088,
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0x0000000080008009, 0x000000008000000A,
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0x000000008000808B, 0x800000000000008B,
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0x8000000000008089, 0x8000000000008003,
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0x8000000000008002, 0x8000000000000080,
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0x000000000000800A, 0x800000008000000A,
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0x8000000080008081, 0x8000000000008080,
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0x0000000080000001, 0x8000000080008008
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};
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static const int g_rhoShiftBit[SHA3_NUM_ROUNDS] = {
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1, 3, 6, 10, 15, 21, 28, 36,
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45, 55, 2, 14, 27, 41, 56, 8,
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25, 43, 62, 18, 39, 61, 20, 44
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};
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static const int g_rhoNextIndex[SHA3_NUM_ROUNDS] = {
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10, 7, 11, 17, 18, 3, 5, 16,
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8, 21, 24, 4, 15, 23, 19, 13,
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12, 2, 20, 14, 22, 9, 6, 1
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};
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static const u64 g_finalMask = 0x8000000000000000;
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/* Function prototypes. */
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static u64 rotl_u64(u64 x, int s);
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static u64 rotr_u64(u64 x, int s);
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static void sha3ContextCreate(Sha3Context *out, u32 hash_size);
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static void sha3ProcessBlock(Sha3Context *ctx);
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static void sha3ProcessLastBlock(Sha3Context *ctx);
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void sha3ContextUpdate(Sha3Context *ctx, const void *src, size_t size)
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{
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if (!ctx || !src || !size || ctx->finalized)
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{
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LOG_MSG("Invalid parameters!");
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return;
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}
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const u8 *src_u8 = (u8*)src;
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size_t remaining = size;
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/* Process we have anything buffered. */
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if (ctx->buffered_bytes > 0)
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{
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/* Determine how much we can copy. */
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const size_t copy_size = MIN(ctx->block_size - ctx->buffered_bytes, remaining);
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/* Mix the bytes into our state. */
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u8 *dst = (((u8*)ctx->internal_state) + ctx->buffered_bytes);
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for(size_t i = 0; i < copy_size; ++i) dst[i] ^= src_u8[i];
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/* Advance. */
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src_u8 += copy_size;
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remaining -= copy_size;
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ctx->buffered_bytes += copy_size;
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/* Process a block, if we filled one. */
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if (ctx->buffered_bytes == ctx->block_size)
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{
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sha3ProcessBlock(ctx);
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ctx->buffered_bytes = 0;
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}
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}
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/* Process blocks, if we have any. */
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while(remaining >= ctx->block_size)
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{
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/* Mix the bytes into our state. */
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u8 *dst = (u8*)ctx->internal_state;
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for(size_t i = 0; i < ctx->block_size; ++i) dst[i] ^= src_u8[i];
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sha3ProcessBlock(ctx);
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src_u8 += ctx->block_size;
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remaining -= ctx->block_size;
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}
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/* Copy any leftover data to our buffer. */
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if (remaining > 0)
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{
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u8 *dst = (u8*)ctx->internal_state;
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for(size_t i = 0; i < remaining; ++i) dst[i] ^= src_u8[i];
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ctx->buffered_bytes = remaining;
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}
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}
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void sha3ContextGetHash(Sha3Context *ctx, void *dst)
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{
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if (!ctx || !dst)
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{
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LOG_MSG("Invalid parameters!");
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return;
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}
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/* If we need to, process the last block. */
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if (!ctx->finalized)
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{
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sha3ProcessLastBlock(ctx);
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ctx->finalized = true;
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}
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/* Copy the output hash. */
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memcpy(dst, ctx->internal_state, ctx->hash_size);
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}
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/* Functions for SHA3 context creation and simple all-in-one calculation. */
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_SHA3_CTX_OPS(224);
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_SHA3_CTX_OPS(256);
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_SHA3_CTX_OPS(384);
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_SHA3_CTX_OPS(512);
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#undef _SHA3_CTX_OPS
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static u64 rotl_u64(u64 x, int s)
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{
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int N = (sizeof(u64) * 8);
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int r = (s % N);
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if (r == 0)
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{
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return x;
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} else
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if (r > 0)
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{
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return ((x << r) | (x >> (N - r)));
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}
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return rotr_u64(x, -r);
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}
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static u64 rotr_u64(u64 x, int s)
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{
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int N = (sizeof(u64) * 8);
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int r = (s % N);
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if (r == 0)
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{
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return x;
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} else
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if (r > 0)
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{
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return ((x >> r) | (x << (N - r)));
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}
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return rotl_u64(x, -r);
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}
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static void sha3ContextCreate(Sha3Context *out, u32 hash_size)
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{
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if (!out)
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{
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LOG_MSG("Invalid parameters!");
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return;
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}
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memset(out, 0, sizeof(Sha3Context));
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out->hash_size = SHA3_HASH_SIZE_BYTES(hash_size);
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out->block_size = SHA3_BLOCK_SIZE(hash_size);
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}
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static void sha3ProcessBlock(Sha3Context *ctx)
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{
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u64 tmp = 0, C[5] = {0};
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/* Perform all rounds. */
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for(u8 round = 0; round < SHA3_NUM_ROUNDS; ++round)
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{
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/* Handle theta. */
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for(size_t i = 0; i < 5; ++i)
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{
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C[i] = (ctx->internal_state[i] ^ ctx->internal_state[i + 5] ^ ctx->internal_state[i + 10] ^ ctx->internal_state[i + 15] ^ ctx->internal_state[i + 20]);
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}
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for(size_t i = 0; i < 5; ++i)
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{
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tmp = (C[(i + 4) % 5] ^ rotl_u64(C[(i + 1) % 5], 1));
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for(size_t j = 0; j < 5; ++j) ctx->internal_state[(5 * j) + i] ^= tmp;
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}
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/* Handle rho/pi. */
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tmp = ctx->internal_state[1];
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for(size_t i = 0; i < SHA3_NUM_ROUNDS; ++i)
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{
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const int rho_next_idx = g_rhoNextIndex[i];
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C[0] = ctx->internal_state[rho_next_idx];
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ctx->internal_state[rho_next_idx] = rotl_u64(tmp, g_rhoShiftBit[i]);
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tmp = C[0];
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}
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/* Handle chi. */
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for(size_t i = 0; i < 5; ++i)
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{
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for(size_t j = 0; j < 5; ++j) C[j] = ctx->internal_state[(5 * i) + j];
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for(size_t j = 0; j < 5; ++j) ctx->internal_state[(5 * i) + j] ^= ((~C[(j + 1) % 5]) & C[(j + 2) % 5]);
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}
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/* Handle iota. */
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ctx->internal_state[0] ^= g_iotaRoundConstant[round];
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}
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}
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static void sha3ProcessLastBlock(Sha3Context *ctx)
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{
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/* Mix final bits (011) into our state. */
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((u8*)ctx->internal_state)[ctx->buffered_bytes] ^= 0b110;
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/* Mix in the high bit of the last word in our block. */
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ctx->internal_state[(ctx->block_size / sizeof(u64)) - 1] ^= g_finalMask;
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/* Process the last block. */
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sha3ProcessBlock(ctx);
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}
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