src/hash_table.c - github/CESNET/libyang - Gitiles

 /**
  * @file hash_table.c
  * @author Radek Krejci <rkrejci@cesnet.cz>
  * @author Michal Vasko <mvasko@cesnet.cz>
  * @brief libyang generic hash table implementation
  *
  * Copyright (c) 2015 - 2023 CESNET, z.s.p.o.
  *
  * This source code is licensed under BSD 3-Clause License (the "License").
  * You may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     https://opensource.org/licenses/BSD-3-Clause
  */

 #include "hash_table.h"

 #include <assert.h>
 #include <pthread.h>
 #include <stdint.h>
 #include <stdlib.h>
 #include <string.h>

 #include "common.h"
 #include "compat.h"
 #include "dict.h"
 #include "log.h"

 LIBYANG_API_DEF uint32_t
 lyht_hash_multi(uint32_t hash, const char *key_part, size_t len)
 {
     uint32_t i;

     if (key_part && len) {
         for (i = 0; i < len; ++i) {
             hash += key_part[i];
             hash += (hash << 10);
             hash ^= (hash >> 6);
         }
     } else {
         hash += (hash << 3);
         hash ^= (hash >> 11);
         hash += (hash << 15);
     }

     return hash;
 }

 LIBYANG_API_DEF uint32_t
 lyht_hash(const char *key, size_t len)
 {
     uint32_t hash;

     hash = lyht_hash_multi(0, key, len);
     return lyht_hash_multi(hash, NULL, len);
 }

 struct ly_ht_rec *
 lyht_get_rec(unsigned char *recs, uint16_t rec_size, uint32_t idx)
 {
     return (struct ly_ht_rec *)&recs[idx * rec_size];
 }

 LIBYANG_API_DEF struct ly_ht *
 lyht_new(uint32_t size, uint16_t val_size, lyht_value_equal_cb val_equal, void *cb_data, uint16_t resize)
 {
     struct ly_ht *ht;

     /* check that 2^x == size (power of 2) */
     assert(size && !(size & (size - 1)));
     assert(val_equal && val_size);
     assert(resize == 0 || resize == 1);

     if (size < LYHT_MIN_SIZE) {
         size = LYHT_MIN_SIZE;
     }

     ht = malloc(sizeof *ht);
     LY_CHECK_ERR_RET(!ht, LOGMEM(NULL), NULL);

     ht->used = 0;
     ht->size = size;
     ht->invalid = 0;
     ht->val_equal = val_equal;
     ht->cb_data = cb_data;
     ht->resize = resize;

     ht->rec_size = (sizeof(struct ly_ht_rec) - 1) + val_size;
     /* allocate the records correctly */
     ht->recs = calloc(size, ht->rec_size);
     LY_CHECK_ERR_RET(!ht->recs, free(ht); LOGMEM(NULL), NULL);

     return ht;
 }

 LIBYANG_API_DEF lyht_value_equal_cb
 lyht_set_cb(struct ly_ht *ht, lyht_value_equal_cb new_val_equal)
 {
     lyht_value_equal_cb prev;

     prev = ht->val_equal;
     ht->val_equal = new_val_equal;
     return prev;
 }

 LIBYANG_API_DEF void *
 lyht_set_cb_data(struct ly_ht *ht, void *new_cb_data)
 {
     void *prev;

     prev = ht->cb_data;
     ht->cb_data = new_cb_data;
     return prev;
 }

 LIBYANG_API_DEF struct ly_ht *
 lyht_dup(const struct ly_ht *orig)
 {
     struct ly_ht *ht;

     LY_CHECK_ARG_RET(NULL, orig, NULL);

     ht = lyht_new(orig->size, orig->rec_size - (sizeof(struct ly_ht_rec) - 1), orig->val_equal, orig->cb_data, orig->resize ? 1 : 0);
     if (!ht) {
         return NULL;
     }

     memcpy(ht->recs, orig->recs, (size_t)orig->used * (size_t)orig->rec_size);
     ht->used = orig->used;
     ht->invalid = orig->invalid;
     return ht;
 }

 LIBYANG_API_DEF void
 lyht_free(struct ly_ht *ht, void (*val_free)(void *val_p))
 {
     struct ly_ht_rec *rec;
     uint32_t i;

     if (!ht) {
         return;
     }

     if (val_free) {
         for (i = 0; i < ht->size; ++i) {
             rec = lyht_get_rec(ht->recs, ht->rec_size, i);
             if (rec->hits > 0) {
                 val_free(&rec->val);
             }
         }
     }
     free(ht->recs);
     free(ht);
 }

