[u/mdw/catacomb] / rand.c

/* -*-c-*-
 *
 * $Id$
 *
 * Secure random number generator
 *
 * (c) 1998 Straylight/Edgeware
 */

/*----- Licensing notice --------------------------------------------------*
 *
 * This file is part of Catacomb.
 *
 * Catacomb is free software; you can redistribute it and/or modify
 * it under the terms of the GNU Library General Public License as
 * published by the Free Software Foundation; either version 2 of the
 * License, or (at your option) any later version.
 *
 * Catacomb 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 Library General Public License for more details.
 *
 * You should have received a copy of the GNU Library General Public
 * License along with Catacomb; if not, write to the Free
 * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
 * MA 02111-1307, USA.
 */

/*----- Header files ------------------------------------------------------*/

#include <stdarg.h>
#include <stdio.h>
#include <string.h>

#include <mLib/bits.h>
#include <mLib/sub.h>

#include "arena.h"
#include "blowfish-cbc.h"
#include "paranoia.h"
#include "rand.h"
#include "rmd160.h"
#include "rmd160-hmac.h"

/*----- Static variables --------------------------------------------------*/

static const grand_ops gops;

typedef struct gctx {
  grand r;
  rand_pool p;
} gctx;

static gctx *pool = 0;			/* Default random pool */

/*----- Macros ------------------------------------------------------------*/

#define RAND_RESOLVE(r) do {						\
  if ((r) == RAND_GLOBAL) {						\
    if (!pool)								\
      pool = (gctx *)rand_create();					\
    (r) = &pool->p;							\
  }									\
} while (0)

#define TIMER(r) do {							\
  if ((r)->s && (r)->s->timer)						\
    (r)->s->timer(r);							\
} while (0)

/*----- Main code ---------------------------------------------------------*/

/* --- @rand_init@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *
 * Returns:	---
 *
 * Use:		Initializes a randomness pool.  The pool doesn't start out
 *		very random: that's your job to sort out.  A good suggestion
 *		would be to attach an appropriate noise source and call
 *		@rand_seed@.
 */

void rand_init(rand_pool *r)
{
  RAND_RESOLVE(r);
  memset(r->pool, 0, sizeof(r->pool));
  memset(r->buf, 0, sizeof(r->buf));
  r->i = 0;
  r->irot = 0;
  r->ibits = r->obits = 0;
  r->o = RAND_SECSZ;
  r->s = 0;
  rmd160_hmacinit(&r->k, 0, 0);
  rand_gate(r);
}

/* --- @rand_noisesrc@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *		@const rand_source *s@ = pointer to source definition
 *
 * Returns:	---
 *
 * Use:		Sets a noise source for a randomness pool.  When the pool's
 *		estimate of good random bits falls to zero, the @getnoise@
 *		function is called, passing the pool handle as an argument.
 *		It is expected to increase the number of good bits by at
 *		least one, because it'll be called over and over again until
 *		there are enough bits to satisfy the caller.  The @timer@
 *		function is called frequently throughout the generator's
 *		operation.
 */

void rand_noisesrc(rand_pool *r, const rand_source *s)
{
  RAND_RESOLVE(r);
  r->s = s;
}

/* --- @rand_seed@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *		@unsigned bits@ = number of bits to ensure
 *
 * Returns:	---
 *
 * Use:		Ensures that there are at least @bits@ good bits of entropy
 *		in the pool.  It is recommended that you call this after
 *		initializing a new pool.  Requesting @bits > RAND_IBITS@ is
 *		doomed to failure (and is an error).
 */

void rand_seed(rand_pool *r, unsigned bits)
{
  RAND_RESOLVE(r);

  assert(((void)"bits pointlessly large in rand_seed", bits <= RAND_IBITS));
  assert(((void)"no noise source in rand_seed", r->s));

  while (r->ibits < bits)
    r->s->getnoise(r);
  rand_gate(r);
}

/* --- @rand_key@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *		@const void *k@ = pointer to key data
 *		@size_t sz@ = size of key data
 *
 * Returns:	---
 *
 * Use:		Sets the secret key for a randomness pool.  The key is used
 *		when mixing in new random bits.
 */

void rand_key(rand_pool *r, const void *k, size_t sz)
{
  RAND_RESOLVE(r);
  rmd160_hmacinit(&r->k, k, sz);
}

