ObjFW  Artifact [ec228bf0de]

Artifact ec228bf0dec303ee7a5b25104b24c33dcf33b953b07f70768af00eadec6dcf65:


/*
 * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017,
 *               2018, 2019
 *   Jonathan Schleifer <js@heap.zone>
 *
 * All rights reserved.
 *
 * This file is part of ObjFW. It may be distributed under the terms of the
 * Q Public License 1.0, which can be found in the file LICENSE.QPL included in
 * the packaging of this file.
 *
 * Alternatively, it may be distributed under the terms of the GNU General
 * Public License, either version 2 or 3, which can be found in the file
 * LICENSE.GPLv2 or LICENSE.GPLv3 respectively included in the packaging of this
 * file.
 */

#include "config.h"

#import "OFHMAC.h"
#import "OFSHA256Hash.h"

#import "OFInvalidArgumentException.h"
#import "OFOutOfMemoryException.h"
#import "OFOutOfRangeException.h"

#import "scrypt.h"
#import "pbkdf2.h"

void
of_salsa20_8_core(uint32_t buffer[16])
{
	uint32_t tmp[16];

	for (uint_fast8_t i = 0; i < 16; i++)
		tmp[i] = OF_BSWAP32_IF_BE(buffer[i]);

	for (uint_fast8_t i = 0; i < 8; i += 2) {
		tmp[ 4] ^= OF_ROL(tmp[ 0] + tmp[12],  7);
		tmp[ 8] ^= OF_ROL(tmp[ 4] + tmp[ 0],  9);
		tmp[12] ^= OF_ROL(tmp[ 8] + tmp[ 4], 13);
		tmp[ 0] ^= OF_ROL(tmp[12] + tmp[ 8], 18);
		tmp[ 9] ^= OF_ROL(tmp[ 5] + tmp[ 1],  7);
		tmp[13] ^= OF_ROL(tmp[ 9] + tmp[ 5],  9);
		tmp[ 1] ^= OF_ROL(tmp[13] + tmp[ 9], 13);
		tmp[ 5] ^= OF_ROL(tmp[ 1] + tmp[13], 18);
		tmp[14] ^= OF_ROL(tmp[10] + tmp[ 6],  7);
		tmp[ 2] ^= OF_ROL(tmp[14] + tmp[10],  9);
		tmp[ 6] ^= OF_ROL(tmp[ 2] + tmp[14], 13);
		tmp[10] ^= OF_ROL(tmp[ 6] + tmp[ 2], 18);
		tmp[ 3] ^= OF_ROL(tmp[15] + tmp[11],  7);
		tmp[ 7] ^= OF_ROL(tmp[ 3] + tmp[15],  9);
		tmp[11] ^= OF_ROL(tmp[ 7] + tmp[ 3], 13);
		tmp[15] ^= OF_ROL(tmp[11] + tmp[ 7], 18);
		tmp[ 1] ^= OF_ROL(tmp[ 0] + tmp[ 3],  7);
		tmp[ 2] ^= OF_ROL(tmp[ 1] + tmp[ 0],  9);
		tmp[ 3] ^= OF_ROL(tmp[ 2] + tmp[ 1], 13);
		tmp[ 0] ^= OF_ROL(tmp[ 3] + tmp[ 2], 18);
		tmp[ 6] ^= OF_ROL(tmp[ 5] + tmp[ 4],  7);
		tmp[ 7] ^= OF_ROL(tmp[ 6] + tmp[ 5],  9);
		tmp[ 4] ^= OF_ROL(tmp[ 7] + tmp[ 6], 13);
		tmp[ 5] ^= OF_ROL(tmp[ 4] + tmp[ 7], 18);
		tmp[11] ^= OF_ROL(tmp[10] + tmp[ 9],  7);
		tmp[ 8] ^= OF_ROL(tmp[11] + tmp[10],  9);
		tmp[ 9] ^= OF_ROL(tmp[ 8] + tmp[11], 13);
		tmp[10] ^= OF_ROL(tmp[ 9] + tmp[ 8], 18);
		tmp[12] ^= OF_ROL(tmp[15] + tmp[14],  7);
		tmp[13] ^= OF_ROL(tmp[12] + tmp[15],  9);
		tmp[14] ^= OF_ROL(tmp[13] + tmp[12], 13);
		tmp[15] ^= OF_ROL(tmp[14] + tmp[13], 18);
	}

	for (uint_fast8_t i = 0; i < 16; i++)
		buffer[i] = OF_BSWAP32_IF_BE(OF_BSWAP32_IF_BE(buffer[i]) +
		    tmp[i]);

	of_explicit_memset(tmp, 0, sizeof(tmp));
}

void
of_scrypt_block_mix(uint32_t *output, const uint32_t *input, size_t blockSize)
{
	uint32_t tmp[16];