 /**
  * @brief Resize a hash table.
  *
  * @param[in] ht Hash table to resize.
  * @param[in] operation Operation to perform. 1 to enlarge, -1 to shrink, 0 to only rehash all records.
  * @return LY_ERR value.
  */
 static LY_ERR
 lyht_resize(struct ly_ht *ht, int operation)
 {
     struct ly_ht_rec *rec;
     unsigned char *old_recs;
     uint32_t i, old_size;

     old_recs = ht->recs;
     old_size = ht->size;

     if (operation > 0) {
         /* double the size */
         ht->size <<= 1;
     } else if (operation < 0) {
         /* half the size */
         ht->size >>= 1;
     }

     ht->recs = calloc(ht->size, ht->rec_size);
     LY_CHECK_ERR_RET(!ht->recs, LOGMEM(NULL); ht->recs = old_recs; ht->size = old_size, LY_EMEM);

     /* reset used and invalid, it will increase again */
     ht->used = 0;
     ht->invalid = 0;

     /* add all the old records into the new records array */
     for (i = 0; i < old_size; ++i) {
         rec = lyht_get_rec(old_recs, ht->rec_size, i);
         if (rec->hits > 0) {
             LY_ERR ret = lyht_insert(ht, rec->val, rec->hash, NULL);

             assert(!ret);
             (void)ret;
         }
     }

     /* final touches */
     free(old_recs);
     return LY_SUCCESS;
 }

 /**
  * @brief Search for the first match.
  *
  * @param[in] ht Hash table to search in.
  * @param[in] hash Hash to find.
  * @param[out] rec_p Optional found record.
  * @return LY_SUCCESS hash found, returned its record,
  * @return LY_ENOTFOUND hash not found, returned the record where it would be inserted.
  */
 static LY_ERR
 lyht_find_first(struct ly_ht *ht, uint32_t hash, struct ly_ht_rec **rec_p)
 {
     struct ly_ht_rec *rec;
     uint32_t i, idx;

     if (rec_p) {
         *rec_p = NULL;
     }

     idx = i = hash & (ht->size - 1);
     rec = lyht_get_rec(ht->recs, ht->rec_size, idx);

     /* skip through overflow and deleted records */
     while ((rec->hits != 0) && ((rec->hits == -1) || ((rec->hash & (ht->size - 1)) != idx))) {
         if ((rec->hits == -1) && rec_p && !(*rec_p)) {
             /* remember this record for return */
             *rec_p = rec;
         }
         i = (i + 1) % ht->size;
         if (i == idx) {
             /* we went through all the records (very unlikely, but possible when many records are invalid),
              * just return not found */
             assert(!rec_p || *rec_p);
             return LY_ENOTFOUND;
         }
         rec = lyht_get_rec(ht->recs, ht->rec_size, i);
     }
     if (rec->hits == 0) {
         /* we could not find the value */
         if (rec_p && !*rec_p) {
             *rec_p = rec;
         }
         return LY_ENOTFOUND;
     }

     /* we have found a record with equal (shortened) hash */
     if (rec_p) {
         *rec_p = rec;
     }
     return LY_SUCCESS;
 }

 /**
  * @brief Search for the next collision.
  *
  * @param[in] ht Hash table to search in.
  * @param[in,out] last Last returned collision record.
  * @param[in] first First collision record (hits > 1).
  * @return LY_SUCCESS when hash collision found, \p last points to this next collision,
  * @return LY_ENOTFOUND when hash collision not found, \p last points to the record where it would be inserted.
  */
 static LY_ERR
 lyht_find_collision(struct ly_ht *ht, struct ly_ht_rec **last, struct ly_ht_rec *first)
 {
     struct ly_ht_rec *empty = NULL;
     uint32_t i, idx;

     assert(last && *last);

     idx = (*last)->hash & (ht->size - 1);
     i = (((unsigned char *)*last) - ht->recs) / ht->rec_size;

     do {
         i = (i + 1) % ht->size;
         *last = lyht_get_rec(ht->recs, ht->rec_size, i);
         if (*last == first) {
             /* we went through all the records (very unlikely, but possible when many records are invalid),
              * just return an invalid record */
             assert(empty);
             *last = empty;
             return LY_ENOTFOUND;
         }

         if (((*last)->hits == -1) && !empty) {
             empty = *last;
         }
     } while (((*last)->hits != 0) && (((*last)->hits == -1) || (((*last)->hash & (ht->size - 1)) != idx)));

     if ((*last)->hits > 0) {
         /* we found a collision */
         assert((*last)->hits == 1);
         return LY_SUCCESS;
     }

     /* no next collision found, return the record where it would be inserted */
     if (empty) {
         *last = empty;
     } /* else (*last)->hits == 0, it is already correct */
     return LY_ENOTFOUND;
 }

