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systemd/src/shared/hashmap.c
Lennart Poettering 5430f7f2bc relicense to LGPLv2.1 (with exceptions) 
We finally got the OK from all contributors with non-trivial commits to
relicense systemd from GPL2+ to LGPL2.1+.

Some udev bits continue to be GPL2+ for now, but we are looking into
relicensing them too, to allow free copy/paste of all code within
systemd.

The bits that used to be MIT continue to be MIT.

The big benefit of the relicensing is that closed source code may now
link against libsystemd-login.so and friends.
2012-04-12 00:24:39 +02:00

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/*-*- Mode: C; c-basic-offset: 8; indent-tabs-mode: nil -*-*/
/***
This file is part of systemd.
Copyright 2010 Lennart Poettering
systemd 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.
systemd 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 systemd; If not, see <http://www.gnu.org/licenses/>.
***/
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include "util.h"
#include "hashmap.h"
#include "macro.h"
#define NBUCKETS 127
struct hashmap_entry {
const void *key;
void *value;
struct hashmap_entry *bucket_next, *bucket_previous;
struct hashmap_entry *iterate_next, *iterate_previous;
};
struct Hashmap {
hash_func_t hash_func;
compare_func_t compare_func;
struct hashmap_entry *iterate_list_head, *iterate_list_tail;
unsigned n_entries;
bool from_pool;
};
#define BY_HASH(h) ((struct hashmap_entry**) ((uint8_t*) (h) + ALIGN(sizeof(Hashmap))))
struct pool {
struct pool *next;
unsigned n_tiles;
unsigned n_used;
};
static struct pool *first_hashmap_pool = NULL;
static void *first_hashmap_tile = NULL;
static struct pool *first_entry_pool = NULL;
static void *first_entry_tile = NULL;
static void* allocate_tile(struct pool **first_pool, void **first_tile, size_t tile_size) {
unsigned i;
if (*first_tile) {
void *r;
r = *first_tile;
*first_tile = * (void**) (*first_tile);
return r;
}
if (_unlikely_(!*first_pool) || _unlikely_((*first_pool)->n_used >= (*first_pool)->n_tiles)) {
unsigned n;
size_t size;
struct pool *p;
n = *first_pool ? (*first_pool)->n_tiles : 0;
n = MAX(512U, n * 2);
size = PAGE_ALIGN(ALIGN(sizeof(struct pool)) + n*tile_size);
n = (size - ALIGN(sizeof(struct pool))) / tile_size;
p = malloc(size);
if (!p)
return NULL;
p->next = *first_pool;
p->n_tiles = n;
p->n_used = 0;
*first_pool = p;
}
i = (*first_pool)->n_used++;
return ((uint8_t*) (*first_pool)) + ALIGN(sizeof(struct pool)) + i*tile_size;
}
static void deallocate_tile(void **first_tile, void *p) {
* (void**) p = *first_tile;
*first_tile = p;
}
#ifndef __OPTIMIZE__
static void drop_pool(struct pool *p) {
while (p) {
struct pool *n;
n = p->next;
free(p);
p = n;
}
}
__attribute__((destructor)) static void cleanup_pool(void) {
/* Be nice to valgrind */
drop_pool(first_hashmap_pool);
drop_pool(first_entry_pool);
}
#endif
unsigned string_hash_func(const void *p) {
unsigned hash = 5381;
const signed char *c;
/* DJB's hash function */
for (c = p; *c; c++)
hash = (hash << 5) + hash + (unsigned) *c;
return hash;
}
int string_compare_func(const void *a, const void *b) {
return strcmp(a, b);
}
unsigned trivial_hash_func(const void *p) {
