crypto/lhash/lhash.c - third_party/openssl - Git at Google

 /*
  * Copyright 1995-2016 The OpenSSL Project Authors. All Rights Reserved.
  *
  * Licensed under the OpenSSL license (the "License").  You may not use
  * this file except in compliance with the License.  You can obtain a copy
  * in the file LICENSE in the source distribution or at
  * https://www.openssl.org/source/license.html
  */

 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>
 #include <openssl/crypto.h>
 #include <openssl/lhash.h>
 #include "lhash_lcl.h"


 #undef MIN_NODES
 #define MIN_NODES       16
 #define UP_LOAD         (2*LH_LOAD_MULT) /* load times 256 (default 2) */
 #define DOWN_LOAD       (LH_LOAD_MULT) /* load times 256 (default 1) */

 static int expand(OPENSSL_LHASH *lh);
 static void contract(OPENSSL_LHASH *lh);
 static OPENSSL_LH_NODE **getrn(OPENSSL_LHASH *lh, const void *data, unsigned long *rhash);

 OPENSSL_LHASH *OPENSSL_LH_new(OPENSSL_LH_HASHFUNC h, OPENSSL_LH_COMPFUNC c)
 {
     OPENSSL_LHASH *ret;

     if ((ret = OPENSSL_zalloc(sizeof(*ret))) == NULL)
         goto err0;
     if ((ret->b = OPENSSL_zalloc(sizeof(*ret->b) * MIN_NODES)) == NULL)
         goto err1;
     ret->comp = ((c == NULL) ? (OPENSSL_LH_COMPFUNC)strcmp : c);
     ret->hash = ((h == NULL) ? (OPENSSL_LH_HASHFUNC)OPENSSL_LH_strhash : h);
     ret->num_nodes = MIN_NODES / 2;
     ret->num_alloc_nodes = MIN_NODES;
     ret->pmax = MIN_NODES / 2;
     ret->up_load = UP_LOAD;
     ret->down_load = DOWN_LOAD;
     return (ret);

  err1:
     OPENSSL_free(ret);
  err0:
     return (NULL);
 }

 void OPENSSL_LH_free(OPENSSL_LHASH *lh)
 {
     unsigned int i;
     OPENSSL_LH_NODE *n, *nn;

     if (lh == NULL)
         return;

     for (i = 0; i < lh->num_nodes; i++) {
         n = lh->b[i];
         while (n != NULL) {
             nn = n->next;
             OPENSSL_free(n);
             n = nn;
         }
     }
     OPENSSL_free(lh->b);
     OPENSSL_free(lh);
 }

 void *OPENSSL_LH_insert(OPENSSL_LHASH *lh, void *data)
 {
     unsigned long hash;
     OPENSSL_LH_NODE *nn, **rn;
     void *ret;

     lh->error = 0;
     if ((lh->up_load <= (lh->num_items * LH_LOAD_MULT / lh->num_nodes)) && !expand(lh))
         return NULL;        /* 'lh->error++' already done in 'expand' */

     rn = getrn(lh, data, &hash);

     if (*rn == NULL) {
         if ((nn = OPENSSL_malloc(sizeof(*nn))) == NULL) {
             lh->error++;
             return (NULL);
         }
         nn->data = data;
         nn->next = NULL;
         nn->hash = hash;
         *rn = nn;
         ret = NULL;
         lh->num_insert++;
         lh->num_items++;
     } else {                    /* replace same key */

         ret = (*rn)->data;
         (*rn)->data = data;
         lh->num_replace++;
     }
     return (ret);
 }

 void *OPENSSL_LH_delete(OPENSSL_LHASH *lh, const void *data)
 {
     unsigned long hash;
     OPENSSL_LH_NODE *nn, **rn;
     void *ret;

     lh->error = 0;
     rn = getrn(lh, data, &hash);

     if (*rn == NULL) {
         lh->num_no_delete++;
         return (NULL);
     } else {
         nn = *rn;
         *rn = nn->next;
         ret = nn->data;
         OPENSSL_free(nn);
         lh->num_delete++;
     }

     lh->num_items--;
     if ((lh->num_nodes > MIN_NODES) &&
         (lh->down_load >= (lh->num_items * LH_LOAD_MULT / lh->num_nodes)))
         contract(lh);