 /**
  * @brief Search for a record with specific value and hash.
  *
  * @param[in] ht Hash table to search in.
  * @param[in] val_p Pointer to the value to find.
  * @param[in] hash Hash to find.
  * @param[in] mod Whether the operation modifies the hash table (insert or remove) or not (find).
  * @param[out] crec_p Optional found first record.
  * @param[out] col Optional collision number of @p rec_p, 0 for no collision.
  * @param[out] rec_p Found exact matching record, may be a collision of @p crec_p.
  * @return LY_ENOTFOUND if no record found,
  * @return LY_SUCCESS if record was found.
  */
 static LY_ERR
 lyht_find_rec(struct ly_ht *ht, void *val_p, uint32_t hash, ly_bool mod, struct ly_ht_rec **crec_p, uint32_t *col,
         struct ly_ht_rec **rec_p)
 {
     struct ly_ht_rec *rec, *crec;
     uint32_t i, c;
     LY_ERR r;

     if (crec_p) {
         *crec_p = NULL;
     }
     if (col) {
         *col = 0;
     }
     *rec_p = NULL;

     if (lyht_find_first(ht, hash, &rec)) {
         /* not found */
         return LY_ENOTFOUND;
     }
     if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, mod, ht->cb_data)) {
         /* even the value matches */
         if (crec_p) {
             *crec_p = rec;
         }
         if (col) {
             *col = 0;
         }
         *rec_p = rec;
         return LY_SUCCESS;
     }

     /* some collisions, we need to go through them, too */
     crec = rec;
     c = crec->hits;
     for (i = 1; i < c; ++i) {
         r = lyht_find_collision(ht, &rec, crec);
         assert(!r);
         (void)r;

         /* compare values */
         if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, mod, ht->cb_data)) {
             if (crec_p) {
                 *crec_p = crec;
             }
             if (col) {
                 *col = i;
             }
             *rec_p = rec;
             return LY_SUCCESS;
         }
     }

     /* not found even in collisions */
     return LY_ENOTFOUND;
 }

 LIBYANG_API_DEF LY_ERR
 lyht_find(struct ly_ht *ht, void *val_p, uint32_t hash, void **match_p)
 {
     struct ly_ht_rec *rec;

     lyht_find_rec(ht, val_p, hash, 0, NULL, NULL, &rec);

     if (rec && match_p) {
         *match_p = rec->val;
     }
     return rec ? LY_SUCCESS : LY_ENOTFOUND;
 }

 LIBYANG_API_DEF LY_ERR
 lyht_find_next_with_collision_cb(struct ly_ht *ht, void *val_p, uint32_t hash,
         lyht_value_equal_cb collision_val_equal, void **match_p)
 {
     struct ly_ht_rec *rec, *crec;
     uint32_t i, c;
     LY_ERR r;

     /* find the record of the previously found value */
     if (lyht_find_rec(ht, val_p, hash, 1, &crec, &i, &rec)) {
         /* not found, cannot happen */
         LOGINT_RET(NULL);
     }

     /* go through collisions and find the next one after the previous one */
     c = crec->hits;
     for (++i; i < c; ++i) {
         r = lyht_find_collision(ht, &rec, crec);
         assert(!r);
         (void)r;

         if (rec->hash != hash) {
             continue;
         }

         if (collision_val_equal) {
             if (collision_val_equal(val_p, &rec->val, 0, ht->cb_data)) {
                 /* even the value matches */
                 if (match_p) {
                     *match_p = rec->val;
                 }
                 return LY_SUCCESS;
             }
         } else if (ht->val_equal(val_p, &rec->val, 0, ht->cb_data)) {
             /* even the value matches */
             if (match_p) {
                 *match_p = rec->val;
             }
             return LY_SUCCESS;
         }
     }

     /* the last equal value was already returned */
     return LY_ENOTFOUND;
 }

 LIBYANG_API_DEF LY_ERR
 lyht_find_next(struct ly_ht *ht, void *val_p, uint32_t hash, void **match_p)
 {
     return lyht_find_next_with_collision_cb(ht, val_p, hash, NULL, match_p);
 }

 LIBYANG_API_DEF LY_ERR
 lyht_insert_with_resize_cb(struct ly_ht *ht, void *val_p, uint32_t hash, lyht_value_equal_cb resize_val_equal,
         void **match_p)
 {
     LY_ERR r, ret = LY_SUCCESS;
     struct ly_ht_rec *rec, *crec = NULL;
     int32_t i;
     lyht_value_equal_cb old_val_equal = NULL;

     if (!lyht_find_first(ht, hash, &rec)) {
         /* we found matching shortened hash */
         if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
             /* even the value matches */
             if (match_p) {
                 *match_p = (void *)&rec->val;
             }
             return LY_EEXIST;
         }

         /* some collisions, we need to go through them, too */
         crec = rec;
         for (i = 1; i < crec->hits; ++i) {
             r = lyht_find_collision(ht, &rec, crec);
             assert(!r);

             /* compare values */
             if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
                 if (match_p) {
                     *match_p = (void *)&rec->val;
                 }
                 return LY_EEXIST;
             }
         }

         /* value not found, get the record where it will be inserted */
         r = lyht_find_collision(ht, &rec, crec);
         assert(r);
     }