	/* Check defined here and executed in of_scrypt() */
#define OVERFLOW_CHECK_1					\
	if (blockSize > SIZE_MAX / 2 ||				\
	    2 * blockSize - 1 > SIZE_MAX / 16)			\
		@throw [OFOutOfRangeException exception];

	memcpy(tmp, input + (2 * blockSize - 1) * 16, 64);

	for (size_t i = 0; i < 2 * blockSize; i++) {
		for (size_t j = 0; j < 16; j++)
			tmp[j] ^= input[i * 16 + j];

		of_salsa20_8_core(tmp);

		/*
		 * Even indices are stored in the first half and odd ones in
		 * the second.
		 */
		memcpy(output + ((i / 2) + (i & 1) * blockSize) * 16, tmp, 64);
	}

	of_explicit_memset(tmp, 0, sizeof(tmp));
}

void
of_scrypt_romix(uint32_t *buffer, size_t blockSize, size_t costFactor,
    uint32_t *tmp)
{
	/* Check defined here and executed in of_scrypt() */
#define OVERFLOW_CHECK_2					\
	if (blockSize > SIZE_MAX / 128 / costFactor)		\
		@throw [OFOutOfRangeException exception];

	uint32_t *tmp2 = tmp + 32 * blockSize;

	memcpy(tmp, buffer, 128 * blockSize);

	for (size_t i = 0; i < costFactor; i++) {
		memcpy(tmp2 + i * 32 * blockSize, tmp, 128 * blockSize);
		of_scrypt_block_mix(tmp, tmp2 + i * 32 * blockSize, blockSize);
	}

	for (size_t i = 0; i < costFactor; i++) {
		uint32_t j = OF_BSWAP32_IF_BE(tmp[(2 * blockSize - 1) * 16]) &
		    (costFactor - 1);

		for (size_t k = 0; k < 32 * blockSize; k++)
			tmp[k] ^= tmp2[j * 32 * blockSize + k];

		of_scrypt_block_mix(buffer, tmp, blockSize);

		if (i < costFactor - 1)
			memcpy(tmp, buffer, 128 * blockSize);
	}
}

void of_scrypt(size_t blockSize, size_t costFactor,
    size_t parallelization, const unsigned char *salt, size_t saltLength,
    const char *password, size_t passwordLength,
    unsigned char *key, size_t keyLength)
{
	uint32_t *tmp = NULL, *buffer = NULL;
	OFHMAC *HMAC = nil;

	if (blockSize == 0 || costFactor <= 1 ||
	    (costFactor & (costFactor - 1)) != 0 || parallelization == 0)
		@throw [OFInvalidArgumentException exception];

	/*
	 * These are defined by the functions above. They are defined there so
	 * that the check is next to the code and easy to verify, but actually
	 * checked here for performance.
	 */
	OVERFLOW_CHECK_1
	OVERFLOW_CHECK_2

	@try {
		if (costFactor > SIZE_MAX - 1 ||
		    (costFactor + 1) > SIZE_MAX / 128 ||
		    (costFactor + 1) * 128 > SIZE_MAX / blockSize)
			@throw [OFOutOfRangeException exception];

		if ((tmp = malloc((costFactor + 1) * 128 * blockSize)) == NULL)
			@throw [OFOutOfMemoryException
			    exceptionWithRequestedSize: (blockSize +
							costFactor) * 128];

		if (parallelization > SIZE_MAX / 128 ||
		    parallelization * 128 > SIZE_MAX / blockSize)
			@throw [OFOutOfRangeException exception];

		if ((buffer = malloc(parallelization * 128 *
		    blockSize)) == NULL)
			@throw [OFOutOfMemoryException
			    exceptionWithRequestedSize: parallelization * 128 *
							blockSize];

		HMAC = [[OFHMAC alloc] initWithHashClass: [OFSHA256Hash class]];

		of_pbkdf2(HMAC, 1, salt, saltLength, password, passwordLength,
		    (unsigned char *)buffer, parallelization * 128 * blockSize);

		for (size_t i = 0; i < parallelization; i++)
			of_scrypt_romix(buffer + i * 32 * blockSize, blockSize,
			    costFactor, tmp);

		of_pbkdf2(HMAC, 1, (unsigned char *)buffer, parallelization *
		    128 * blockSize, password, passwordLength, key, keyLength);
	} @finally {
		of_explicit_memset(tmp, 0, (costFactor + 1) * blockSize * 128);
		free(tmp);

		of_explicit_memset(buffer, 0,
		    parallelization * 128 * blockSize);
		free(buffer);

		[HMAC release];
	}
}