     return (ret);
 }

 void *OPENSSL_LH_retrieve(OPENSSL_LHASH *lh, const void *data)
 {
     unsigned long hash;
     OPENSSL_LH_NODE **rn;
     void *ret;

     lh->error = 0;
     rn = getrn(lh, data, &hash);

     if (*rn == NULL) {
         lh->num_retrieve_miss++;
         return (NULL);
     } else {
         ret = (*rn)->data;
         lh->num_retrieve++;
     }
     return (ret);
 }

 static void doall_util_fn(OPENSSL_LHASH *lh, int use_arg,
                           OPENSSL_LH_DOALL_FUNC func,
                           OPENSSL_LH_DOALL_FUNCARG func_arg, void *arg)
 {
     int i;
     OPENSSL_LH_NODE *a, *n;

     if (lh == NULL)
         return;

     /*
      * reverse the order so we search from 'top to bottom' We were having
      * memory leaks otherwise
      */
     for (i = lh->num_nodes - 1; i >= 0; i--) {
         a = lh->b[i];
         while (a != NULL) {
             n = a->next;
             if (use_arg)
                 func_arg(a->data, arg);
             else
                 func(a->data);
             a = n;
         }
     }
 }

 void OPENSSL_LH_doall(OPENSSL_LHASH *lh, OPENSSL_LH_DOALL_FUNC func)
 {
     doall_util_fn(lh, 0, func, (OPENSSL_LH_DOALL_FUNCARG)0, NULL);
 }

 void OPENSSL_LH_doall_arg(OPENSSL_LHASH *lh, OPENSSL_LH_DOALL_FUNCARG func, void *arg)
 {
     doall_util_fn(lh, 1, (OPENSSL_LH_DOALL_FUNC)0, func, arg);
 }

 static int expand(OPENSSL_LHASH *lh)
 {
     OPENSSL_LH_NODE **n, **n1, **n2, *np;
     unsigned int p, i, j;
     unsigned long hash, nni;

     lh->num_nodes++;
     lh->num_expands++;
     p = (int)lh->p++;
     n1 = &(lh->b[p]);
     n2 = &(lh->b[p + (int)lh->pmax]);
     *n2 = NULL;
     nni = lh->num_alloc_nodes;

     for (np = *n1; np != NULL;) {
         hash = np->hash;
         if ((hash % nni) != p) { /* move it */
             *n1 = (*n1)->next;
             np->next = *n2;
             *n2 = np;
         } else
             n1 = &((*n1)->next);
         np = *n1;
     }

     if ((lh->p) >= lh->pmax) {
         j = (int)lh->num_alloc_nodes * 2;
         n = OPENSSL_realloc(lh->b, (int)(sizeof(OPENSSL_LH_NODE *) * j));
         if (n == NULL) {
             lh->error++;
             lh->num_nodes--;
             lh->p = 0;
             return 0;
         }
         for (i = (int)lh->num_alloc_nodes; i < j; i++) /* 26/02/92 eay */
             n[i] = NULL;        /* 02/03/92 eay */
         lh->pmax = lh->num_alloc_nodes;
         lh->num_alloc_nodes = j;
         lh->num_expand_reallocs++;
         lh->p = 0;
         lh->b = n;
     }
     return 1;
 }

 static void contract(OPENSSL_LHASH *lh)
 {
     OPENSSL_LH_NODE **n, *n1, *np;

     np = lh->b[lh->p + lh->pmax - 1];
     lh->b[lh->p + lh->pmax - 1] = NULL; /* 24/07-92 - eay - weird but :-( */
     if (lh->p == 0) {
         n = OPENSSL_realloc(lh->b,
                             (unsigned int)(sizeof(OPENSSL_LH_NODE *) * lh->pmax));
         if (n == NULL) {
             /* fputs("realloc error in lhash",stderr); */
             lh->error++;
             return;
         }
         lh->num_contract_reallocs++;
         lh->num_alloc_nodes /= 2;
         lh->pmax /= 2;
         lh->p = lh->pmax - 1;
         lh->b = n;
     } else
         lh->p--;

     lh->num_nodes--;
     lh->num_contracts++;

     n1 = lh->b[(int)lh->p];
     if (n1 == NULL)
         lh->b[(int)lh->p] = np;
     else {
         while (n1->next != NULL)
             n1 = n1->next;
         n1->next = np;
     }
 }

