doxygen/mp__monty_8cpp_source.html

 /*
 * Montgomery Reduction
 * (C) 1999-2011 Jack Lloyd
 *     2006 Luca Piccarreta
 *     2016 Matthias Gierlings
 *
 * Botan is released under the Simplified BSD License (see license.txt)
 */

 #include <botan/internal/mp_core.h>
 #include <botan/internal/mp_monty.h>
 #include <botan/internal/mp_madd.h>
 #include <botan/internal/mp_asmi.h>
 #include <botan/internal/ct_utils.h>
 #include <botan/mem_ops.h>
 #include <botan/exceptn.h>

 namespace Botan {

 namespace {

 /*
 * Montgomery reduction - product scanning form
 *
 * https://www.iacr.org/archive/ches2005/006.pdf
 * https://eprint.iacr.org/2013/882.pdf
 * https://www.microsoft.com/en-us/research/wp-content/uploads/1996/01/j37acmon.pdf
 */
 void bigint_monty_redc_generic(word z[], size_t z_size,
                                const word p[], size_t p_size, word p_dash,
                                word ws[])
    {
    word w2 = 0, w1 = 0, w0 = 0;

    w0 = z[0];

    ws[0] = w0 * p_dash;

    word3_muladd(&w2, &w1, &w0, ws[0], p[0]);

    w0 = w1;
    w1 = w2;
    w2 = 0;

    for(size_t i = 1; i != p_size; ++i)
       {
       for(size_t j = 0; j < i; ++j)
          {
          word3_muladd(&w2, &w1, &w0, ws[j], p[i-j]);
          }

       word3_add(&w2, &w1, &w0, z[i]);

       ws[i] = w0 * p_dash;

       word3_muladd(&w2, &w1, &w0, ws[i], p[0]);

       w0 = w1;
       w1 = w2;
       w2 = 0;
       }

    for(size_t i = 0; i != p_size; ++i)
       {
       for(size_t j = i + 1; j != p_size; ++j)
          {
          word3_muladd(&w2, &w1, &w0, ws[j], p[p_size + i-j]);
          }

       word3_add(&w2, &w1, &w0, z[p_size+i]);

       ws[i] = w0;
       w0 = w1;
       w1 = w2;
       w2 = 0;
       }

    word3_add(&w2, &w1, &w0, z[z_size-1]);

    ws[p_size] = w0;
    ws[p_size+1] = w1;

    /*
    * The result might need to be reduced mod p. To avoid a timing
    * channel, always perform the subtraction. If in the compution
    * of x - p a borrow is required then x was already < p.
    *
    * x starts at ws[0] and is p_size+1 bytes long.
    * x - p starts at ws[p_size+1] and is also p_size+1 bytes log
    *
    * Select which address to copy from indexing off of the final
    * borrow.
    */

    // word borrow = bigint_sub3(ws + p_size + 1, ws, p_size + 1, p, p_size);
    word borrow = 0;
    for(size_t i = 0; i != p_size; ++i)
       ws[p_size + 1 + i] = word_sub(ws[i], p[i], &borrow);
    ws[2*p_size+1] = word_sub(ws[p_size], 0, &borrow);

    BOTAN_DEBUG_ASSERT(borrow == 0 || borrow == 1);

    CT::conditional_copy_mem(borrow, z, ws, ws + (p_size + 1), (p_size + 1));
    clear_mem(z + p_size, z_size - p_size - 2);
    }

 }

 void bigint_monty_redc(word z[],
                        const word p[], size_t p_size, word p_dash,
                        word ws[], size_t ws_size)
    {
    const size_t z_size = 2*(p_size+1);

    BOTAN_ARG_CHECK(ws_size >= z_size, "workspace too small");

    if(p_size == 4)
       bigint_monty_redc_4(z, p, p_dash, ws);
    else if(p_size == 6)
       bigint_monty_redc_6(z, p, p_dash, ws);
    else if(p_size == 8)
       bigint_monty_redc_8(z, p, p_dash, ws);
    else if(p_size == 16)
       bigint_monty_redc_16(z, p, p_dash, ws);
    else if(p_size == 24)
       bigint_monty_redc_24(z, p, p_dash, ws);
    else if(p_size == 32)
       bigint_monty_redc_32(z, p, p_dash, ws);
    else
       bigint_monty_redc_generic(z, z_size, p, p_size, p_dash, ws);
    }

 }
Botan::word3_muladd
void word3_muladd(word *w2, word *w1, word *w0, word x, word y)
Definition: mp_asmi.h:717

Botan::bigint_monty_redc_32
void bigint_monty_redc_32(word z[], const word p[], word p_dash, word ws[])

Botan::clear_mem
void clear_mem(T *ptr, size_t n)
Definition: mem_ops.h:111

Botan::bigint_monty_redc_8
void bigint_monty_redc_8(word z[], const word p[], word p_dash, word ws[])

Botan::bigint_monty_redc_6
void bigint_monty_redc_6(word z[], const word p[], word p_dash, word ws[])

Botan::bigint_monty_redc_24
void bigint_monty_redc_24(word z[], const word p[], word p_dash, word ws[])

Botan::bigint_monty_redc_16
void bigint_monty_redc_16(word z[], const word p[], word p_dash, word ws[])

Botan::bigint_monty_redc_4
void bigint_monty_redc_4(word z[], const word p[], word p_dash, word ws[])

BOTAN_DEBUG_ASSERT
#define BOTAN_DEBUG_ASSERT(expr)
Definition: assert.h:123

Botan::word3_add
void word3_add(word *w2, word *w1, word *w0, word x)
Definition: mp_asmi.h:764

Botan
Definition: alg_id.cpp:13

Botan::CT::conditional_copy_mem
Mask< T > conditional_copy_mem(T cnd, T *to, const T *from0, const T *from1, size_t elems)
Definition: ct_utils.h:339

BOTAN_ARG_CHECK
#define BOTAN_ARG_CHECK(expr, msg)
Definition: assert.h:37

Botan::bigint_monty_redc
void bigint_monty_redc(word z[], const word p[], size_t p_size, word p_dash, word workspace[], size_t ws_size)
Definition: mp_monty.cpp:109

Botan::word_sub
word word_sub(word x, word y, word *carry)
Definition: mp_asmi.h:280