/* --- @rand_add@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *		@const void *p@ = pointer a buffer of data to add
 *		@size_t sz@ = size of the data buffer
 *		@unsigned goodbits@ = number of good bits estimated in buffer
 *
 * Returns:	---
 *
 * Use:		Mixes the data in the buffer with the contents of the
 *		pool.  The estimate of the number of good bits is added to
 *		the pool's own count.  The mixing operation is not
 *		cryptographically strong.  However, data in the input pool
 *		isn't output directly, only through the one-way gating
 *		operation, so that shouldn't matter.
 */

void rand_add(rand_pool *r, const void *p, size_t sz, unsigned goodbits)
{
  const octet *c = p;
  int i, rot;

#if RAND_POOLSZ != 128
#  error Polynomial in rand_add is out of date.  Fix it.
#endif

  RAND_RESOLVE(r);

  i = r->i; rot = r->irot;

  while (sz) {
    octet o = *c++;
    r->pool[i] ^= (ROL8(o, rot) ^
		   r->pool[(i + 1) % RAND_POOLSZ] ^
		   r->pool[(i + 2) % RAND_POOLSZ] ^
		   r->pool[(i + 7) % RAND_POOLSZ]);
    rot = (rot + 5) & 7;
    i++; if (i >= RAND_POOLSZ) i -= RAND_POOLSZ;
    sz--;
  }

  r->i = i;
  r->irot = rot;
  r->ibits += goodbits;
  if (r->ibits > RAND_IBITS)
    r->ibits = RAND_IBITS;
}

/* --- @rand_goodbits@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *
 * Returns:	Estimate of the number of good bits remaining in the pool.
 */

unsigned rand_goodbits(rand_pool *r)
{
  RAND_RESOLVE(r);
  return (r->ibits + r->obits);
}

/* --- @rand_gate@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *
 * Returns:	---
 *
 * Use:		Mixes up the entire state of the generator in a nonreversible
 *		way.
 */

void rand_gate(rand_pool *r)
{
  octet mac[RMD160_HASHSZ];

  RAND_RESOLVE(r);
  TIMER(r);

  /* --- Hash up all the data in the pool --- */

  {
    rmd160_macctx mc;

    rmd160_macinit(&mc, &r->k);
    rmd160_machash(&mc, r->pool, sizeof(r->pool));
    rmd160_machash(&mc, r->buf, sizeof(r->buf));
    rmd160_macdone(&mc, mac);
    BURN(mc);
  }

  /* --- Now mangle all of the data based on the hash --- */

  {
    blowfish_cbcctx bc;

    blowfish_cbcinit(&bc, mac, sizeof(mac), 0);
    blowfish_cbcencrypt(&bc, r->pool, r->pool, sizeof(r->pool));
    blowfish_cbcencrypt(&bc, r->buf, r->buf, sizeof(r->buf));
    BURN(bc);
  }

  /* --- Reset the various state variables --- */

  r->o = RAND_SECSZ;
  r->obits += r->ibits;
  if (r->obits > RAND_OBITS) {
    r->ibits = r->obits - r->ibits;
    r->obits = RAND_OBITS;
  } else
    r->ibits = 0;
  TIMER(r);
}

/* --- @rand_stretch@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *
 * Returns:	---
 *
 * Use:		Stretches the contents of the output buffer by transforming
 *		it in a nonreversible way.  This doesn't add any entropy
 *		worth speaking about, but it works well enough when the
 *		caller doesn't care about that sort of thing.
 */

void rand_stretch(rand_pool *r)
{
  octet mac[RMD160_HASHSZ];

  RAND_RESOLVE(r);
  TIMER(r);

  /* --- Hash up all the data in the buffer --- */

  {
    rmd160_macctx mc;

    rmd160_macinit(&mc, &r->k);
    rmd160_machash(&mc, r->pool, sizeof(r->pool));
    rmd160_machash(&mc, r->buf, sizeof(r->buf));
    rmd160_macdone(&mc, mac);
    BURN(mc);
  }

  /* --- Now mangle the buffer based on that hash --- */

  {
    blowfish_cbcctx bc;

    blowfish_cbcinit(&bc, mac, sizeof(mac), 0);
    blowfish_cbcencrypt(&bc, r->buf, r->buf, sizeof(r->buf));
    BURN(bc);
  }

  /* --- Reset the various state variables --- */

  r->o = RAND_SECSZ;
  TIMER(r);
}

/* --- @rand_get@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *		@void *p@ = pointer to output buffer
 *		@size_t sz@ = size of output buffer
 *
 * Returns:	---
 *
 * Use:		Gets random data from the pool.  The pool's contents can't be
 *		determined from the output of this function; nor can the
 *		output data be determined from a knowledge of the data input
 *		to the pool wihtout also having knowledge of the secret key.
 *		The good bits counter is decremented, although no special
 *		action is taken if it reaches zero.
 */

void rand_get(rand_pool *r, void *p, size_t sz)
{
  octet *o = p;