     /* insert it into the returned record */
     assert(rec->hits < 1);
     if (rec->hits < 0) {
         --ht->invalid;
     }
     rec->hash = hash;
     rec->hits = 1;
     memcpy(&rec->val, val_p, ht->rec_size - (sizeof(struct ly_ht_rec) - 1));
     if (match_p) {
         *match_p = (void *)&rec->val;
     }

     if (crec) {
         /* there was a collision, increase hits */
         if (crec->hits == INT32_MAX) {
             LOGINT(NULL);
         }
         ++crec->hits;
     }

     /* check size & enlarge if needed */
     ++ht->used;
     if (ht->resize) {
         r = (ht->used * LYHT_HUNDRED_PERCENTAGE) / ht->size;
         if ((ht->resize == 1) && (r >= LYHT_FIRST_SHRINK_PERCENTAGE)) {
             /* enable shrinking */
             ht->resize = 2;
         }
         if ((ht->resize == 2) && (r >= LYHT_ENLARGE_PERCENTAGE)) {
             if (resize_val_equal) {
                 old_val_equal = lyht_set_cb(ht, resize_val_equal);
             }

             /* enlarge */
             ret = lyht_resize(ht, 1);
             /* if hash_table was resized, we need to find new matching value */
             if ((ret == LY_SUCCESS) && match_p) {
                 lyht_find(ht, val_p, hash, match_p);
             }

             if (resize_val_equal) {
                 lyht_set_cb(ht, old_val_equal);
             }
         }
     }
     return ret;
 }

 LIBYANG_API_DEF LY_ERR
 lyht_insert(struct ly_ht *ht, void *val_p, uint32_t hash, void **match_p)
 {
     return lyht_insert_with_resize_cb(ht, val_p, hash, NULL, match_p);
 }

 LIBYANG_API_DEF LY_ERR
 lyht_remove_with_resize_cb(struct ly_ht *ht, void *val_p, uint32_t hash, lyht_value_equal_cb resize_val_equal)
 {
     struct ly_ht_rec *rec, *crec;
     int32_t i;
     ly_bool first_matched = 0;
     LY_ERR r, ret = LY_SUCCESS;
     lyht_value_equal_cb old_val_equal;

     LY_CHECK_ERR_RET(lyht_find_first(ht, hash, &rec), LOGARG(NULL, hash), LY_ENOTFOUND); /* hash not found */

     if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
         /* even the value matches */
         first_matched = 1;
     }

     /* we always need to go through collisions */
     crec = rec;
     for (i = 1; i < crec->hits; ++i) {
         r = lyht_find_collision(ht, &rec, crec);
         assert(!r);

         /* compare values */
         if (!first_matched && (rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
             break;
         }
     }

     if (i < crec->hits) {
         /* one of collisions matched, reduce collision count, remove the record */
         assert(!first_matched);
         --crec->hits;
         rec->hits = -1;
     } else if (first_matched) {
         /* the first record matches */
         if (crec != rec) {
             /* ... so put the last collision in its place */
             rec->hits = crec->hits - 1;
             memcpy(crec, rec, ht->rec_size);
         }
         rec->hits = -1;
     } else {
         /* value not found even in collisions */
         return LY_ENOTFOUND;
     }

     /* check size & shrink if needed */
     --ht->used;
     ++ht->invalid;
     if (ht->resize == 2) {
         r = (ht->used * LYHT_HUNDRED_PERCENTAGE) / ht->size;
         if ((r < LYHT_SHRINK_PERCENTAGE) && (ht->size > LYHT_MIN_SIZE)) {
             if (resize_val_equal) {
                 old_val_equal = lyht_set_cb(ht, resize_val_equal);
             }

             /* shrink */
             ret = lyht_resize(ht, -1);

             if (resize_val_equal) {
                 lyht_set_cb(ht, old_val_equal);
             }
         }
     }

     /* rehash all records if needed */
     r = ((ht->size - ht->used - ht->invalid) * 100) / ht->size;
     if (r < LYHT_REHASH_PERCENTAGE) {
         if (resize_val_equal) {
             old_val_equal = lyht_set_cb(ht, resize_val_equal);
         }

         /* rehash */
         ret = lyht_resize(ht, 0);

         if (resize_val_equal) {
             lyht_set_cb(ht, old_val_equal);
         }
     }

     return ret;
 }

 LIBYANG_API_DEF LY_ERR
 lyht_remove(struct ly_ht *ht, void *val_p, uint32_t hash)
 {
     return lyht_remove_with_resize_cb(ht, val_p, hash, NULL);
 }

 LIBYANG_API_DEF uint32_t
 lyht_get_fixed_size(uint32_t item_count)
 {
     uint32_t i, size = 0;

     /* detect number of upper zero bits in the items' counter value ... */
     for (i = (sizeof item_count * CHAR_BIT) - 1; i > 0; i--) {
         size = item_count << i;
         size = size >> i;
         if (size == item_count) {
             break;
         }
     }
     assert(i);

     /* ... and then we convert it to the position of the highest non-zero bit ... */
     i = (sizeof item_count * CHAR_BIT) - i;

