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/*
* Copyright (C) Internet Systems Consortium, Inc. ("ISC")
*
* SPDX-License-Identifier: MPL-2.0
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, you can obtain one at https://mozilla.org/MPL/2.0/.
*
* See the COPYRIGHT file distributed with this work for additional
* information regarding copyright ownership.
*/
#include <inttypes.h>
#include <string.h>
#include <isc/hash.h>
#include <isc/ht.h>
#include <isc/magic.h>
#include <isc/mem.h>
#include <isc/result.h>
#include <isc/types.h>
#include <isc/util.h>
typedef struct isc_ht_node isc_ht_node_t;
#define ISC_HT_MAGIC ISC_MAGIC('H', 'T', 'a', 'b')
#define ISC_HT_VALID(ht) ISC_MAGIC_VALID(ht, ISC_HT_MAGIC)
#define HT_NO_BITS 0
#define HT_MIN_BITS 1
#define HT_MAX_BITS 32
#define HT_OVERCOMMIT 3
#define HT_NEXTTABLE(idx) ((idx == 0) ? 1 : 0)
#define TRY_NEXTTABLE(idx, ht) (idx == ht->hindex && rehashing_in_progress(ht))
#define GOLDEN_RATIO_32 0x61C88647
#define HASHSIZE(bits) (UINT64_C(1) << (bits))
struct isc_ht_node {
void *value;
isc_ht_node_t *next;
uint32_t hashval;
size_t keysize;
unsigned char key[];
};
struct isc_ht {
unsigned int magic;
isc_mem_t *mctx;
size_t count;
bool case_sensitive;
size_t size[2];
uint8_t hashbits[2];
isc_ht_node_t **table[2];
uint8_t hindex;
uint32_t hiter; /* rehashing iterator */
};
struct isc_ht_iter {
isc_ht_t *ht;
size_t i;
uint8_t hindex;
isc_ht_node_t *cur;
};
static isc_ht_node_t *
isc__ht_find(const isc_ht_t *ht, const unsigned char *key,
const uint32_t keysize, const uint32_t hashval, const uint8_t idx);
static void
isc__ht_add(isc_ht_t *ht, const unsigned char *key, const uint32_t keysize,
const uint32_t hashval, const uint8_t idx, void *value);
static isc_result_t
isc__ht_delete(isc_ht_t *ht, const unsigned char *key, const uint32_t keysize,
const uint32_t hashval, const uint8_t idx);
static uint32_t
rehash_bits(isc_ht_t *ht, size_t newcount);
static void
hashtable_new(isc_ht_t *ht, const uint8_t idx, const uint8_t bits);
static void
hashtable_free(isc_ht_t *ht, const uint8_t idx);
static void
hashtable_rehash(isc_ht_t *ht, uint32_t newbits);
static void
hashtable_rehash_one(isc_ht_t *ht);
static void
maybe_rehash(isc_ht_t *ht, size_t newcount);
static isc_result_t
isc__ht_iter_next(isc_ht_iter_t *it);
static bool
isc__ht_node_match(isc_ht_node_t *node, const uint32_t hashval,
const uint8_t *key, uint32_t keysize) {
return (node->hashval == hashval && node->keysize == keysize &&
memcmp(node->key, key, keysize) == 0);
}
static uint32_t
hash_32(uint32_t val, unsigned int bits) {
REQUIRE(bits <= HT_MAX_BITS);
/* High bits are more random. */
return (val * GOLDEN_RATIO_32 >> (32 - bits));
}
static bool
rehashing_in_progress(const isc_ht_t *ht) {
return (ht->table[HT_NEXTTABLE(ht->hindex)] != NULL);
}
static bool
hashtable_is_overcommited(isc_ht_t *ht) {
return (ht->count >= (ht->size[ht->hindex] * HT_OVERCOMMIT));
}
static uint32_t
rehash_bits(isc_ht_t *ht, size_t newcount) {
uint32_t newbits = ht->hashbits[ht->hindex];