 static OPENSSL_LH_NODE **getrn(OPENSSL_LHASH *lh,
                                const void *data, unsigned long *rhash)
 {
     OPENSSL_LH_NODE **ret, *n1;
     unsigned long hash, nn;
     OPENSSL_LH_COMPFUNC cf;

     hash = (*(lh->hash)) (data);
     lh->num_hash_calls++;
     *rhash = hash;

     nn = hash % lh->pmax;
     if (nn < lh->p)
         nn = hash % lh->num_alloc_nodes;

     cf = lh->comp;
     ret = &(lh->b[(int)nn]);
     for (n1 = *ret; n1 != NULL; n1 = n1->next) {
         lh->num_hash_comps++;
         if (n1->hash != hash) {
             ret = &(n1->next);
             continue;
         }
         lh->num_comp_calls++;
         if (cf(n1->data, data) == 0)
             break;
         ret = &(n1->next);
     }
     return (ret);
 }

 /*
  * The following hash seems to work very well on normal text strings no
  * collisions on /usr/dict/words and it distributes on %2^n quite well, not
  * as good as MD5, but still good.
  */
 unsigned long OPENSSL_LH_strhash(const char *c)
 {
     unsigned long ret = 0;
     long n;
     unsigned long v;
     int r;

     if ((c == NULL) || (*c == '\0'))
         return (ret);

     n = 0x100;
     while (*c) {
         v = n | (*c);
         n += 0x100;
         r = (int)((v >> 2) ^ v) & 0x0f;
         ret = (ret << r) | (ret >> (32 - r));
         ret &= 0xFFFFFFFFL;
         ret ^= v * v;
         c++;
     }
     return ((ret >> 16) ^ ret);
 }

 unsigned long OPENSSL_LH_num_items(const OPENSSL_LHASH *lh)
 {
     return lh ? lh->num_items : 0;
 }

 unsigned long OPENSSL_LH_get_down_load(const OPENSSL_LHASH *lh)
 {
     return lh->down_load;
 }

 void OPENSSL_LH_set_down_load(OPENSSL_LHASH *lh, unsigned long down_load)
 {
     lh->down_load = down_load;
 }

 int OPENSSL_LH_error(OPENSSL_LHASH *lh)
 {
     return lh->error;
 }
	/*
	* Copyright 1995-2016 The OpenSSL Project Authors. All Rights Reserved.
	*
	* Licensed under the OpenSSL license (the "License"). You may not use
	* this file except in compliance with the License. You can obtain a copy
	* in the file LICENSE in the source distribution or at
	* https://www.openssl.org/source/license.html
	*/

	#include <stdio.h>
	#include <string.h>
	#include <stdlib.h>
	#include <openssl/crypto.h>
	#include <openssl/lhash.h>
	#include "lhash_lcl.h"


	#undef MIN_NODES
	#define MIN_NODES 16
	#define UP_LOAD (2LH_LOAD_MULT) / load times 256 (default 2) */
	#define DOWN_LOAD (LH_LOAD_MULT) /* load times 256 (default 1) */

	static int expand(OPENSSL_LHASH *lh);
	static void contract(OPENSSL_LHASH *lh);
	static OPENSSL_LH_NODE *getrn(OPENSSL_LHASH lh, const void data, unsigned long rhash);

	OPENSSL_LHASH *OPENSSL_LH_new(OPENSSL_LH_HASHFUNC h, OPENSSL_LH_COMPFUNC c)
	{
	OPENSSL_LHASH *ret;

	if ((ret = OPENSSL_zalloc(sizeof(*ret))) == NULL)
	goto err0;
	if ((ret->b = OPENSSL_zalloc(sizeof(ret->b) MIN_NODES)) == NULL)
	goto err1;
	ret->comp = ((c == NULL) ? (OPENSSL_LH_COMPFUNC)strcmp : c);
	ret->hash = ((h == NULL) ? (OPENSSL_LH_HASHFUNC)OPENSSL_LH_strhash : h);
	ret->num_nodes = MIN_NODES / 2;
	ret->num_alloc_nodes = MIN_NODES;
	ret->pmax = MIN_NODES / 2;
	ret->up_load = UP_LOAD;
	ret->down_load = DOWN_LOAD;
	return (ret);

	err1:
	OPENSSL_free(ret);
	err0:
	return (NULL);
	}

	void OPENSSL_LH_free(OPENSSL_LHASH *lh)
	{
	unsigned int i;
	OPENSSL_LH_NODE n, nn;