     /* ... and by using it to shift 1 to the left we get the closest sufficient hash table size */
     size = 1 << i;

     return size;
 }
	/**
	* @file hash_table.c
	* @author Radek Krejci <rkrejci@cesnet.cz>
	* @author Michal Vasko <mvasko@cesnet.cz>
	* @brief libyang generic hash table implementation
	*
	* Copyright (c) 2015 - 2023 CESNET, z.s.p.o.
	*
	* This source code is licensed under BSD 3-Clause License (the "License").
	* You may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* https://opensource.org/licenses/BSD-3-Clause
	*/

	#include "hash_table.h"

	#include <assert.h>
	#include <pthread.h>
	#include <stdint.h>
	#include <stdlib.h>
	#include <string.h>

	#include "common.h"
	#include "compat.h"
	#include "dict.h"
	#include "log.h"

	LIBYANG_API_DEF uint32_t
	lyht_hash_multi(uint32_t hash, const char *key_part, size_t len)
	{
	uint32_t i;

	if (key_part && len) {
	for (i = 0; i < len; ++i) {
	hash += key_part[i];
	hash += (hash << 10);
	hash ^= (hash >> 6);
	}
	} else {
	hash += (hash << 3);
	hash ^= (hash >> 11);
	hash += (hash << 15);
	}

	return hash;
	}

	LIBYANG_API_DEF uint32_t
	lyht_hash(const char *key, size_t len)
	{
	uint32_t hash;

	hash = lyht_hash_multi(0, key, len);
	return lyht_hash_multi(hash, NULL, len);
	}

	struct ly_ht_rec *
	lyht_get_rec(unsigned char *recs, uint16_t rec_size, uint32_t idx)
	{
	return (struct ly_ht_rec )&recs[idx rec_size];
	}

	LIBYANG_API_DEF struct ly_ht *
	lyht_new(uint32_t size, uint16_t val_size, lyht_value_equal_cb val_equal, void *cb_data, uint16_t resize)
	{
	struct ly_ht *ht;

	/* check that 2^x == size (power of 2) */
	assert(size && !(size & (size - 1)));
	assert(val_equal && val_size);
	assert(resize == 0 \|\| resize == 1);

	if (size < LYHT_MIN_SIZE) {
	size = LYHT_MIN_SIZE;
	}

	ht = malloc(sizeof *ht);
	LY_CHECK_ERR_RET(!ht, LOGMEM(NULL), NULL);

	ht->used = 0;
	ht->size = size;
	ht->invalid = 0;
	ht->val_equal = val_equal;
	ht->cb_data = cb_data;
	ht->resize = resize;

	ht->rec_size = (sizeof(struct ly_ht_rec) - 1) + val_size;
	/* allocate the records correctly */
	ht->recs = calloc(size, ht->rec_size);
	LY_CHECK_ERR_RET(!ht->recs, free(ht); LOGMEM(NULL), NULL);

	return ht;
	}

	LIBYANG_API_DEF lyht_value_equal_cb
	lyht_set_cb(struct ly_ht *ht, lyht_value_equal_cb new_val_equal)
	{
	lyht_value_equal_cb prev;

	prev = ht->val_equal;
	ht->val_equal = new_val_equal;
	return prev;
	}

	LIBYANG_API_DEF void *
	lyht_set_cb_data(struct ly_ht ht, void new_cb_data)
	{
	void *prev;

	prev = ht->cb_data;
	ht->cb_data = new_cb_data;
	return prev;
	}

	LIBYANG_API_DEF struct ly_ht *
	lyht_dup(const struct ly_ht *orig)
	{
	struct ly_ht *ht;

	LY_CHECK_ARG_RET(NULL, orig, NULL);

	ht = lyht_new(orig->size, orig->rec_size - (sizeof(struct ly_ht_rec) - 1), orig->val_equal, orig->cb_data, orig->resize ? 1 : 0);
	if (!ht) {
	return NULL;
	}

	memcpy(ht->recs, orig->recs, (size_t)orig->used * (size_t)orig->rec_size);
	ht->used = orig->used;
	ht->invalid = orig->invalid;
	return ht;
	}

	LIBYANG_API_DEF void
	lyht_free(struct ly_ht ht, void (val_free)(void *val_p))
	{
	struct ly_ht_rec *rec;
	uint32_t i;

	if (!ht) {
	return;
	}

	if (val_free) {
	for (i = 0; i < ht->size; ++i) {
	rec = lyht_get_rec(ht->recs, ht->rec_size, i);
	if (rec->hits > 0) {
	val_free(&rec->val);
	}
	}
	}
	free(ht->recs);
	free(ht);
	}