  RAND_RESOLVE(r);
  TIMER(r);

  if (!sz)
    return;
  for (;;) {
    if (r->o + sz <= RAND_BUFSZ) {
      memcpy(o, r->buf + r->o, sz);
      r->o += sz;
      break;
    } else {
      size_t chunk = RAND_BUFSZ - r->o;
      if (chunk) {
	memcpy(o, r->buf + r->o, chunk);
	sz -= chunk;
	o += chunk;
      }
      rand_stretch(r);
    }
  }

  if (r->obits > sz * 8)
    r->obits -= sz * 8;
  else
    r->obits = 0;
}

/* --- @rand_getgood@ --- *
 *
 * Arguments:	@rand_pool *r@ = pointer to a randomness pool
 *		@void *p@ = pointer to output buffer
 *		@size_t sz@ = size of output buffer
 *
 * Returns:	---
 *
 * Use:		Gets random data from the pool, ensuring that there are
 *		enough good bits.  This interface isn't recommended: it makes
 *		the generator slow, and doesn't provide much more security
 *		than @rand_get@, assuming you've previously done a
 *		@rand_seed@.
 */

void rand_getgood(rand_pool *r, void *p, size_t sz)
{
  octet *o = p;

  RAND_RESOLVE(r);

  if (!sz)
    return;
  if (!r->s || !r->s->getnoise) {
    rand_get(r, p, sz);
    return;
  }
  TIMER(r);

  while (sz) {
    size_t chunk = sz;

    if (chunk * 8 > r->obits) {
      if (chunk * 8 > r->ibits + r->obits)
	do r->s->getnoise(r); while (r->ibits + r->obits < 256);
      rand_gate(r);
      if (chunk * 8 > r->obits)
	chunk = r->obits / 8;
    }

    if (chunk + r->o > RAND_BUFSZ)
      chunk = RAND_BUFSZ - r->o;

    memcpy(o, r->buf + r->o, chunk);
    r->o += chunk;
    r->obits -= chunk * 8;
    o += chunk;
    sz -= chunk;
  }
}

/*----- Generic random number generator interface -------------------------*/

#define GRESOLVE(g, r) do {						\
  if (r != &rand_global)						\
    g = (gctx *)r;							\
  else {								\
    if (!pool)								\
      pool = (gctx *)rand_create();					\
    g = pool;								\
  }									\
} while (0)

static void gdestroy(grand *r)
{
  gctx *g;
  GRESOLVE(g, r);
  if (g != pool) {
    BURN(*g);
    S_DESTROY(g);
  }
}

static int gmisc(grand *r, unsigned op, ...)
{
  gctx *g;
  va_list ap;
  int rc = 0;
  va_start(ap, op);

  GRESOLVE(g, r);
  switch (op) {
    case GRAND_CHECK:
      switch (va_arg(ap, unsigned)) {
	case GRAND_CHECK:
	case GRAND_SEEDINT:
	case GRAND_SEEDUINT32:
	case GRAND_SEEDBLOCK:
	case GRAND_SEEDRAND:
	case RAND_GATE:
	case RAND_STRETCH:
	case RAND_KEY:
	case RAND_NOISESRC:
	case RAND_SEED:
	case RAND_TIMER:
	case RAND_GOODBITS:
	case RAND_ADD:
	  rc = 1;
	  break;
	default:
	  rc = 0;
	  break;
      }
      break;
    case GRAND_SEEDINT: {
      unsigned u = va_arg(ap, unsigned);
      rand_add(&g->p, &u, sizeof(u), sizeof(u));
    } break;
    case GRAND_SEEDUINT32: {
      uint32 i = va_arg(ap, uint32);
      rand_add(&g->p, &i, sizeof(i), 4);
    } break;
    case GRAND_SEEDBLOCK: {
      const void *p = va_arg(ap, const void *);
      size_t sz = va_arg(ap, size_t);
      rand_add(&g->p, p, sz, sz);
    } break;
    case GRAND_SEEDRAND: {
      grand *rr = va_arg(ap, grand *);
      octet buf[16];
      rr->ops->fill(rr, buf, sizeof(buf));
      rand_add(&g->p, buf, sizeof(buf), 8);
    } break;
    case RAND_GATE:
      rand_gate(&g->p);
      break;
    case RAND_STRETCH:
      rand_stretch(&g->p);
      break;
    case RAND_KEY: {
      const void *k = va_arg(ap, const void *);
      size_t sz = va_arg(ap, size_t);
      rand_key(&g->p, k, sz);
    } break;
    case RAND_NOISESRC:
      rand_noisesrc(&g->p, va_arg(ap, const rand_source *));
      break;
    case RAND_SEED:
      rand_seed(&g->p, va_arg(ap, unsigned));
      break;
    case RAND_TIMER:
      TIMER(&g->p);
      break;
    case RAND_GOODBITS:
      rc = rand_goodbits(&g->p);
      break;
    case RAND_ADD: {
      const void *p = va_arg(ap, const void *);
      size_t sz = va_arg(ap, size_t);
      unsigned goodbits = va_arg(ap, unsigned);
      rand_add(&g->p, p, sz, goodbits);
    } break;
    default:
      GRAND_BADOP;
      break;
  }

