Move some define in sam3x sd implementaion. Define sd speeds macro to clarify the...

[bertos.git] / bertos / algo / randpool.c

/**
 * \file
 * <!--
 * This file is part of BeRTOS.
 *
 * Bertos is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
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 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
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 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 *
 * As a special exception, you may use this file as part of a free software
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 * templates or use macros or inline functions from this file, or you compile
 * this file and link it with other files to produce an executable, this
 * file does not by itself cause the resulting executable to be covered by
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 * Copyright 2007 Develer S.r.l. (http://www.develer.com/)
 *
 * -->
 *
 * \brief API function for to manage entropy pool.
 *
 * \author Daniele Basile <asterix@develer.com>
 */

#include "randpool.h"
#include "md2.h"

#include <cfg/compiler.h>
#include <cfg/debug.h>       //ASSERT()
#include <cfg/macros.h>      //MIN(), ROUND_UP();

#include <stdio.h>           //sprintf();
#include <string.h>          //memset(), memcpy();

#if CONFIG_RANDPOOL_TIMER
        #include <drv/timer.h>       //timer_clock();
#endif



/*
 * Insert bytes in entropy pool, making a XOR of bytes present
 * in entropy pool.
 */
static void randpool_push(EntropyPool *pool, void *_byte, size_t n_byte)
{
        size_t i = pool->pos_add; // Current number of byte insert in entropy pool.
        uint8_t *byte;

        byte = (uint8_t *)_byte;

        /*
         * Insert a bytes in entropy pool.
         */
        for(size_t j = 0; j < n_byte; j++)
        {
                pool->pool_entropy[i] = pool->pool_entropy[i] ^ byte[j];
                i++;
                i = i % CONFIG_SIZE_ENTROPY_POOL;
        }

        pool->pos_add  =  i; // Update a insert bytes.
}


/*
 * This function stir entropy pool with MD2 function hash.
 *
 */
static void randpool_stir(EntropyPool *pool)
{
        size_t entropy = pool->entropy; //Save current calue of entropy.
        Md2Context context;
        uint8_t tmp_buf[((sizeof(size_t) * 2) + sizeof(int)) * 2 + 1]; //Temporary buffer.

        md2_init(&context); //Init MD2 algorithm.

        randpool_add(pool, NULL, 0);

        for (int i = 0; i < (CONFIG_SIZE_ENTROPY_POOL / MD2_DIGEST_LEN); i++)
        {
                sprintf((char *)tmp_buf, "%0x%0x%0x", pool->counter, i, pool->pos_add);

                /*
                 * Hash with MD2 algorithm the entropy pool.
                 */
                md2_update(&context, pool->pool_entropy, CONFIG_SIZE_ENTROPY_POOL);

                md2_update(&context, tmp_buf, sizeof(tmp_buf) - 1);

                /*Insert a message digest in entropy pool.*/
                randpool_push(pool, md2_end(&context), MD2_DIGEST_LEN);

                pool->counter = pool->counter + 1;

        }

        /*Insert in pool the difference between a two call of this function (see above).*/
        randpool_add(pool, NULL, 0);

        pool->entropy = entropy; //Restore old value of entropy. We haven't add entropy.
}

/**
 * Add \param entropy bits from \param data buffer to the entropy \param pool
 */
void randpool_add(EntropyPool *pool, void *data, size_t entropy)
{
        uint8_t sep[] = "\xaa\xaa\xaa\xaa";  // ??
        size_t data_len = ROUND_UP(entropy, 8) / 8; //Number of entropy byte in input.

        randpool_push(pool, data, data_len); //Insert data to entropy pool.

#if CONFIG_RANDPOOL_TIMER

        ticks_t event = timer_clock();
        ticks_t delta;

        /*Difference of time between a two accese to entropy pool.*/
        delta = event - pool->last_counter;

        randpool_push(pool, &event, sizeof(ticks_t));
        randpool_push(pool, sep, sizeof(sep) - 1); // ??
        randpool_push(pool, &delta, sizeof(delta));

        /*
         * Count of number entropy bit add with delta.
         */
        delta = delta & 0xff;
        while(delta)
        {
                delta >>= 1;
                entropy++;
        }

        pool->last_counter = event;

#endif

        pool->entropy += entropy;      //Update a entropy of the pool.
}

/**
 * Randpool function initialization.
 * The entropy pool can be initialize also with
 * a previous entropy pool.
 */
void randpool_init(EntropyPool *pool, void *_data, size_t len)
{
        uint8_t *data;

        data = (uint8_t *)_data;

        memset(pool, 0, sizeof(EntropyPool));
        pool->pos_get = MD2_DIGEST_LEN;

#if CONFIG_RANDPOOL_TIMER
        pool->last_counter = timer_clock();
#endif

        if(data)
        {
                /*
                 * Initialize a entropy pool with a
                 * previous pool, and assume all pool as
                 * entropy.
                 */
                len = MIN(len,(size_t)CONFIG_SIZE_ENTROPY_POOL);
                memcpy(pool->pool_entropy, data, len);
                pool->entropy = len;
        }

}

/**
 * Get the actual value of entropy.
 */
size_t randpool_size(EntropyPool *pool)
{
        return pool->entropy;
}

/**
 * Get \param n_byte from entropy pool. If n_byte is larger than number
 * byte of entropy in entropy pool, randpool_get continue
 * to generate pseudocasual value from previous state of
 * pool.
 * \param n_byte number fo bytes to read.
 * \param pool is the pool entropy context.
 * \param _data is the pointer to write the random data to.
 */
void randpool_get(EntropyPool *pool, void *_data, size_t n_byte)
{
        Md2Context context;
        size_t i = pool->pos_get;
        size_t n = n_byte;
        size_t pos_write = 0;  //Number of block has been written in data.
        size_t len = MIN((size_t)MD2_DIGEST_LEN, n_byte);
        uint8_t *data;

        data = (uint8_t *)_data;

        /* Test if i + CONFIG_MD2_BLOCK_LEN  is inside of entropy pool.*/
        ASSERT((MD2_DIGEST_LEN + i) <= CONFIG_SIZE_ENTROPY_POOL);

        md2_init(&context);

        while(n > 0)
        {

                /*Hash previous state of pool*/
                md2_update(&context, &pool->pool_entropy[i], MD2_DIGEST_LEN);

                memcpy(&data[pos_write], md2_end(&context), len);

                pos_write += len;   //Update number of block has been written in data.
                n -= len;           //Number of byte copied in data.

                len = MIN(n,(size_t)MD2_DIGEST_LEN);

                i = (i + MD2_DIGEST_LEN) % CONFIG_SIZE_ENTROPY_POOL;

                /* If we haven't more entropy pool to hash, we stir it.*/
                if(i < MD2_DIGEST_LEN)
                {
                        randpool_stir(pool);
                        i = pool->pos_get;
                }

        }

        pool->pos_get = i; //Current number of byte we get from pool.
        pool->entropy -= n_byte; //Update a entropy.

}

/**
 * Return a pointer to entropy pool.
 */
uint8_t *randpool_pool(EntropyPool *pool)
{
        return pool->pool_entropy;
}