	/**
	* @brief Resize a hash table.
	*
	* @param[in] ht Hash table to resize.
	* @param[in] operation Operation to perform. 1 to enlarge, -1 to shrink, 0 to only rehash all records.
	* @return LY_ERR value.
	*/
	static LY_ERR
	lyht_resize(struct ly_ht *ht, int operation)
	{
	struct ly_ht_rec *rec;
	unsigned char *old_recs;
	uint32_t i, old_size;

	old_recs = ht->recs;
	old_size = ht->size;

	if (operation > 0) {
	/* double the size */
	ht->size <<= 1;
	} else if (operation < 0) {
	/* half the size */
	ht->size >>= 1;
	}

	ht->recs = calloc(ht->size, ht->rec_size);
	LY_CHECK_ERR_RET(!ht->recs, LOGMEM(NULL); ht->recs = old_recs; ht->size = old_size, LY_EMEM);

	/* reset used and invalid, it will increase again */
	ht->used = 0;
	ht->invalid = 0;

	/* add all the old records into the new records array */
	for (i = 0; i < old_size; ++i) {
	rec = lyht_get_rec(old_recs, ht->rec_size, i);
	if (rec->hits > 0) {
	LY_ERR ret = lyht_insert(ht, rec->val, rec->hash, NULL);

	assert(!ret);
	(void)ret;
	}
	}

	/* final touches */
	free(old_recs);
	return LY_SUCCESS;
	}

	/**
	* @brief Search for the first match.
	*
	* @param[in] ht Hash table to search in.
	* @param[in] hash Hash to find.
	* @param[out] rec_p Optional found record.
	* @return LY_SUCCESS hash found, returned its record,
	* @return LY_ENOTFOUND hash not found, returned the record where it would be inserted.
	*/
	static LY_ERR
	lyht_find_first(struct ly_ht ht, uint32_t hash, struct ly_ht_rec *rec_p)
	{
	struct ly_ht_rec *rec;
	uint32_t i, idx;

	if (rec_p) {
	*rec_p = NULL;
	}

	idx = i = hash & (ht->size - 1);
	rec = lyht_get_rec(ht->recs, ht->rec_size, idx);

	/* skip through overflow and deleted records */
	while ((rec->hits != 0) && ((rec->hits == -1) \|\| ((rec->hash & (ht->size - 1)) != idx))) {
	if ((rec->hits == -1) && rec_p && !(*rec_p)) {
	/* remember this record for return */
	*rec_p = rec;
	}
	i = (i + 1) % ht->size;
	if (i == idx) {
	/* we went through all the records (very unlikely, but possible when many records are invalid),
	* just return not found */
	assert(!rec_p \|\| *rec_p);
	return LY_ENOTFOUND;
	}
	rec = lyht_get_rec(ht->recs, ht->rec_size, i);
	}
	if (rec->hits == 0) {
	/* we could not find the value */
	if (rec_p && !*rec_p) {
	*rec_p = rec;
	}
	return LY_ENOTFOUND;
	}

	/* we have found a record with equal (shortened) hash */
	if (rec_p) {
	*rec_p = rec;
	}
	return LY_SUCCESS;
	}

	/**
	* @brief Search for the next collision.
	*
	* @param[in] ht Hash table to search in.
	* @param[in,out] last Last returned collision record.
	* @param[in] first First collision record (hits > 1).
	* @return LY_SUCCESS when hash collision found, \p last points to this next collision,
	* @return LY_ENOTFOUND when hash collision not found, \p last points to the record where it would be inserted.
	*/
	static LY_ERR
	lyht_find_collision(struct ly_ht ht, struct ly_ht_rec last, struct ly_ht_rec first)
	{
	struct ly_ht_rec *empty = NULL;
	uint32_t i, idx;

	assert(last && *last);

	idx = (*last)->hash & (ht->size - 1);
	i = (((unsigned char )last) - ht->recs) / ht->rec_size;

	do {
	i = (i + 1) % ht->size;
	*last = lyht_get_rec(ht->recs, ht->rec_size, i);
	if (*last == first) {
	/* we went through all the records (very unlikely, but possible when many records are invalid),
	* just return an invalid record */
	assert(empty);
	*last = empty;
	return LY_ENOTFOUND;
	}

	if (((*last)->hits == -1) && !empty) {
	empty = *last;
	}
	} while (((last)->hits != 0) && (((last)->hits == -1) \|\| (((*last)->hash & (ht->size - 1)) != idx)));

	if ((*last)->hits > 0) {
	/* we found a collision */
	assert((*last)->hits == 1);
	return LY_SUCCESS;
	}

	/* no next collision found, return the record where it would be inserted */
	if (empty) {
	*last = empty;
	} /* else (last)->hits == 0, it is already correct /
	return LY_ENOTFOUND;
	}

