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/**
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 * BLAKE2 reference source code package - reference C implementations
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 *
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 * Written in 2012 by Samuel Neves <[email protected]>
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 *
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 * To the extent possible under law, the author(s) have dedicated all copyright
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 * and related and neighboring rights to this software to the public domain
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 * worldwide. This software is distributed without any warranty.
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 *
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 * You should have received a copy of the CC0 Public Domain Dedication along with
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 * this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.
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 */
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#include <stdint.h>
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#include <string.h>
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#include <stdio.h>
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#include "sha3/sph_types.h"
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#include "crypto/blake2s.h"
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static const uint32_t blake2s_IV[8] =
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{
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	0x6A09E667UL, 0xBB67AE85UL, 0x3C6EF372UL, 0xA54FF53AUL,
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	0x510E527FUL, 0x9B05688CUL, 0x1F83D9ABUL, 0x5BE0CD19UL
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};
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static const uint8_t blake2s_sigma[10][16] =
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{
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	{  0,  1,  2,  3,  4,  5,  6,  7,  8,  9, 10, 11, 12, 13, 14, 15 } ,
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	{ 14, 10,  4,  8,  9, 15, 13,  6,  1, 12,  0,  2, 11,  7,  5,  3 } ,
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	{ 11,  8, 12,  0,  5,  2, 15, 13, 10, 14,  3,  6,  7,  1,  9,  4 } ,
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	{  7,  9,  3,  1, 13, 12, 11, 14,  2,  6,  5, 10,  4,  0, 15,  8 } ,
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	{  9,  0,  5,  7,  2,  4, 10, 15, 14,  1, 11, 12,  6,  8,  3, 13 } ,
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	{  2, 12,  6, 10,  0, 11,  8,  3,  4, 13,  7,  5, 15, 14,  1,  9 } ,
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	{ 12,  5,  1, 15, 14, 13,  4, 10,  0,  7,  6,  3,  9,  2,  8, 11 } ,
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	{ 13, 11,  7, 14, 12,  1,  3,  9,  5,  0, 15,  4,  8,  6,  2, 10 } ,
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	{  6, 15, 14,  9, 11,  3,  0,  8, 12,  2, 13,  7,  1,  4, 10,  5 } ,
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	{ 10,  2,  8,  4,  7,  6,  1,  5, 15, 11,  9, 14,  3, 12, 13 , 0 } ,
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};
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static inline int blake2s_set_lastnode( blake2s_state *S )
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{
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	S->f[1] = ~0U;
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	return 0;
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}
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static inline int blake2s_clear_lastnode( blake2s_state *S )
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{
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	S->f[1] = 0U;
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	return 0;
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}
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/* Some helper functions, not necessarily useful */
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static inline int blake2s_set_lastblock( blake2s_state *S )
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{
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	if( S->last_node ) blake2s_set_lastnode( S );
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	S->f[0] = ~0U;
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	return 0;
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}
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static inline int blake2s_clear_lastblock( blake2s_state *S )
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{
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	if( S->last_node ) blake2s_clear_lastnode( S );
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	S->f[0] = 0U;
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	return 0;
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}
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static inline int blake2s_increment_counter( blake2s_state *S, const uint32_t inc )
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{
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	S->t[0] += inc;
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	S->t[1] += ( S->t[0] < inc );
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	return 0;
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}
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// Parameter-related functions
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static inline int blake2s_param_set_digest_length( blake2s_param *P, const uint8_t digest_length )
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{
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	P->digest_length = digest_length;
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	return 0;
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}
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static inline int blake2s_param_set_fanout( blake2s_param *P, const uint8_t fanout )
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{
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	P->fanout = fanout;
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	return 0;
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}
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static inline int blake2s_param_set_max_depth( blake2s_param *P, const uint8_t depth )
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{
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	P->depth = depth;
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	return 0;
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}
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static inline int blake2s_param_set_leaf_length( blake2s_param *P, const uint32_t leaf_length )
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{
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	store32( &P->leaf_length, leaf_length );
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	return 0;
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}
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static inline int blake2s_param_set_node_offset( blake2s_param *P, const uint64_t node_offset )
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{
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	store48( P->node_offset, node_offset );
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	return 0;
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}
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static inline int blake2s_param_set_node_depth( blake2s_param *P, const uint8_t node_depth )
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{
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	P->node_depth = node_depth;
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	return 0;
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}
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static inline int blake2s_param_set_inner_length( blake2s_param *P, const uint8_t inner_length )
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{
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	P->inner_length = inner_length;
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	return 0;
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}
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static inline int blake2s_param_set_salt( blake2s_param *P, const uint8_t salt[BLAKE2S_SALTBYTES] )
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{
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	memcpy( P->salt, salt, BLAKE2S_SALTBYTES );
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	return 0;
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}
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static inline int blake2s_param_set_personal( blake2s_param *P, const uint8_t personal[BLAKE2S_PERSONALBYTES] )
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{
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	memcpy( P->personal, personal, BLAKE2S_PERSONALBYTES );
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	return 0;
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}
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static inline int blake2s_init0( blake2s_state *S )
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{
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	memset( S, 0, sizeof( blake2s_state ) );
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	for( int i = 0; i < 8; ++i ) S->h[i] = blake2s_IV[i];
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	return 0;
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}
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/* init2 xors IV with input parameter block */
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int blake2s_init_param( blake2s_state *S, const blake2s_param *P )
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{
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	blake2s_init0( S );
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	uint32_t *p = ( uint32_t * )( P );
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	/* IV XOR ParamBlock */
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	for( size_t i = 0; i < 8; ++i )
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		S->h[i] ^= load32( &p[i] );
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	return 0;