while (newcount >= HASHSIZE(newbits) && newbits <= HT_MAX_BITS) {
newbits += 1;
}
return (newbits);
}
/*
* Rebuild the hashtable to reduce the load factor
*/
static void
hashtable_rehash(isc_ht_t *ht, uint32_t newbits) {
uint8_t oldindex = ht->hindex;
uint32_t oldbits = ht->hashbits[oldindex];
uint8_t newindex = HT_NEXTTABLE(oldindex);
REQUIRE(ht->hashbits[oldindex] >= HT_MIN_BITS);
REQUIRE(ht->hashbits[oldindex] <= HT_MAX_BITS);
REQUIRE(ht->table[oldindex] != NULL);
REQUIRE(newbits <= HT_MAX_BITS);
REQUIRE(ht->hashbits[newindex] == HT_NO_BITS);
REQUIRE(ht->table[newindex] == NULL);
REQUIRE(newbits > oldbits);
hashtable_new(ht, newindex, newbits);
ht->hindex = newindex;
hashtable_rehash_one(ht);
}
static void
hashtable_rehash_one(isc_ht_t *ht) {
isc_ht_node_t **newtable = ht->table[ht->hindex];
uint32_t oldsize = ht->size[HT_NEXTTABLE(ht->hindex)];
isc_ht_node_t **oldtable = ht->table[HT_NEXTTABLE(ht->hindex)];
isc_ht_node_t *node = NULL;
isc_ht_node_t *nextnode;
/* Find first non-empty node */
while (ht->hiter < oldsize && oldtable[ht->hiter] == NULL) {
ht->hiter++;
}
/* Rehashing complete */
if (ht->hiter == oldsize) {
hashtable_free(ht, HT_NEXTTABLE(ht->hindex));
ht->hiter = 0;
return;
}
/* Move the first non-empty node from old hashtable to new hashtable */
for (node = oldtable[ht->hiter]; node != NULL; node = nextnode) {
uint32_t hash = hash_32(node->hashval,
ht->hashbits[ht->hindex]);
nextnode = node->next;
node->next = newtable[hash];
newtable[hash] = node;
}
oldtable[ht->hiter] = NULL;
ht->hiter++;
}
static void
maybe_rehash(isc_ht_t *ht, size_t newcount) {
uint32_t newbits = rehash_bits(ht, newcount);
if (ht->hashbits[ht->hindex] < newbits && newbits <= HT_MAX_BITS) {
hashtable_rehash(ht, newbits);
}
}
static void
hashtable_new(isc_ht_t *ht, const uint8_t idx, const uint8_t bits) {
size_t size;
REQUIRE(ht->hashbits[idx] == HT_NO_BITS);
REQUIRE(ht->table[idx] == NULL);
REQUIRE(bits >= HT_MIN_BITS);
REQUIRE(bits <= HT_MAX_BITS);
ht->hashbits[idx] = bits;
ht->size[idx] = HASHSIZE(ht->hashbits[idx]);
size = ht->size[idx] * sizeof(isc_ht_node_t *);
ht->table[idx] = isc_mem_get(ht->mctx, size);
memset(ht->table[idx], 0, size);
}
static void
hashtable_free(isc_ht_t *ht, const uint8_t idx) {
size_t size = ht->size[idx] * sizeof(isc_ht_node_t *);
for (size_t i = 0; i < ht->size[idx]; i++) {
isc_ht_node_t *node = ht->table[idx][i];
while (node != NULL) {
isc_ht_node_t *next = node->next;
ht->count--;
isc_mem_put(ht->mctx, node,
sizeof(*node) + node->keysize);
node = next;
}
}
isc_mem_put(ht->mctx, ht->table[idx], size);
ht->hashbits[idx] = HT_NO_BITS;
ht->table[idx] = NULL;
}
void
isc_ht_init(isc_ht_t **htp, isc_mem_t *mctx, uint8_t bits,
unsigned int options) {
isc_ht_t *ht = NULL;
bool case_sensitive = ((options & ISC_HT_CASE_INSENSITIVE) == 0);
REQUIRE(htp != NULL && *htp == NULL);
REQUIRE(mctx != NULL);
REQUIRE(bits >= 1 && bits <= HT_MAX_BITS);
ht = isc_mem_get(mctx, sizeof(*ht));
*ht = (isc_ht_t){
.case_sensitive = case_sensitive,
};