	/**
	* @brief Search for a record with specific value and hash.
	*
	* @param[in] ht Hash table to search in.
	* @param[in] val_p Pointer to the value to find.
	* @param[in] hash Hash to find.
	* @param[in] mod Whether the operation modifies the hash table (insert or remove) or not (find).
	* @param[out] crec_p Optional found first record.
	* @param[out] col Optional collision number of @p rec_p, 0 for no collision.
	* @param[out] rec_p Found exact matching record, may be a collision of @p crec_p.
	* @return LY_ENOTFOUND if no record found,
	* @return LY_SUCCESS if record was found.
	*/
	static LY_ERR
	lyht_find_rec(struct ly_ht ht, void val_p, uint32_t hash, ly_bool mod, struct ly_ht_rec *crec_p, uint32_t col,
	struct ly_ht_rec **rec_p)
	{
	struct ly_ht_rec rec, crec;
	uint32_t i, c;
	LY_ERR r;

	if (crec_p) {
	*crec_p = NULL;
	}
	if (col) {
	*col = 0;
	}
	*rec_p = NULL;

	if (lyht_find_first(ht, hash, &rec)) {
	/* not found */
	return LY_ENOTFOUND;
	}
	if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, mod, ht->cb_data)) {
	/* even the value matches */
	if (crec_p) {
	*crec_p = rec;
	}
	if (col) {
	*col = 0;
	}
	*rec_p = rec;
	return LY_SUCCESS;
	}

	/* some collisions, we need to go through them, too */
	crec = rec;
	c = crec->hits;
	for (i = 1; i < c; ++i) {
	r = lyht_find_collision(ht, &rec, crec);
	assert(!r);
	(void)r;

	/* compare values */
	if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, mod, ht->cb_data)) {
	if (crec_p) {
	*crec_p = crec;
	}
	if (col) {
	*col = i;
	}
	*rec_p = rec;
	return LY_SUCCESS;
	}
	}

	/* not found even in collisions */
	return LY_ENOTFOUND;
	}

	LIBYANG_API_DEF LY_ERR
	lyht_find(struct ly_ht ht, void val_p, uint32_t hash, void **match_p)
	{
	struct ly_ht_rec *rec;

	lyht_find_rec(ht, val_p, hash, 0, NULL, NULL, &rec);

	if (rec && match_p) {
	*match_p = rec->val;
	}
	return rec ? LY_SUCCESS : LY_ENOTFOUND;
	}

	LIBYANG_API_DEF LY_ERR
	lyht_find_next_with_collision_cb(struct ly_ht ht, void val_p, uint32_t hash,
	lyht_value_equal_cb collision_val_equal, void **match_p)
	{
	struct ly_ht_rec rec, crec;
	uint32_t i, c;
	LY_ERR r;

	/* find the record of the previously found value */
	if (lyht_find_rec(ht, val_p, hash, 1, &crec, &i, &rec)) {
	/* not found, cannot happen */
	LOGINT_RET(NULL);
	}

	/* go through collisions and find the next one after the previous one */
	c = crec->hits;
	for (++i; i < c; ++i) {
	r = lyht_find_collision(ht, &rec, crec);
	assert(!r);
	(void)r;

	if (rec->hash != hash) {
	continue;
	}

	if (collision_val_equal) {
	if (collision_val_equal(val_p, &rec->val, 0, ht->cb_data)) {
	/* even the value matches */
	if (match_p) {
	*match_p = rec->val;
	}
	return LY_SUCCESS;
	}
	} else if (ht->val_equal(val_p, &rec->val, 0, ht->cb_data)) {
	/* even the value matches */
	if (match_p) {
	*match_p = rec->val;
	}
	return LY_SUCCESS;
	}
	}

	/* the last equal value was already returned */
	return LY_ENOTFOUND;
	}

	LIBYANG_API_DEF LY_ERR
	lyht_find_next(struct ly_ht ht, void val_p, uint32_t hash, void **match_p)
	{
	return lyht_find_next_with_collision_cb(ht, val_p, hash, NULL, match_p);
	}

	LIBYANG_API_DEF LY_ERR
	lyht_insert_with_resize_cb(struct ly_ht ht, void val_p, uint32_t hash, lyht_value_equal_cb resize_val_equal,
	void **match_p)
	{
	LY_ERR r, ret = LY_SUCCESS;
	struct ly_ht_rec rec, crec = NULL;
	int32_t i;
	lyht_value_equal_cb old_val_equal = NULL;

	if (!lyht_find_first(ht, hash, &rec)) {
	/* we found matching shortened hash */
	if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
	/* even the value matches */
	if (match_p) {
	match_p = (void )&rec->val;
	}
	return LY_EEXIST;
	}

	/* some collisions, we need to go through them, too */
	crec = rec;
	for (i = 1; i < crec->hits; ++i) {
	r = lyht_find_collision(ht, &rec, crec);
	assert(!r);

	/* compare values */
	if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
	if (match_p) {
	match_p = (void )&rec->val;
	}
	return LY_EEXIST;
	}
	}

	/* value not found, get the record where it will be inserted */
	r = lyht_find_collision(ht, &rec, crec);
	assert(r);
	}

	/* insert it into the returned record */
	assert(rec->hits < 1);
	if (rec->hits < 0) {
	--ht->invalid;
	}
	rec->hash = hash;
	rec->hits = 1;
	memcpy(&rec->val, val_p, ht->rec_size - (sizeof(struct ly_ht_rec) - 1));
	if (match_p) {
	match_p = (void )&rec->val;
	}

	if (crec) {
	/* there was a collision, increase hits */
	if (crec->hits == INT32_MAX) {
	LOGINT(NULL);
	}
	++crec->hits;
	}