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}
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// Sequential blake2s initialization
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int blake2s_init( blake2s_state *S, const uint8_t outlen )
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{
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	blake2s_param P[1];
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	/* Move interval verification here? */
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	if ( ( !outlen ) || ( outlen > BLAKE2S_OUTBYTES ) ) return -1;
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	P->digest_length = outlen;
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	P->key_length    = 0;
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	P->fanout        = 1;
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	P->depth         = 1;
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	store32( &P->leaf_length, 0 );
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	store48( &P->node_offset, 0 );
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	P->node_depth    = 0;
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	P->inner_length  = 0;
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	// memset(P->reserved, 0, sizeof(P->reserved) );
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	memset( P->salt,     0, sizeof( P->salt ) );
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	memset( P->personal, 0, sizeof( P->personal ) );
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	return blake2s_init_param( S, P );
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}
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int blake2s_init_key( blake2s_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )
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{
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	blake2s_param P[1];
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	if ( ( !outlen ) || ( outlen > BLAKE2S_OUTBYTES ) ) return -1;
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	if ( !key || !keylen || keylen > BLAKE2S_KEYBYTES ) return -1;
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	P->digest_length = outlen;
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	P->key_length    = keylen;
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	P->fanout        = 1;
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	P->depth         = 1;
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	store32( &P->leaf_length, 0 );
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	store48( &P->node_offset, 0 );
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	P->node_depth    = 0;
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	P->inner_length  = 0;
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	// memset(P->reserved, 0, sizeof(P->reserved) );
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	memset( P->salt,     0, sizeof( P->salt ) );
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	memset( P->personal, 0, sizeof( P->personal ) );
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	if( blake2s_init_param( S, P ) < 0 ) return -1;
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	{
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		uint8_t block[BLAKE2S_BLOCKBYTES];
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		memset( block, 0, BLAKE2S_BLOCKBYTES );
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		memcpy( block, key, keylen );
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		blake2s_update( S, block, BLAKE2S_BLOCKBYTES );
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		secure_zero_memory( block, BLAKE2S_BLOCKBYTES ); /* Burn the key from stack */
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	}
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	return 0;
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}
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int blake2s_compress( blake2s_state *S, const uint8_t block[BLAKE2S_BLOCKBYTES] )
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{
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	uint32_t m[16];
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	uint32_t v[16];
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	for( size_t i = 0; i < 16; ++i )
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		m[i] = load32( block + i * sizeof( m[i] ) );
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	for( size_t i = 0; i < 8; ++i )
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		v[i] = S->h[i];
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	v[ 8] = blake2s_IV[0];
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	v[ 9] = blake2s_IV[1];
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	v[10] = blake2s_IV[2];
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	v[11] = blake2s_IV[3];
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	v[12] = S->t[0] ^ blake2s_IV[4];
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	v[13] = S->t[1] ^ blake2s_IV[5];
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	v[14] = S->f[0] ^ blake2s_IV[6];
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	v[15] = S->f[1] ^ blake2s_IV[7];
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#define G(r,i,a,b,c,d) \
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	do { \
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		a = a + b + m[blake2s_sigma[r][2*i+0]]; \
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		d = SPH_ROTR32(d ^ a, 16); \
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		c = c + d; \
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		b = SPH_ROTR32(b ^ c, 12); \
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		a = a + b + m[blake2s_sigma[r][2*i+1]]; \
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		d = SPH_ROTR32(d ^ a, 8); \
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		c = c + d; \
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		b = SPH_ROTR32(b ^ c, 7); \
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	} while(0)
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#define ROUND(r)  \
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	do { \
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		G(r,0,v[ 0],v[ 4],v[ 8],v[12]); \
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		G(r,1,v[ 1],v[ 5],v[ 9],v[13]); \
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		G(r,2,v[ 2],v[ 6],v[10],v[14]); \
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		G(r,3,v[ 3],v[ 7],v[11],v[15]); \
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		G(r,4,v[ 0],v[ 5],v[10],v[15]); \
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		G(r,5,v[ 1],v[ 6],v[11],v[12]); \
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		G(r,6,v[ 2],v[ 7],v[ 8],v[13]); \
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		G(r,7,v[ 3],v[ 4],v[ 9],v[14]); \
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	} while(0)
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	ROUND( 0 );
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	ROUND( 1 );
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	ROUND( 2 );
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	ROUND( 3 );
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	ROUND( 4 );
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	ROUND( 5 );
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	ROUND( 6 );
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	ROUND( 7 );
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	ROUND( 8 );
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	ROUND( 9 );
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	for( size_t i = 0; i < 8; ++i )
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		S->h[i] = S->h[i] ^ v[i] ^ v[i + 8];
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#undef G
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#undef ROUND
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	return 0;
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}
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int blake2s_update( blake2s_state *S, const uint8_t *in, uint64_t inlen )
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{
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	while( inlen > 0 )
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	{
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		size_t left = S->buflen;
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		size_t fill = 2 * BLAKE2S_BLOCKBYTES - left;
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		if( inlen > fill )
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		{
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			memcpy( S->buf + left, in, fill ); // Fill buffer
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			S->buflen += fill;
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			blake2s_increment_counter( S, BLAKE2S_BLOCKBYTES );
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			blake2s_compress( S, S->buf ); // Compress
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			memcpy( S->buf, S->buf + BLAKE2S_BLOCKBYTES, BLAKE2S_BLOCKBYTES ); // Shift buffer left
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			S->buflen -= BLAKE2S_BLOCKBYTES;
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			in += fill;
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			inlen -= fill;
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		}
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		else // inlen <= fill
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		{
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			memcpy(S->buf + left, in, (size_t) inlen);
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			S->buflen += (size_t) inlen; // Be lazy, do not compress
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			in += inlen;
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			inlen -= inlen;
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		}
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	}
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	return 0;
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}
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int blake2s_final( blake2s_state *S, uint8_t *out, uint8_t outlen )
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{
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	uint8_t buffer[BLAKE2S_OUTBYTES];
303