return PTR_TO_UINT(p);
}
int trivial_compare_func(const void *a, const void *b) {
return a < b ? -1 : (a > b ? 1 : 0);
}
Hashmap *hashmap_new(hash_func_t hash_func, compare_func_t compare_func) {
bool b;
Hashmap *h;
size_t size;
b = is_main_thread();
size = ALIGN(sizeof(Hashmap)) + NBUCKETS * sizeof(struct hashmap_entry*);
if (b) {
h = allocate_tile(&first_hashmap_pool, &first_hashmap_tile, size);
if (!h)
return NULL;
memset(h, 0, size);
} else {
h = malloc0(size);
if (!h)
return NULL;
}
h->hash_func = hash_func ? hash_func : trivial_hash_func;
h->compare_func = compare_func ? compare_func : trivial_compare_func;
h->n_entries = 0;
h->iterate_list_head = h->iterate_list_tail = NULL;
h->from_pool = b;
return h;
}
int hashmap_ensure_allocated(Hashmap **h, hash_func_t hash_func, compare_func_t compare_func) {
assert(h);
if (*h)
return 0;
if (!(*h = hashmap_new(hash_func, compare_func)))
return -ENOMEM;
return 0;
}
static void link_entry(Hashmap *h, struct hashmap_entry *e, unsigned hash) {
assert(h);
assert(e);
/* Insert into hash table */
e->bucket_next = BY_HASH(h)[hash];
e->bucket_previous = NULL;
if (BY_HASH(h)[hash])
BY_HASH(h)[hash]->bucket_previous = e;
BY_HASH(h)[hash] = e;
/* Insert into iteration list */
e->iterate_previous = h->iterate_list_tail;
e->iterate_next = NULL;
if (h->iterate_list_tail) {
assert(h->iterate_list_head);
h->iterate_list_tail->iterate_next = e;
} else {
assert(!h->iterate_list_head);
h->iterate_list_head = e;
}
h->iterate_list_tail = e;
h->n_entries++;
assert(h->n_entries >= 1);
}
static void unlink_entry(Hashmap *h, struct hashmap_entry *e, unsigned hash) {
assert(h);
assert(e);
/* Remove from iteration list */
if (e->iterate_next)
e->iterate_next->iterate_previous = e->iterate_previous;
else
h->iterate_list_tail = e->iterate_previous;
if (e->iterate_previous)
e->iterate_previous->iterate_next = e->iterate_next;
else
h->iterate_list_head = e->iterate_next;
/* Remove from hash table bucket list */
if (e->bucket_next)
e->bucket_next->bucket_previous = e->bucket_previous;
if (e->bucket_previous)
e->bucket_previous->bucket_next = e->bucket_next;
else
BY_HASH(h)[hash] = e->bucket_next;
assert(h->n_entries >= 1);
h->n_entries--;
}
static void remove_entry(Hashmap *h, struct hashmap_entry *e) {
unsigned hash;
assert(h);
assert(e);
hash = h->hash_func(e->key) % NBUCKETS;
unlink_entry(h, e, hash);
if (h->from_pool)
deallocate_tile(&first_entry_tile, e);
else
free(e);
}
void hashmap_free(Hashmap*h) {
if (!h)
return;
hashmap_clear(h);
if (h->from_pool)
deallocate_tile(&first_hashmap_tile, h);
else
free(h);
}
void hashmap_free_free(Hashmap *h) {
void *p;
while ((p = hashmap_steal_first(h)))
free(p);
hashmap_free(h);
}
void hashmap_clear(Hashmap *h) {
if (!h)
return;
while (h->iterate_list_head)
remove_entry(h, h->iterate_list_head);
}
static struct hashmap_entry *hash_scan(Hashmap *h, unsigned hash, const void *key) {
struct hashmap_entry *e;
assert(h);
assert(hash < NBUCKETS);
for (e = BY_HASH(h)[hash]; e; e = e->bucket_next)
if (h->compare_func(e->key, key) == 0)
return e;
return NULL;
}
int hashmap_put(Hashmap *h, const void *key, void *value) {
struct hashmap_entry *e;
unsigned hash;