isc_mem_attach(mctx, &ht->mctx);
hashtable_new(ht, 0, bits);
ht->magic = ISC_HT_MAGIC;
*htp = ht;
}
void
isc_ht_destroy(isc_ht_t **htp) {
isc_ht_t *ht;
REQUIRE(htp != NULL);
REQUIRE(ISC_HT_VALID(*htp));
ht = *htp;
*htp = NULL;
ht->magic = 0;
for (size_t i = 0; i <= 1; i++) {
if (ht->table[i] != NULL) {
hashtable_free(ht, i);
}
}
INSIST(ht->count == 0);
isc_mem_putanddetach(&ht->mctx, ht, sizeof(*ht));
}
static void
isc__ht_add(isc_ht_t *ht, const unsigned char *key, const uint32_t keysize,
const uint32_t hashval, const uint8_t idx, void *value) {
isc_ht_node_t *node;
uint32_t hash;
hash = hash_32(hashval, ht->hashbits[idx]);
node = isc_mem_get(ht->mctx, sizeof(*node) + keysize);
*node = (isc_ht_node_t){
.keysize = keysize,
.hashval = hashval,
.next = ht->table[idx][hash],
.value = value,
};
memmove(node->key, key, keysize);
ht->count++;
ht->table[idx][hash] = node;
}
isc_result_t
isc_ht_add(isc_ht_t *ht, const unsigned char *key, const uint32_t keysize,
void *value) {
uint32_t hashval;
REQUIRE(ISC_HT_VALID(ht));
REQUIRE(key != NULL && keysize > 0);
if (rehashing_in_progress(ht)) {
/* Rehash in progress */
hashtable_rehash_one(ht);
} else if (hashtable_is_overcommited(ht)) {
/* Rehash requested */
maybe_rehash(ht, ht->count);
}
hashval = isc_hash32(key, keysize, ht->case_sensitive);
if (isc__ht_find(ht, key, keysize, hashval, ht->hindex) != NULL) {
return (ISC_R_EXISTS);
}
isc__ht_add(ht, key, keysize, hashval, ht->hindex, value);
return (ISC_R_SUCCESS);
}
static isc_ht_node_t *
isc__ht_find(const isc_ht_t *ht, const unsigned char *key,
const uint32_t keysize, const uint32_t hashval,
const uint8_t idx) {
uint32_t hash;
uint8_t findex = idx;
nexttable:
hash = hash_32(hashval, ht->hashbits[findex]);
for (isc_ht_node_t *node = ht->table[findex][hash]; node != NULL;
node = node->next)
{
if (isc__ht_node_match(node, hashval, key, keysize)) {
return (node);
}
}
if (TRY_NEXTTABLE(findex, ht)) {
/*
* Rehashing in progress, check the other table
*/
findex = HT_NEXTTABLE(findex);
goto nexttable;
}
return (NULL);
}
isc_result_t
isc_ht_find(const isc_ht_t *ht, const unsigned char *key,
const uint32_t keysize, void **valuep) {
uint32_t hashval;
isc_ht_node_t *node;
REQUIRE(ISC_HT_VALID(ht));
REQUIRE(key != NULL && keysize > 0);
REQUIRE(valuep == NULL || *valuep == NULL);
hashval = isc_hash32(key, keysize, ht->case_sensitive);
node = isc__ht_find(ht, key, keysize, hashval, ht->hindex);
if (node == NULL) {
return (ISC_R_NOTFOUND);
}
if (valuep != NULL) {
*valuep = node->value;
}
return (ISC_R_SUCCESS);
}
static isc_result_t
isc__ht_delete(isc_ht_t *ht, const unsigned char *key, const uint32_t keysize,
const uint32_t hashval, const uint8_t idx) {
isc_ht_node_t *prev = NULL;
uint32_t hash;
hash = hash_32(hashval, ht->hashbits[idx]);
for (isc_ht_node_t *node = ht->table[idx][hash]; node != NULL;
prev = node, node = node->next)
{
if (isc__ht_node_match(node, hashval, key, keysize)) {
if (prev == NULL) {
ht->table[idx][hash] = node->next;
} else {
prev->next = node->next;
}