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	if( S->buflen > BLAKE2S_BLOCKBYTES )
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	{
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		blake2s_increment_counter( S, BLAKE2S_BLOCKBYTES );
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		blake2s_compress( S, S->buf );
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		S->buflen -= BLAKE2S_BLOCKBYTES;
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		memcpy( S->buf, S->buf + BLAKE2S_BLOCKBYTES, S->buflen );
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	}
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	blake2s_increment_counter( S, ( uint32_t )S->buflen );
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	blake2s_set_lastblock( S );
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	memset( S->buf + S->buflen, 0, 2 * BLAKE2S_BLOCKBYTES - S->buflen ); /* Padding */
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	blake2s_compress( S, S->buf );
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	for( int i = 0; i < 8; ++i ) /* Output full hash to temp buffer */
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		store32( buffer + sizeof( S->h[i] ) * i, S->h[i] );
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	memcpy( out, buffer, outlen );
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	return 0;
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}
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int blake2s( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen )
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{
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	blake2s_state S;
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	/* Verify parameters */
329
	if ( NULL == in ) return -1;
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	if ( NULL == out ) return -1;
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	if ( NULL == key ) keylen = 0; /* Fail here instead if keylen != 0 and key == NULL? */
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	if( keylen > 0 )
336
	{
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		if( blake2s_init_key( &S, outlen, key, keylen ) < 0 ) return -1;
338
	}
339
	else
340
	{
341
		if( blake2s_init( &S, outlen ) < 0 ) return -1;
342
	}
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	blake2s_update( &S, ( uint8_t * )in, inlen );
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	blake2s_final( &S, out, outlen );
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	return 0;
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}
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#if defined(BLAKE2S_SELFTEST)
350
#include <string.h>
351
#include "blake2-kat.h" /* test data not included */
352
int main( int argc, char **argv )
353
{
354
	uint8_t key[BLAKE2S_KEYBYTES];
355
	uint8_t buf[KAT_LENGTH];
356

357
	for( size_t i = 0; i < BLAKE2S_KEYBYTES; ++i )
358
		key[i] = ( uint8_t )i;
359

360
	for( size_t i = 0; i < KAT_LENGTH; ++i )
361
		buf[i] = ( uint8_t )i;
362

363
	for( size_t i = 0; i < KAT_LENGTH; ++i )
364
	{
365
		uint8_t hash[BLAKE2S_OUTBYTES];
366
		blake2s( hash, buf, key, BLAKE2S_OUTBYTES, i, BLAKE2S_KEYBYTES );
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368
		if( 0 != memcmp( hash, blake2s_keyed_kat[i], BLAKE2S_OUTBYTES ) )
369
		{
370
			puts( "error" );
371
			return -1;
372
		}
373
	}
374

375
	puts( "ok" );
376
	return 0;
377
}
378
#endif
379

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