assert(h);
hash = h->hash_func(key) % NBUCKETS;
if ((e = hash_scan(h, hash, key))) {
if (e->value == value)
return 0;
return -EEXIST;
}
if (h->from_pool)
e = allocate_tile(&first_entry_pool, &first_entry_tile, sizeof(struct hashmap_entry));
else
e = new(struct hashmap_entry, 1);
if (!e)
return -ENOMEM;
e->key = key;
e->value = value;
link_entry(h, e, hash);
return 1;
}
int hashmap_replace(Hashmap *h, const void *key, void *value) {
struct hashmap_entry *e;
unsigned hash;
assert(h);
hash = h->hash_func(key) % NBUCKETS;
if ((e = hash_scan(h, hash, key))) {
e->key = key;
e->value = value;
return 0;
}
return hashmap_put(h, key, value);
}
void* hashmap_get(Hashmap *h, const void *key) {
unsigned hash;
struct hashmap_entry *e;
if (!h)
return NULL;
hash = h->hash_func(key) % NBUCKETS;
if (!(e = hash_scan(h, hash, key)))
return NULL;
return e->value;
}
void* hashmap_remove(Hashmap *h, const void *key) {
struct hashmap_entry *e;
unsigned hash;
void *data;
if (!h)
return NULL;
hash = h->hash_func(key) % NBUCKETS;
if (!(e = hash_scan(h, hash, key)))
return NULL;
data = e->value;
remove_entry(h, e);
return data;
}
int hashmap_remove_and_put(Hashmap *h, const void *old_key, const void *new_key, void *value) {
struct hashmap_entry *e;
unsigned old_hash, new_hash;
if (!h)
return -ENOENT;
old_hash = h->hash_func(old_key) % NBUCKETS;
if (!(e = hash_scan(h, old_hash, old_key)))
return -ENOENT;
new_hash = h->hash_func(new_key) % NBUCKETS;
if (hash_scan(h, new_hash, new_key))
return -EEXIST;
unlink_entry(h, e, old_hash);
e->key = new_key;
e->value = value;
link_entry(h, e, new_hash);
return 0;
}
int hashmap_remove_and_replace(Hashmap *h, const void *old_key, const void *new_key, void *value) {
struct hashmap_entry *e, *k;
unsigned old_hash, new_hash;
if (!h)
return -ENOENT;
old_hash = h->hash_func(old_key) % NBUCKETS;
if (!(e = hash_scan(h, old_hash, old_key)))
return -ENOENT;
new_hash = h->hash_func(new_key) % NBUCKETS;
if ((k = hash_scan(h, new_hash, new_key)))
if (e != k)
remove_entry(h, k);
unlink_entry(h, e, old_hash);
e->key = new_key;
e->value = value;
link_entry(h, e, new_hash);
return 0;
}
void* hashmap_remove_value(Hashmap *h, const void *key, void *value) {
struct hashmap_entry *e;
unsigned hash;
if (!h)
return NULL;
hash = h->hash_func(key) % NBUCKETS;
if (!(e = hash_scan(h, hash, key)))
return NULL;
if (e->value != value)
return NULL;
remove_entry(h, e);
return value;
}
void *hashmap_iterate(Hashmap *h, Iterator *i, const void **key) {
struct hashmap_entry *e;
assert(i);
if (!h)
goto at_end;
if (*i == ITERATOR_LAST)
goto at_end;
if (*i == ITERATOR_FIRST && !h->iterate_list_head)
goto at_end;
e = *i == ITERATOR_FIRST ? h->iterate_list_head : (struct hashmap_entry*) *i;
if (e->iterate_next)
*i = (Iterator) e->iterate_next;
else
*i = ITERATOR_LAST;
if (key)
*key = e->key;
return e->value;
at_end:
*i = ITERATOR_LAST;
if (key)
*key = NULL;
return NULL;
}
void *hashmap_iterate_backwards(Hashmap *h, Iterator *i, const void **key) {
struct hashmap_entry *e;
assert(i);
if (!h)
goto at_beginning;
if (*i == ITERATOR_FIRST)
goto at_beginning;
if (*i == ITERATOR_LAST && !h->iterate_list_tail)
goto at_beginning;