	if (lh == NULL)
	return;

	for (i = 0; i < lh->num_nodes; i++) {
	n = lh->b[i];
	while (n != NULL) {
	nn = n->next;
	OPENSSL_free(n);
	n = nn;
	}
	}
	OPENSSL_free(lh->b);
	OPENSSL_free(lh);
	}

	void OPENSSL_LH_insert(OPENSSL_LHASH lh, void *data)
	{
	unsigned long hash;
	OPENSSL_LH_NODE nn, *rn;
	void *ret;

	lh->error = 0;
	if ((lh->up_load <= (lh->num_items * LH_LOAD_MULT / lh->num_nodes)) && !expand(lh))
	return NULL; /* 'lh->error++' already done in 'expand' */

	rn = getrn(lh, data, &hash);

	if (*rn == NULL) {
	if ((nn = OPENSSL_malloc(sizeof(*nn))) == NULL) {
	lh->error++;
	return (NULL);
	}
	nn->data = data;
	nn->next = NULL;
	nn->hash = hash;
	*rn = nn;
	ret = NULL;
	lh->num_insert++;
	lh->num_items++;
	} else { /* replace same key */

	ret = (*rn)->data;
	(*rn)->data = data;
	lh->num_replace++;
	}
	return (ret);
	}

	void OPENSSL_LH_delete(OPENSSL_LHASH lh, const void *data)
	{
	unsigned long hash;
	OPENSSL_LH_NODE nn, *rn;
	void *ret;

	lh->error = 0;
	rn = getrn(lh, data, &hash);

	if (*rn == NULL) {
	lh->num_no_delete++;
	return (NULL);
	} else {
	nn = *rn;
	*rn = nn->next;
	ret = nn->data;
	OPENSSL_free(nn);
	lh->num_delete++;
	}

	lh->num_items--;
	if ((lh->num_nodes > MIN_NODES) &&
	(lh->down_load >= (lh->num_items * LH_LOAD_MULT / lh->num_nodes)))
	contract(lh);

	return (ret);
	}

	void OPENSSL_LH_retrieve(OPENSSL_LHASH lh, const void *data)
	{
	unsigned long hash;
	OPENSSL_LH_NODE **rn;
	void *ret;

	lh->error = 0;
	rn = getrn(lh, data, &hash);

	if (*rn == NULL) {
	lh->num_retrieve_miss++;
	return (NULL);
	} else {
	ret = (*rn)->data;
	lh->num_retrieve++;
	}
	return (ret);
	}

	static void doall_util_fn(OPENSSL_LHASH *lh, int use_arg,
	OPENSSL_LH_DOALL_FUNC func,
	OPENSSL_LH_DOALL_FUNCARG func_arg, void *arg)
	{
	int i;
	OPENSSL_LH_NODE a, n;

	if (lh == NULL)
	return;

	/*
	* reverse the order so we search from 'top to bottom' We were having
	* memory leaks otherwise
	*/
	for (i = lh->num_nodes - 1; i >= 0; i--) {
	a = lh->b[i];
	while (a != NULL) {
	n = a->next;
	if (use_arg)
	func_arg(a->data, arg);
	else
	func(a->data);
	a = n;
	}
	}
	}

	void OPENSSL_LH_doall(OPENSSL_LHASH *lh, OPENSSL_LH_DOALL_FUNC func)
	{
	doall_util_fn(lh, 0, func, (OPENSSL_LH_DOALL_FUNCARG)0, NULL);
	}

	void OPENSSL_LH_doall_arg(OPENSSL_LHASH lh, OPENSSL_LH_DOALL_FUNCARG func, void arg)
	{
	doall_util_fn(lh, 1, (OPENSSL_LH_DOALL_FUNC)0, func, arg);
	}

	static int expand(OPENSSL_LHASH *lh)
	{
	OPENSSL_LH_NODE n, n1, *n2, np;
	unsigned int p, i, j;
	unsigned long hash, nni;

	lh->num_nodes++;
	lh->num_expands++;
	p = (int)lh->p++;
	n1 = &(lh->b[p]);
	n2 = &(lh->b[p + (int)lh->pmax]);
	*n2 = NULL;
	nni = lh->num_alloc_nodes;