  va_end(ap);
  return (rc);
}

static octet gbyte(grand *r)
{
  gctx *g;
  octet o;
  GRESOLVE(g, r);
  rand_getgood(&g->p, &o, 1);
  return (o);
}

static uint32 gword(grand *r)
{
  gctx *g;
  octet b[4];
  GRESOLVE(g, r);
  rand_getgood(&g->p, &b, sizeof(b));
  return (LOAD32(b));
}

static void gfill(grand *r, void *p, size_t sz)
{
  gctx *g;
  GRESOLVE(g, r);
  rand_get(&g->p, p, sz);
}

static const grand_ops gops = {
  "rand",
  GRAND_CRYPTO, 0,
  gmisc, gdestroy,
  gword, gbyte, gword, grand_range, gfill
};

grand rand_global = { &gops };

/* --- @rand_create@ --- *
 *
 * Arguments:	---
 *
 * Returns:	Pointer to a generic generator.
 *
 * Use:		Constructs a generic generator interface over a Catacomb
 *		entropy pool generator.
 */

grand *rand_create(void)
{
  gctx *g = S_CREATE(gctx);
  g->r.ops = &gops;
  rand_init(&g->p);
  return (&g->r);
}

/*----- That's all, folks -------------------------------------------------*/
Commit	Line	Data
d03ab969	1	/* --c--
d03ab969	2	*
838a6a51	3	* $Id$
d03ab969	4	*
	5	* Secure random number generator
	6	*
	7	* (c) 1998 Straylight/Edgeware
	8	*/
	9
45c0fd36	10	/----- Licensing notice --------------------------------------------------
d03ab969	11	*
	12	* This file is part of Catacomb.
	13	*
	14	* Catacomb is free software; you can redistribute it and/or modify
	15	* it under the terms of the GNU Library General Public License as
	16	* published by the Free Software Foundation; either version 2 of the
	17	* License, or (at your option) any later version.
45c0fd36	18	*
d03ab969	19	* Catacomb is distributed in the hope that it will be useful,
	20	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	21	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	22	* GNU Library General Public License for more details.
45c0fd36	23	*
d03ab969	24	* You should have received a copy of the GNU Library General Public
	25	* License along with Catacomb; if not, write to the Free
	26	* Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
	27	* MA 02111-1307, USA.
	28	*/
	29
d03ab969	30	/----- Header files ------------------------------------------------------/
d03ab969	31
aacbc1c6	32	#include <stdarg.h>
d03ab969	33	#include <stdio.h>
	34	#include <string.h>
	35
	36	#include <mLib/bits.h>
aacbc1c6	37	#include <mLib/sub.h>
d03ab969	38
ac2fd5cd	39	#include "arena.h"
d03ab969	40	#include "blowfish-cbc.h"
	41	#include "paranoia.h"
	42	#include "rand.h"
	43	#include "rmd160.h"
	44	#include "rmd160-hmac.h"
	45
	46	/----- Static variables --------------------------------------------------/
	47
aacbc1c6	48	static const grand_ops gops;
	49
	50	typedef struct gctx {
	51	grand r;
	52	rand_pool p;
	53	} gctx;
	54
ac2fd5cd	55	static gctx pool = 0; / Default random pool */
d03ab969	56
	57	/----- Macros ------------------------------------------------------------/
	58
	59	#define RAND_RESOLVE(r) do { \
ac2fd5cd	60	if ((r) == RAND_GLOBAL) { \
	61	if (!pool) \
	62	pool = (gctx *)rand_create(); \
	63	(r) = &pool->p; \
	64	} \
d03ab969	65	} while (0)
	66
	67	#define TIMER(r) do { \
	68	if ((r)->s && (r)->s->timer) \
	69	(r)->s->timer(r); \
	70	} while (0)
	71
	72	/----- Main code ---------------------------------------------------------/
	73
	74	/* --- @rand_init@ --- *
	75	*
	76	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	77	*
	78	* Returns: ---