e = *i == ITERATOR_LAST ? h->iterate_list_tail : (struct hashmap_entry*) *i;
if (e->iterate_previous)
*i = (Iterator) e->iterate_previous;
else
*i = ITERATOR_FIRST;
if (key)
*key = e->key;
return e->value;
at_beginning:
*i = ITERATOR_FIRST;
if (key)
*key = NULL;
return NULL;
}
void *hashmap_iterate_skip(Hashmap *h, const void *key, Iterator *i) {
unsigned hash;
struct hashmap_entry *e;
if (!h)
return NULL;
hash = h->hash_func(key) % NBUCKETS;
if (!(e = hash_scan(h, hash, key)))
return NULL;
*i = (Iterator) e;
return e->value;
}
void* hashmap_first(Hashmap *h) {
if (!h)
return NULL;
if (!h->iterate_list_head)
return NULL;
return h->iterate_list_head->value;
}
void* hashmap_first_key(Hashmap *h) {
if (!h)
return NULL;
if (!h->iterate_list_head)
return NULL;
return (void*) h->iterate_list_head->key;
}
void* hashmap_last(Hashmap *h) {
if (!h)
return NULL;
if (!h->iterate_list_tail)
return NULL;
return h->iterate_list_tail->value;
}
void* hashmap_steal_first(Hashmap *h) {
void *data;
if (!h)
return NULL;
if (!h->iterate_list_head)
return NULL;
data = h->iterate_list_head->value;
remove_entry(h, h->iterate_list_head);
return data;
}
void* hashmap_steal_first_key(Hashmap *h) {
void *key;
if (!h)
return NULL;
if (!h->iterate_list_head)
return NULL;
key = (void*) h->iterate_list_head->key;
remove_entry(h, h->iterate_list_head);
return key;
}
unsigned hashmap_size(Hashmap *h) {
if (!h)
return 0;
return h->n_entries;
}
bool hashmap_isempty(Hashmap *h) {
if (!h)
return true;
return h->n_entries == 0;
}
int hashmap_merge(Hashmap *h, Hashmap *other) {
struct hashmap_entry *e;
assert(h);
if (!other)
return 0;
for (e = other->iterate_list_head; e; e = e->iterate_next) {
int r;
if ((r = hashmap_put(h, e->key, e->value)) < 0)
if (r != -EEXIST)
return r;
}
return 0;
}
void hashmap_move(Hashmap *h, Hashmap *other) {
struct hashmap_entry *e, *n;
assert(h);
/* The same as hashmap_merge(), but every new item from other
* is moved to h. This function is guaranteed to succeed. */
if (!other)
return;
for (e = other->iterate_list_head; e; e = n) {
unsigned h_hash, other_hash;
n = e->iterate_next;
h_hash = h->hash_func(e->key) % NBUCKETS;
if (hash_scan(h, h_hash, e->key))
continue;
other_hash = other->hash_func(e->key) % NBUCKETS;
unlink_entry(other, e, other_hash);
link_entry(h, e, h_hash);
}
}
int hashmap_move_one(Hashmap *h, Hashmap *other, const void *key) {
unsigned h_hash, other_hash;
struct hashmap_entry *e;
if (!other)
return 0;
assert(h);
h_hash = h->hash_func(key) % NBUCKETS;
if (hash_scan(h, h_hash, key))
return -EEXIST;
other_hash = other->hash_func(key) % NBUCKETS;
if (!(e = hash_scan(other, other_hash, key)))
return -ENOENT;
unlink_entry(other, e, other_hash);
link_entry(h, e, h_hash);
return 0;
}
Hashmap *hashmap_copy(Hashmap *h) {
Hashmap *copy;
assert(h);
if (!(copy = hashmap_new(h->hash_func, h->compare_func)))
return NULL;
if (hashmap_merge(copy, h) < 0) {
hashmap_free(copy);
return NULL;
}
return copy;
}
char **hashmap_get_strv(Hashmap *h) {
char **sv;
Iterator it;
char *item;
int n;
sv = new(char*, h->n_entries+1);
if (!sv)
return NULL;
n = 0;
HASHMAP_FOREACH(item, h, it)
sv[n++] = item;
sv[n] = NULL;
return sv;
}
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