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/* mpiutil.ac  -  Utility functions for MPI
 * Copyright (C) 1998, 2000, 2001, 2002, 2003,
 *               2007  Free Software Foundation, Inc.
 *
 * This file is part of Libgcrypt.
 *
 * Libgcrypt is free software; you can redistribute it and/or modify
 * it under the terms of the GNU Lesser General Public License as
 * published by the Free Software Foundation; either version 2.1 of
 * the License, or (at your option) any later version.
 *
 * Libgcrypt is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this program; if not, see <http://www.gnu.org/licenses/>.
 */

#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include "g10lib.h"
#include "mpi-internal.h"
#include "memory.h"
#include "mod-source-info.h"


const char *
_gcry_mpi_get_hw_config (void)
{
  return mod_source_info + 1;
}


/****************
 * Note:  It was a bad idea to use the number of limbs to allocate
 *	  because on a alpha the limbs are large but we normally need
 *	  integers of n bits - So we should change this to bits (or bytes).
 *
 *	  But mpi_alloc is used in a lot of places :-(.  New code
 *	  should use mpi_new.
 */
gcry_mpi_t
_gcry_mpi_alloc( unsigned nlimbs )
{
    gcry_mpi_t a;

    a = gcry_xmalloc( sizeof *a );
    a->d = nlimbs? mpi_alloc_limb_space( nlimbs, 0 ) : NULL;
    a->alloced = nlimbs;
    a->nlimbs = 0;
    a->sign = 0;
    a->flags = 0;
    return a;
}

void
_gcry_mpi_m_check( gcry_mpi_t a )
{
    _gcry_check_heap(a);
    _gcry_check_heap(a->d);
}

gcry_mpi_t
_gcry_mpi_alloc_secure( unsigned nlimbs )
{
    gcry_mpi_t a;

    a = gcry_xmalloc( sizeof *a );
    a->d = nlimbs? mpi_alloc_limb_space( nlimbs, 1 ) : NULL;
    a->alloced = nlimbs;
    a->flags = 1;
    a->nlimbs = 0;
    a->sign = 0;
    return a;
}



mpi_ptr_t
_gcry_mpi_alloc_limb_space( unsigned int nlimbs, int secure )
{
    mpi_ptr_t p;
    size_t len;

    len = (nlimbs ? nlimbs : 1) * sizeof (mpi_limb_t);
    p = secure ? gcry_xmalloc_secure (len) : gcry_xmalloc (len);
    if (! nlimbs)
      *p = 0;

    return p;
}

void
_gcry_mpi_free_limb_space( mpi_ptr_t a, unsigned int nlimbs)
{
  if (a)
    {
      size_t len = nlimbs * sizeof(mpi_limb_t);
      
      /* If we have information on the number of allocated limbs, we
         better wipe that space out.  This is a failsafe feature if
         secure memory has been disabled or was not properly
         implemented in user provided allocation functions. */
      if (len)
        wipememory (a, len);
      gcry_free(a);
    }
}


void
_gcry_mpi_assign_limb_space( gcry_mpi_t a, mpi_ptr_t ap, unsigned int nlimbs )
{
  _gcry_mpi_free_limb_space (a->d, a->alloced);
  a->d = ap;
  a->alloced = nlimbs;
}



/****************
 * Resize the array of A to NLIMBS. The additional space is cleared
 * (set to 0).
 */
void
_gcry_mpi_resize (gcry_mpi_t a, unsigned nlimbs)
{
  size_t i;

  if (nlimbs <= a->alloced)
    {
      /* We only need to clear the new space (this is a nop if the
         limb space is already of the correct size. */
      for (i=a->nlimbs; i < a->alloced; i++)
        a->d[i] = 0;
      return; 
    }