	79	*
	80	* Use: Initializes a randomness pool. The pool doesn't start out
ac2fd5cd	81	* very random: that's your job to sort out. A good suggestion
	82	* would be to attach an appropriate noise source and call
	83	* @rand_seed@.
d03ab969	84	*/
	85
	86	void rand_init(rand_pool *r)
	87	{
	88	RAND_RESOLVE(r);
	89	memset(r->pool, 0, sizeof(r->pool));
	90	memset(r->buf, 0, sizeof(r->buf));
	91	r->i = 0;
	92	r->irot = 0;
	93	r->ibits = r->obits = 0;
	94	r->o = RAND_SECSZ;
	95	r->s = 0;
aacbc1c6	96	rmd160_hmacinit(&r->k, 0, 0);
d03ab969	97	rand_gate(r);
	98	}
	99
	100	/* --- @rand_noisesrc@ --- *
	101	*
	102	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	103	* @const rand_source *s@ = pointer to source definition
	104	*
	105	* Returns: ---
	106	*
	107	* Use: Sets a noise source for a randomness pool. When the pool's
	108	* estimate of good random bits falls to zero, the @getnoise@
	109	* function is called, passing the pool handle as an argument.
	110	* It is expected to increase the number of good bits by at
	111	* least one, because it'll be called over and over again until
	112	* there are enough bits to satisfy the caller. The @timer@
	113	* function is called frequently throughout the generator's
	114	* operation.
	115	*/
	116
	117	void rand_noisesrc(rand_pool r, const rand_source s)
	118	{
	119	RAND_RESOLVE(r);
	120	r->s = s;
	121	}
	122
ac2fd5cd	123	/* --- @rand_seed@ --- *
	124	*
	125	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	126	* @unsigned bits@ = number of bits to ensure
	127	*
	128	* Returns: ---
	129	*
	130	* Use: Ensures that there are at least @bits@ good bits of entropy
	131	* in the pool. It is recommended that you call this after
	132	* initializing a new pool. Requesting @bits > RAND_IBITS@ is
	133	* doomed to failure (and is an error).
	134	*/
	135
	136	void rand_seed(rand_pool *r, unsigned bits)
	137	{
	138	RAND_RESOLVE(r);
	139
	140	assert(((void)"bits pointlessly large in rand_seed", bits <= RAND_IBITS));
	141	assert(((void)"no noise source in rand_seed", r->s));
	142
	143	while (r->ibits < bits)
	144	r->s->getnoise(r);
	145	rand_gate(r);
	146	}
	147
d03ab969	148	/* --- @rand_key@ --- *
	149	*
	150	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	151	* @const void *k@ = pointer to key data
	152	* @size_t sz@ = size of key data
	153	*
	154	* Returns: ---
	155	*
	156	* Use: Sets the secret key for a randomness pool. The key is used
	157	* when mixing in new random bits.
	158	*/
	159
	160	void rand_key(rand_pool r, const void k, size_t sz)
	161	{
	162	RAND_RESOLVE(r);
aacbc1c6	163	rmd160_hmacinit(&r->k, k, sz);
d03ab969	164	}
	165
	166	/* --- @rand_add@ --- *
	167	*
	168	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	169	* @const void *p@ = pointer a buffer of data to add
	170	* @size_t sz@ = size of the data buffer
	171	* @unsigned goodbits@ = number of good bits estimated in buffer
	172	*
	173	* Returns: ---
	174	*
	175	* Use: Mixes the data in the buffer with the contents of the
	176	* pool. The estimate of the number of good bits is added to
	177	* the pool's own count. The mixing operation is not
	178	* cryptographically strong. However, data in the input pool
	179	* isn't output directly, only through the one-way gating
	180	* operation, so that shouldn't matter.
	181	*/
	182