	for (np = *n1; np != NULL;) {
	hash = np->hash;
	if ((hash % nni) != p) { /* move it */
	n1 = (n1)->next;
	np->next = *n2;
	*n2 = np;
	} else
	n1 = &((*n1)->next);
	np = *n1;
	}

	if ((lh->p) >= lh->pmax) {
	j = (int)lh->num_alloc_nodes * 2;
	n = OPENSSL_realloc(lh->b, (int)(sizeof(OPENSSL_LH_NODE ) j));
	if (n == NULL) {
	lh->error++;
	lh->num_nodes--;
	lh->p = 0;
	return 0;
	}
	for (i = (int)lh->num_alloc_nodes; i < j; i++) /* 26/02/92 eay */
	n[i] = NULL; /* 02/03/92 eay */
	lh->pmax = lh->num_alloc_nodes;
	lh->num_alloc_nodes = j;
	lh->num_expand_reallocs++;
	lh->p = 0;
	lh->b = n;
	}
	return 1;
	}

	static void contract(OPENSSL_LHASH *lh)
	{
	OPENSSL_LH_NODE *n, n1, *np;

	np = lh->b[lh->p + lh->pmax - 1];
	lh->b[lh->p + lh->pmax - 1] = NULL; /* 24/07-92 - eay - weird but :-( */
	if (lh->p == 0) {
	n = OPENSSL_realloc(lh->b,
	(unsigned int)(sizeof(OPENSSL_LH_NODE ) lh->pmax));
	if (n == NULL) {
	/* fputs("realloc error in lhash",stderr); */
	lh->error++;
	return;
	}
	lh->num_contract_reallocs++;
	lh->num_alloc_nodes /= 2;
	lh->pmax /= 2;
	lh->p = lh->pmax - 1;
	lh->b = n;
	} else
	lh->p--;

	lh->num_nodes--;
	lh->num_contracts++;

	n1 = lh->b[(int)lh->p];
	if (n1 == NULL)
	lh->b[(int)lh->p] = np;
	else {
	while (n1->next != NULL)
	n1 = n1->next;
	n1->next = np;
	}
	}

	static OPENSSL_LH_NODE *getrn(OPENSSL_LHASH lh,
	const void data, unsigned long rhash)
	{
	OPENSSL_LH_NODE *ret, n1;
	unsigned long hash, nn;
	OPENSSL_LH_COMPFUNC cf;

	hash = (*(lh->hash)) (data);
	lh->num_hash_calls++;
	*rhash = hash;

	nn = hash % lh->pmax;
	if (nn < lh->p)
	nn = hash % lh->num_alloc_nodes;

	cf = lh->comp;
	ret = &(lh->b[(int)nn]);
	for (n1 = *ret; n1 != NULL; n1 = n1->next) {
	lh->num_hash_comps++;
	if (n1->hash != hash) {
	ret = &(n1->next);
	continue;
	}
	lh->num_comp_calls++;
	if (cf(n1->data, data) == 0)
	break;
	ret = &(n1->next);
	}
	return (ret);
	}

	/*
	* The following hash seems to work very well on normal text strings no
	* collisions on /usr/dict/words and it distributes on %2^n quite well, not
	* as good as MD5, but still good.
	*/
	unsigned long OPENSSL_LH_strhash(const char *c)
	{
	unsigned long ret = 0;
	long n;
	unsigned long v;
	int r;

	if ((c == NULL) \|\| (*c == '\0'))
	return (ret);

	n = 0x100;
	while (*c) {
	v = n \| (*c);
	n += 0x100;
	r = (int)((v >> 2) ^ v) & 0x0f;
	ret = (ret << r) \| (ret >> (32 - r));
	ret &= 0xFFFFFFFFL;
	ret ^= v * v;
	c++;
	}
	return ((ret >> 16) ^ ret);
	}

	unsigned long OPENSSL_LH_num_items(const OPENSSL_LHASH *lh)
	{
	return lh ? lh->num_items : 0;
	}

	unsigned long OPENSSL_LH_get_down_load(const OPENSSL_LHASH *lh)
	{
	return lh->down_load;
	}

	void OPENSSL_LH_set_down_load(OPENSSL_LHASH *lh, unsigned long down_load)
	{
	lh->down_load = down_load;
	}

	int OPENSSL_LH_error(OPENSSL_LHASH *lh)
	{
	return lh->error;
	}