  /* Actually resize the limb space.  */
  if (a->d)
    {
      a->d = gcry_xrealloc (a->d, nlimbs * sizeof (mpi_limb_t));
      for (i=a->alloced; i < nlimbs; i++)
        a->d[i] = 0;
    }
  else
    {
      if (a->flags & 1)
	/* Secure memory is wanted.  */
	a->d = gcry_xcalloc_secure (nlimbs , sizeof (mpi_limb_t));
      else
	/* Standard memory.  */
	a->d = gcry_xcalloc (nlimbs , sizeof (mpi_limb_t));
    }
  a->alloced = nlimbs;
}

void
_gcry_mpi_clear( gcry_mpi_t a )
{
    a->nlimbs = 0;
    a->flags = 0;
}


void
_gcry_mpi_free( gcry_mpi_t a )
{
  if (!a )
    return;
  if ((a->flags & 4))
    gcry_free( a->d );
  else
    {
      _gcry_mpi_free_limb_space(a->d, a->alloced);
    }
  if ((a->flags & ~7))
    log_bug("invalid flag value in mpi\n");
  gcry_free(a);
}

static void
mpi_set_secure( gcry_mpi_t a )
{
  mpi_ptr_t ap, bp;

  if ( (a->flags & 1) )
    return;
  a->flags |= 1;
  ap = a->d;
  if (!a->nlimbs)
    {
      gcry_assert (!ap);
      return;
    }
  bp = mpi_alloc_limb_space (a->nlimbs, 1);
  MPN_COPY( bp, ap, a->nlimbs );
  a->d = bp;
  _gcry_mpi_free_limb_space (ap, a->alloced);
}


gcry_mpi_t
gcry_mpi_set_opaque( gcry_mpi_t a, void *p, unsigned int nbits )
{
  if (!a) 
    a = mpi_alloc(0);
    
  if( a->flags & 4 )
    gcry_free( a->d );
  else 
    _gcry_mpi_free_limb_space (a->d, a->alloced);

  a->d = p;
  a->alloced = 0;
  a->nlimbs = 0;
  a->sign  = nbits;
  a->flags = 4;
  return a;
}


void *
gcry_mpi_get_opaque( gcry_mpi_t a, unsigned int *nbits )
{
    if( !(a->flags & 4) )
	log_bug("mpi_get_opaque on normal mpi\n");
    if( nbits )
	*nbits = a->sign;
    return a->d;
}


/****************
 * Note: This copy function should not interpret the MPI
 *	 but copy it transparently.
 */
gcry_mpi_t
gcry_mpi_copy( gcry_mpi_t a )
{
    int i;
    gcry_mpi_t b;

    if( a && (a->flags & 4) ) {
	void *p = gcry_is_secure(a->d)? gcry_xmalloc_secure( (a->sign+7)/8 )
				     : gcry_xmalloc( (a->sign+7)/8 );
	memcpy( p, a->d, (a->sign+7)/8 );
	b = gcry_mpi_set_opaque( NULL, p, a->sign );
    }
    else if( a ) {
	b = mpi_is_secure(a)? mpi_alloc_secure( a->nlimbs )
			    : mpi_alloc( a->nlimbs );
	b->nlimbs = a->nlimbs;
	b->sign = a->sign;
	b->flags  = a->flags;
	for(i=0; i < b->nlimbs; i++ )
	    b->d[i] = a->d[i];
    }
    else
	b = NULL;
    return b;
}


/****************
 * This function allocates an MPI which is optimized to hold
 * a value as large as the one given in the argument and allocates it
 * with the same flags as A.
 */
gcry_mpi_t
_gcry_mpi_alloc_like( gcry_mpi_t a )
{
    gcry_mpi_t b;

    if( a && (a->flags & 4) ) {
	int n = (a->sign+7)/8;
	void *p = gcry_is_secure(a->d)? gcry_malloc_secure( n )
				     : gcry_malloc( n );
	memcpy( p, a->d, n );
	b = gcry_mpi_set_opaque( NULL, p, a->sign );
    }
    else if( a ) {
	b = mpi_is_secure(a)? mpi_alloc_secure( a->nlimbs )
			    : mpi_alloc( a->nlimbs );
	b->nlimbs = 0;
	b->sign = 0;
	b->flags = a->flags;
    }
    else
	b = NULL;
    return b;
}


gcry_mpi_t
gcry_mpi_set( gcry_mpi_t w, gcry_mpi_t u)
{
  mpi_ptr_t wp, up;
  mpi_size_t usize = u->nlimbs;
  int usign = u->sign;
  
  if (!w)
    w = _gcry_mpi_alloc( mpi_get_nlimbs(u) );
  RESIZE_IF_NEEDED(w, usize);
  wp = w->d;
  up = u->d;
  MPN_COPY( wp, up, usize );
  w->nlimbs = usize;
  w->flags = u->flags;
  w->sign = usign;
  return w;
}