	183	void rand_add(rand_pool r, const void p, size_t sz, unsigned goodbits)
	184	{
	185	const octet *c = p;
ba044e65	186	int i, rot;
d03ab969	187
ba044e65	188	#if RAND_POOLSZ != 128
d03ab969	189	# error Polynomial in rand_add is out of date. Fix it.
	190	#endif
	191
	192	RAND_RESOLVE(r);
	193
ba044e65	194	i = r->i; rot = r->irot;
d03ab969	195
	196	while (sz) {
	197	octet o = *c++;
ba044e65	198	r->pool[i] ^= (ROL8(o, rot) ^
	199	r->pool[(i + 1) % RAND_POOLSZ] ^
	200	r->pool[(i + 2) % RAND_POOLSZ] ^
	201	r->pool[(i + 7) % RAND_POOLSZ]);
d03ab969	202	rot = (rot + 5) & 7;
d03ab969	203	i++; if (i >= RAND_POOLSZ) i -= RAND_POOLSZ;
d03ab969	204	sz--;
	205	}
	206
	207	r->i = i;
	208	r->irot = rot;
	209	r->ibits += goodbits;
	210	if (r->ibits > RAND_IBITS)
	211	r->ibits = RAND_IBITS;
	212	}
	213
	214	/* --- @rand_goodbits@ --- *
	215	*
45c0fd36	216	* Arguments: @rand_pool *r@ = pointer to a randomness pool
d03ab969	217	*
45c0fd36	218	* Returns: Estimate of the number of good bits remaining in the pool.
d03ab969	219	*/
	220
	221	unsigned rand_goodbits(rand_pool *r)
	222	{
	223	RAND_RESOLVE(r);
	224	return (r->ibits + r->obits);
	225	}
	226
	227	/* --- @rand_gate@ --- *
	228	*
	229	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	230	*
	231	* Returns: ---
	232	*
	233	* Use: Mixes up the entire state of the generator in a nonreversible
	234	* way.
	235	*/
	236
	237	void rand_gate(rand_pool *r)
	238	{
	239	octet mac[RMD160_HASHSZ];
	240
	241	RAND_RESOLVE(r);
	242	TIMER(r);
	243
	244	/* --- Hash up all the data in the pool --- */
	245
	246	{
	247	rmd160_macctx mc;
	248
	249	rmd160_macinit(&mc, &r->k);
aacbc1c6	250	rmd160_machash(&mc, r->pool, sizeof(r->pool));
aacbc1c6	251	rmd160_machash(&mc, r->buf, sizeof(r->buf));
d03ab969	252	rmd160_macdone(&mc, mac);
	253	BURN(mc);
	254	}
	255
	256	/* --- Now mangle all of the data based on the hash --- */
	257
	258	{
	259	blowfish_cbcctx bc;
	260
	261	blowfish_cbcinit(&bc, mac, sizeof(mac), 0);
	262	blowfish_cbcencrypt(&bc, r->pool, r->pool, sizeof(r->pool));
	263	blowfish_cbcencrypt(&bc, r->buf, r->buf, sizeof(r->buf));
	264	BURN(bc);
	265	}
	266
	267	/* --- Reset the various state variables --- */
	268
	269	r->o = RAND_SECSZ;
	270	r->obits += r->ibits;
	271	if (r->obits > RAND_OBITS) {
	272	r->ibits = r->obits - r->ibits;
	273	r->obits = RAND_OBITS;
	274	} else
	275	r->ibits = 0;
	276	TIMER(r);
	277	}
	278
	279	/* --- @rand_stretch@ --- *
	280	*
	281	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	282	*
	283	* Returns: ---
	284	*
	285	* Use: Stretches the contents of the output buffer by transforming
	286	* it in a nonreversible way. This doesn't add any entropy
	287	* worth speaking about, but it works well enough when the
	288	* caller doesn't care about that sort of thing.
	289	*/
	290
	291	void rand_stretch(rand_pool *r)
	292	{
	293	octet mac[RMD160_HASHSZ];
	294
	295	RAND_RESOLVE(r);
	296	TIMER(r);
	297
	298	/* --- Hash up all the data in the buffer --- */
	299
	300	{
	301	rmd160_macctx mc;
	302
	303	rmd160_macinit(&mc, &r->k);
aacbc1c6	304	rmd160_machash(&mc, r->pool, sizeof(r->pool));
aacbc1c6	305	rmd160_machash(&mc, r->buf, sizeof(r->buf));
d03ab969	306	rmd160_macdone(&mc, mac);
	307	BURN(mc);
	308	}
	309
	310	/* --- Now mangle the buffer based on that hash --- */
	311
	312	{
	313	blowfish_cbcctx bc;
	314