	/* check size & enlarge if needed */
	++ht->used;
	if (ht->resize) {
	r = (ht->used * LYHT_HUNDRED_PERCENTAGE) / ht->size;
	if ((ht->resize == 1) && (r >= LYHT_FIRST_SHRINK_PERCENTAGE)) {
	/* enable shrinking */
	ht->resize = 2;
	}
	if ((ht->resize == 2) && (r >= LYHT_ENLARGE_PERCENTAGE)) {
	if (resize_val_equal) {
	old_val_equal = lyht_set_cb(ht, resize_val_equal);
	}

	/* enlarge */
	ret = lyht_resize(ht, 1);
	/* if hash_table was resized, we need to find new matching value */
	if ((ret == LY_SUCCESS) && match_p) {
	lyht_find(ht, val_p, hash, match_p);
	}

	if (resize_val_equal) {
	lyht_set_cb(ht, old_val_equal);
	}
	}
	}
	return ret;
	}

	LIBYANG_API_DEF LY_ERR
	lyht_insert(struct ly_ht ht, void val_p, uint32_t hash, void **match_p)
	{
	return lyht_insert_with_resize_cb(ht, val_p, hash, NULL, match_p);
	}

	LIBYANG_API_DEF LY_ERR
	lyht_remove_with_resize_cb(struct ly_ht ht, void val_p, uint32_t hash, lyht_value_equal_cb resize_val_equal)
	{
	struct ly_ht_rec rec, crec;
	int32_t i;
	ly_bool first_matched = 0;
	LY_ERR r, ret = LY_SUCCESS;
	lyht_value_equal_cb old_val_equal;

	LY_CHECK_ERR_RET(lyht_find_first(ht, hash, &rec), LOGARG(NULL, hash), LY_ENOTFOUND); /* hash not found */

	if ((rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
	/* even the value matches */
	first_matched = 1;
	}

	/* we always need to go through collisions */
	crec = rec;
	for (i = 1; i < crec->hits; ++i) {
	r = lyht_find_collision(ht, &rec, crec);
	assert(!r);

	/* compare values */
	if (!first_matched && (rec->hash == hash) && ht->val_equal(val_p, &rec->val, 1, ht->cb_data)) {
	break;
	}
	}

	if (i < crec->hits) {
	/* one of collisions matched, reduce collision count, remove the record */
	assert(!first_matched);
	--crec->hits;
	rec->hits = -1;
	} else if (first_matched) {
	/* the first record matches */
	if (crec != rec) {
	/* ... so put the last collision in its place */
	rec->hits = crec->hits - 1;
	memcpy(crec, rec, ht->rec_size);
	}
	rec->hits = -1;
	} else {
	/* value not found even in collisions */
	return LY_ENOTFOUND;
	}

	/* check size & shrink if needed */
	--ht->used;
	++ht->invalid;
	if (ht->resize == 2) {
	r = (ht->used * LYHT_HUNDRED_PERCENTAGE) / ht->size;
	if ((r < LYHT_SHRINK_PERCENTAGE) && (ht->size > LYHT_MIN_SIZE)) {
	if (resize_val_equal) {
	old_val_equal = lyht_set_cb(ht, resize_val_equal);
	}

	/* shrink */
	ret = lyht_resize(ht, -1);

	if (resize_val_equal) {
	lyht_set_cb(ht, old_val_equal);
	}
	}
	}

	/* rehash all records if needed */
	r = ((ht->size - ht->used - ht->invalid) * 100) / ht->size;
	if (r < LYHT_REHASH_PERCENTAGE) {
	if (resize_val_equal) {
	old_val_equal = lyht_set_cb(ht, resize_val_equal);
	}

	/* rehash */
	ret = lyht_resize(ht, 0);

	if (resize_val_equal) {
	lyht_set_cb(ht, old_val_equal);
	}
	}

	return ret;
	}

	LIBYANG_API_DEF LY_ERR
	lyht_remove(struct ly_ht ht, void val_p, uint32_t hash)
	{
	return lyht_remove_with_resize_cb(ht, val_p, hash, NULL);
	}

	LIBYANG_API_DEF uint32_t
	lyht_get_fixed_size(uint32_t item_count)
	{
	uint32_t i, size = 0;

	/* detect number of upper zero bits in the items' counter value ... */
	for (i = (sizeof item_count * CHAR_BIT) - 1; i > 0; i--) {
	size = item_count << i;
	size = size >> i;
	if (size == item_count) {
	break;
	}
	}
	assert(i);

	/* ... and then we convert it to the position of the highest non-zero bit ... */
	i = (sizeof item_count * CHAR_BIT) - i;

	/* ... and by using it to shift 1 to the left we get the closest sufficient hash table size */
	size = 1 << i;

	return size;
	}