isc_mem_put(ht->mctx, node,
sizeof(*node) + node->keysize);
ht->count--;
return (ISC_R_SUCCESS);
}
}
return (ISC_R_NOTFOUND);
}
isc_result_t
isc_ht_delete(isc_ht_t *ht, const unsigned char *key, const uint32_t keysize) {
uint32_t hashval;
uint8_t hindex;
isc_result_t result;
REQUIRE(ISC_HT_VALID(ht));
REQUIRE(key != NULL && keysize > 0);
if (rehashing_in_progress(ht)) {
/* Rehash in progress */
hashtable_rehash_one(ht);
}
hindex = ht->hindex;
hashval = isc_hash32(key, keysize, ht->case_sensitive);
nexttable:
result = isc__ht_delete(ht, key, keysize, hashval, hindex);
if (result == ISC_R_NOTFOUND && TRY_NEXTTABLE(hindex, ht)) {
/*
* Rehashing in progress, check the other table
*/
hindex = HT_NEXTTABLE(hindex);
goto nexttable;
}
return (result);
}
void
isc_ht_iter_create(isc_ht_t *ht, isc_ht_iter_t **itp) {
isc_ht_iter_t *it;
REQUIRE(ISC_HT_VALID(ht));
REQUIRE(itp != NULL && *itp == NULL);
it = isc_mem_get(ht->mctx, sizeof(isc_ht_iter_t));
*it = (isc_ht_iter_t){
.ht = ht,
.hindex = ht->hindex,
};
*itp = it;
}
void
isc_ht_iter_destroy(isc_ht_iter_t **itp) {
isc_ht_iter_t *it;
isc_ht_t *ht;
REQUIRE(itp != NULL && *itp != NULL);
it = *itp;
*itp = NULL;
ht = it->ht;
isc_mem_put(ht->mctx, it, sizeof(*it));
}
isc_result_t
isc_ht_iter_first(isc_ht_iter_t *it) {
isc_ht_t *ht;
REQUIRE(it != NULL);
ht = it->ht;
it->hindex = ht->hindex;
it->i = 0;
return (isc__ht_iter_next(it));
}
static isc_result_t
isc__ht_iter_next(isc_ht_iter_t *it) {
isc_ht_t *ht = it->ht;
while (it->i < ht->size[it->hindex] &&
ht->table[it->hindex][it->i] == NULL)
{
it->i++;
}
if (it->i < ht->size[it->hindex]) {
it->cur = ht->table[it->hindex][it->i];
return (ISC_R_SUCCESS);
}
if (TRY_NEXTTABLE(it->hindex, ht)) {
it->hindex = HT_NEXTTABLE(it->hindex);
it->i = 0;
return (isc__ht_iter_next(it));
}
return (ISC_R_NOMORE);
}
isc_result_t
isc_ht_iter_next(isc_ht_iter_t *it) {
REQUIRE(it != NULL);
REQUIRE(it->cur != NULL);
it->cur = it->cur->next;
if (it->cur != NULL) {
return (ISC_R_SUCCESS);
}
it->i++;
return (isc__ht_iter_next(it));
}
isc_result_t
isc_ht_iter_delcurrent_next(isc_ht_iter_t *it) {
isc_result_t result = ISC_R_SUCCESS;
isc_ht_node_t *dnode = NULL;
uint8_t dindex;
isc_ht_t *ht;
isc_result_t dresult;
REQUIRE(it != NULL);
REQUIRE(it->cur != NULL);
ht = it->ht;
dnode = it->cur;
dindex = it->hindex;
result = isc_ht_iter_next(it);
dresult = isc__ht_delete(ht, dnode->key, dnode->keysize, dnode->hashval,
dindex);
INSIST(dresult == ISC_R_SUCCESS);
return (result);
}
void
isc_ht_iter_current(isc_ht_iter_t *it, void **valuep) {
REQUIRE(it != NULL);
REQUIRE(it->cur != NULL);
REQUIRE(valuep != NULL && *valuep == NULL);
*valuep = it->cur->value;
}
void
isc_ht_iter_currentkey(isc_ht_iter_t *it, unsigned char **key,
size_t *keysize) {
REQUIRE(it != NULL);
REQUIRE(it->cur != NULL);
REQUIRE(key != NULL && *key == NULL);
*key = it->cur->key;
*keysize = it->cur->keysize;
}
size_t
isc_ht_count(const isc_ht_t *ht) {
REQUIRE(ISC_HT_VALID(ht));
return (ht->count);
}
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