	315	blowfish_cbcinit(&bc, mac, sizeof(mac), 0);
	316	blowfish_cbcencrypt(&bc, r->buf, r->buf, sizeof(r->buf));
	317	BURN(bc);
	318	}
	319
	320	/* --- Reset the various state variables --- */
	321
	322	r->o = RAND_SECSZ;
	323	TIMER(r);
	324	}
	325
	326	/* --- @rand_get@ --- *
	327	*
	328	* Arguments: @rand_pool *r@ = pointer to a randomness pool
	329	* @void *p@ = pointer to output buffer
	330	* @size_t sz@ = size of output buffer
	331	*
	332	* Returns: ---
	333	*
	334	* Use: Gets random data from the pool. The pool's contents can't be
	335	* determined from the output of this function; nor can the
	336	* output data be determined from a knowledge of the data input
	337	* to the pool wihtout also having knowledge of the secret key.
	338	* The good bits counter is decremented, although no special
	339	* action is taken if it reaches zero.
	340	*/
	341
	342	void rand_get(rand_pool r, void p, size_t sz)
	343	{
	344	octet *o = p;
	345
	346	RAND_RESOLVE(r);
	347	TIMER(r);
	348
	349	if (!sz)
	350	return;
	351	for (;;) {
	352	if (r->o + sz <= RAND_BUFSZ) {
	353	memcpy(o, r->buf + r->o, sz);
	354	r->o += sz;
	355	break;
	356	} else {
	357	size_t chunk = RAND_BUFSZ - r->o;
	358	if (chunk) {
	359	memcpy(o, r->buf + r->o, chunk);
	360	sz -= chunk;
	361	o += chunk;
	362	}
	363	rand_stretch(r);
	364	}
	365	}
	366
	367	if (r->obits > sz * 8)
	368	r->obits -= sz * 8;
	369	else
370	r->obits = 0;
371	}
372
373	/* --- @rand_getgood@ --- *
374	*
375	* Arguments: @rand_pool *r@ = pointer to a randomness pool
376	* @void *p@ = pointer to output buffer
377	* @size_t sz@ = size of output buffer
378	*
379	* Returns: ---
380	*
ac2fd5cd	381	* Use: Gets random data from the pool, ensuring that there are
	382	* enough good bits. This interface isn't recommended: it makes
	383	* the generator slow, and doesn't provide much more security
	384	* than @rand_get@, assuming you've previously done a
	385	* @rand_seed@.
d03ab969	386	*/
	387
	388	void rand_getgood(rand_pool r, void p, size_t sz)
	389	{
	390	octet *o = p;
	391
	392	RAND_RESOLVE(r);
	393
	394	if (!sz)
	395	return;
	396	if (!r->s \|\| !r->s->getnoise) {
	397	rand_get(r, p, sz);
	398	return;
	399	}
	400	TIMER(r);
	401
	402	while (sz) {
	403	size_t chunk = sz;
	404
	405	if (chunk * 8 > r->obits) {
	406	if (chunk * 8 > r->ibits + r->obits)
b056b793	407	do r->s->getnoise(r); while (r->ibits + r->obits < 256);
d03ab969	408	rand_gate(r);
	409	if (chunk * 8 > r->obits)
	410	chunk = r->obits / 8;
	411	}
	412
	413	if (chunk + r->o > RAND_BUFSZ)
	414	chunk = RAND_BUFSZ - r->o;
	415
	416	memcpy(o, r->buf + r->o, chunk);
aacbc1c6	417	r->o += chunk;
d03ab969	418	r->obits -= chunk * 8;
	419	o += chunk;
	420	sz -= chunk;
	421	}
	422	}
	423
aacbc1c6	424	/----- Generic random number generator interface -------------------------/
aacbc1c6	425
ac2fd5cd	426	#define GRESOLVE(g, r) do { \
	427	if (r != &rand_global) \
	428	g = (gctx *)r; \
	429	else { \
	430	if (!pool) \
	431	pool = (gctx *)rand_create(); \
	432	g = pool; \
	433	} \
	434	} while (0)
	435
aacbc1c6	436	static void gdestroy(grand *r)
aacbc1c6	437	{
ac2fd5cd	438	gctx *g;
	439	GRESOLVE(g, r);
	440	if (g != pool) {
	441	BURN(*g);
	442	S_DESTROY(g);
	443	}
aacbc1c6	444	}
	445
	446	static int gmisc(grand *r, unsigned op, ...)
	447	{
ac2fd5cd	448	gctx *g;
aacbc1c6	449	va_list ap;
	450	int rc = 0;
	451	va_start(ap, op);