gcry_mpi_t
gcry_mpi_set_ui( gcry_mpi_t w, unsigned long u)
{
  if (!w)
    w = _gcry_mpi_alloc (1);
  /* FIXME: If U is 0 we have no need to resize and thus possible
     allocating the the limbs. */
  RESIZE_IF_NEEDED(w, 1);
  w->d[0] = u;
  w->nlimbs = u? 1:0;
  w->sign = 0;
  w->flags = 0;
  return w;
}

gcry_err_code_t
_gcry_mpi_get_ui (gcry_mpi_t w, unsigned long *u)
{
  gcry_err_code_t err = GPG_ERR_NO_ERROR;
  unsigned long x = 0;

  if (w->nlimbs > 1)
    err = GPG_ERR_TOO_LARGE;
  else if (w->nlimbs == 1)
    x = w->d[0];
  else
    x = 0;

  if (! err)
    *u = x;
  
  return err;
}

gcry_error_t
gcry_mpi_get_ui (gcry_mpi_t w, unsigned long *u)
{
  gcry_err_code_t err = GPG_ERR_NO_ERROR;

  err = _gcry_mpi_get_ui (w, u);
  
  return gcry_error (err);
}

gcry_mpi_t
_gcry_mpi_alloc_set_ui( unsigned long u)
{
    gcry_mpi_t w = mpi_alloc(1);
    w->d[0] = u;
    w->nlimbs = u? 1:0;
    w->sign = 0;
    return w;
}

void
gcry_mpi_swap( gcry_mpi_t a, gcry_mpi_t b)
{
    struct gcry_mpi tmp;

    tmp = *a; *a = *b; *b = tmp;
}


gcry_mpi_t
gcry_mpi_new( unsigned int nbits )
{
    return _gcry_mpi_alloc ( (nbits+BITS_PER_MPI_LIMB-1)
                             / BITS_PER_MPI_LIMB );
}


gcry_mpi_t
gcry_mpi_snew( unsigned int nbits )
{
  return _gcry_mpi_alloc_secure ( (nbits+BITS_PER_MPI_LIMB-1)
                                  / BITS_PER_MPI_LIMB );
}

void
gcry_mpi_release( gcry_mpi_t a )
{
    _gcry_mpi_free( a );
}

void
gcry_mpi_randomize( gcry_mpi_t w,
		    unsigned int nbits, enum gcry_random_level level )
{
  unsigned char *p;
  size_t nbytes = (nbits+7)/8;
  
  if (level == GCRY_WEAK_RANDOM)
    {
      p = mpi_is_secure(w) ? gcry_xmalloc_secure (nbytes)
                           : gcry_xmalloc (nbytes);
      gcry_create_nonce (p, nbytes);
    }
  else
    {
      p = mpi_is_secure(w) ? gcry_random_bytes_secure (nbytes, level)
                           : gcry_random_bytes (nbytes, level);
    }
  _gcry_mpi_set_buffer( w, p, nbytes, 0 );
  gcry_free (p);
}


void
gcry_mpi_set_flag( gcry_mpi_t a, enum gcry_mpi_flag flag )
{
    switch( flag ) {
      case GCRYMPI_FLAG_SECURE:  mpi_set_secure(a); break;
      case GCRYMPI_FLAG_OPAQUE:
      default: log_bug("invalid flag value\n");
    }
}

void
gcry_mpi_clear_flag( gcry_mpi_t a, enum gcry_mpi_flag flag )
{
  (void)a; /* Not yet used. */

  switch (flag)
    {
    case GCRYMPI_FLAG_SECURE:
    case GCRYMPI_FLAG_OPAQUE:
    default: log_bug("invalid flag value\n");
    }
}

int
gcry_mpi_get_flag( gcry_mpi_t a, enum gcry_mpi_flag flag )
{
  switch (flag)
    {
    case GCRYMPI_FLAG_SECURE: return (a->flags & 1);
    case GCRYMPI_FLAG_OPAQUE: return (a->flags & 4);
    default: log_bug("invalid flag value\n");
    }
  /*NOTREACHED*/
  return 0;
}