	452
ac2fd5cd	453	GRESOLVE(g, r);
aacbc1c6	454	switch (op) {
	455	case GRAND_CHECK:
	456	switch (va_arg(ap, unsigned)) {
	457	case GRAND_CHECK:
	458	case GRAND_SEEDINT:
	459	case GRAND_SEEDUINT32:
	460	case GRAND_SEEDBLOCK:
b056b793	461	case GRAND_SEEDRAND:
aacbc1c6	462	case RAND_GATE:
	463	case RAND_STRETCH:
	464	case RAND_KEY:
	465	case RAND_NOISESRC:
ac2fd5cd	466	case RAND_SEED:
838a6a51	467	case RAND_TIMER:
838a6a51	468	case RAND_GOODBITS:
990dafb1	469	case RAND_ADD:
aacbc1c6	470	rc = 1;
	471	break;
	472	default:
	473	rc = 0;
	474	break;
	475	}
	476	break;
	477	case GRAND_SEEDINT: {
	478	unsigned u = va_arg(ap, unsigned);
	479	rand_add(&g->p, &u, sizeof(u), sizeof(u));
	480	} break;
	481	case GRAND_SEEDUINT32: {
	482	uint32 i = va_arg(ap, uint32);
	483	rand_add(&g->p, &i, sizeof(i), 4);
	484	} break;
	485	case GRAND_SEEDBLOCK: {
	486	const void p = va_arg(ap, const void );
	487	size_t sz = va_arg(ap, size_t);
	488	rand_add(&g->p, p, sz, sz);
	489	} break;
b056b793	490	case GRAND_SEEDRAND: {
	491	grand rr = va_arg(ap, grand );
	492	octet buf[16];
	493	rr->ops->fill(rr, buf, sizeof(buf));
	494	rand_add(&g->p, buf, sizeof(buf), 8);
	495	} break;
aacbc1c6	496	case RAND_GATE:
	497	rand_gate(&g->p);
	498	break;
	499	case RAND_STRETCH:
	500	rand_stretch(&g->p);
	501	break;
	502	case RAND_KEY: {
	503	const void k = va_arg(ap, const void );
	504	size_t sz = va_arg(ap, size_t);
	505	rand_key(&g->p, k, sz);
	506	} break;
	507	case RAND_NOISESRC:
	508	rand_noisesrc(&g->p, va_arg(ap, const rand_source *));
	509	break;
ac2fd5cd	510	case RAND_SEED:
	511	rand_seed(&g->p, va_arg(ap, unsigned));
	512	break;
838a6a51	513	case RAND_TIMER:
	514	TIMER(&g->p);
	515	break;
	516	case RAND_GOODBITS:
	517	rc = rand_goodbits(&g->p);
	518	break;
990dafb1	519	case RAND_ADD: {
	520	const void p = va_arg(ap, const void );
	521	size_t sz = va_arg(ap, size_t);
	522	unsigned goodbits = va_arg(ap, unsigned);
	523	rand_add(&g->p, p, sz, goodbits);
	524	} break;
aacbc1c6	525	default:
	526	GRAND_BADOP;
	527	break;
	528	}
	529
	530	va_end(ap);
	531	return (rc);
	532	}
	533
	534	static octet gbyte(grand *r)
	535	{
ac2fd5cd	536	gctx *g;
aacbc1c6	537	octet o;
ac2fd5cd	538	GRESOLVE(g, r);
aacbc1c6	539	rand_getgood(&g->p, &o, 1);
	540	return (o);
	541	}
	542
	543	static uint32 gword(grand *r)
	544	{
ac2fd5cd	545	gctx *g;
aacbc1c6	546	octet b[4];
ac2fd5cd	547	GRESOLVE(g, r);
aacbc1c6	548	rand_getgood(&g->p, &b, sizeof(b));
	549	return (LOAD32(b));
	550	}
	551
	552	static void gfill(grand r, void p, size_t sz)
	553	{
ac2fd5cd	554	gctx *g;
	555	GRESOLVE(g, r);
	556	rand_get(&g->p, p, sz);
aacbc1c6	557	}
	558
	559	static const grand_ops gops = {
	560	"rand",
ac2fd5cd	561	GRAND_CRYPTO, 0,
aacbc1c6	562	gmisc, gdestroy,
	563	gword, gbyte, gword, grand_range, gfill
	564	};
	565
	566	grand rand_global = { &gops };
	567
	568	/* --- @rand_create@ --- *
	569	*
	570	* Arguments: ---
	571	*
	572	* Returns: Pointer to a generic generator.
	573	*
	574	* Use: Constructs a generic generator interface over a Catacomb
	575	* entropy pool generator.
	576	*/
	577
	578	grand *rand_create(void)
	579	{
ac2fd5cd	580	gctx *g = S_CREATE(gctx);
aacbc1c6	581	g->r.ops = &gops;
	582	rand_init(&g->p);
	583	return (&g->r);
	584	}
	585
d03ab969	586	/----- That's all, folks -------------------------------------------------/