/*
* Copyright (C) 2011 Red Hat, Inc.
*
* Author: Angus Salkeld <asalkeld@redhat.com>
*
* This file is part of libqb.
*
* libqb 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.
*
* libqb 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 libqb. If not, see <http://www.gnu.org/licenses/>.
*/
#include <os_base.h>
#include <assert.h>
#include <qb/qbdefs.h>
#include <qb/qbmap.h>
#include "map_int.h"
#define SKIPLIST_LEVEL_MAX 8
#define SKIPLIST_LEVEL_MIN 0
/* The amount of possible levels */
#define SKIPLIST_LEVEL_COUNT (SKIPLIST_LEVEL_MAX - SKIPLIST_LEVEL_MIN + 1)
struct skiplist_iter {
struct qb_map_iter i;
struct skiplist_node *n;
};
struct skiplist_node {
const char *key;
void *value;
int8_t level;
uint32_t refcount;
struct qb_list_head notifier_head;
/* An array of @level + 1 node pointers */
struct skiplist_node **forward;
};
struct skiplist {
struct qb_map map;
size_t length;
int8_t level;
struct skiplist_node *header;
};
/* An array of nodes that need to be updated after an insert or delete operation
*/
typedef struct skiplist_node *skiplist_update_t[SKIPLIST_LEVEL_COUNT];
static int8_t
skiplist_level_generate(void)
{
/* This constant is found by 1 / P, where P = 0.25. */
enum { P_INVERSE = 4 };
/* The original algorithm's random number is in the range [0, 1), so
* max M = 1. Its ceiling C = M * P = 1 * P = P.
*
* Our random number is in the range [0, UINT16_MAX], so M = UINT16_MAX. Therefore,
* C = UINT16_MAX * P = UINT16_MAX / P_INVERSE.
*/
enum { P_CEIL = UINT16_MAX / P_INVERSE };
int8_t level = SKIPLIST_LEVEL_MIN;
while ((uint16_t) (random()) < P_CEIL)
level++;
if (level < SKIPLIST_LEVEL_MAX)
return level;
return SKIPLIST_LEVEL_MAX;
}
static struct skiplist_node *
skiplist_node_next(const struct skiplist_node *node)
{
const struct skiplist_node *n = node;
do {
n = n->forward[SKIPLIST_LEVEL_MIN];
} while (n && n->refcount == 0);
return (struct skiplist_node *)n;
}
/*
* Create a new level @level node with value @value. The node should eventually
* be destroyed with @skiplist_node_destroy.
*
* return: a new node on success and NULL otherwise.
*/
static struct skiplist_node *
skiplist_node_new(const int8_t level, const char *key, const void *value)
{
struct skiplist_node *new_node = (struct skiplist_node *)
(malloc(sizeof(struct skiplist_node)));
if (!new_node)
return NULL;
new_node->value = (void *)value;
new_node->key = key;
new_node->level = level;
new_node->refcount = 1;
qb_list_init(&new_node->notifier_head);
/* A level 0 node still needs to hold 1 forward pointer, etc. */
new_node->forward = (struct skiplist_node **)
(calloc(level + 1, sizeof(struct skiplist_node *)));
if (new_node->forward == NULL) {
free(new_node);
return NULL;
}
return new_node;
}
static struct skiplist_node *
skiplist_header_node_new(void)
{
return skiplist_node_new(SKIPLIST_LEVEL_MAX, NULL, NULL);
}
/* An operation to perform after comparing a user value or search with a
* node's value
*/
typedef enum {
OP_GOTO_NEXT_LEVEL,
OP_GOTO_NEXT_NODE,
OP_FINISH,
} op_t;
static op_t
op_search(const struct skiplist *list,
const struct skiplist_node *fwd_node, const void *search)
{
int32_t cmp;
if (!fwd_node)
return OP_GOTO_NEXT_LEVEL;
cmp = strcmp(fwd_node->key, search);
if (cmp < 0) {
return OP_GOTO_NEXT_NODE;
} else if (cmp == 0) {
return OP_FINISH;
}
return OP_GOTO_NEXT_LEVEL;
}
static struct skiplist_node *
skiplist_lookup(struct skiplist *list, const char *key)
{
struct skiplist_node *cur_node = list->header;
int8_t level = list->level;
while (level >= SKIPLIST_LEVEL_MIN) {
struct skiplist_node *fwd_node = cur_node->forward[level];
switch (op_search(list, fwd_node, key)) {
case OP_FINISH:
return fwd_node;
case OP_GOTO_NEXT_NODE:
cur_node = fwd_node;
break;
case OP_GOTO_NEXT_LEVEL:
level--;
}
}
return NULL;
}
static void
skiplist_notify(struct skiplist *l, struct skiplist_node *n,
uint32_t event, char *key, void *old_value, void *value)
{
struct qb_list_head *list;
struct qb_map_notifier *tn;
/* node callbacks
*/
qb_list_for_each(list, &n->notifier_head) {
tn = qb_list_entry(list, struct qb_map_notifier, list);
if (tn->events & event) {
tn->callback(event, key, old_value, value,
tn->user_data);
}
}
/* global callbacks
*/
qb_list_for_each(list, &l->header->notifier_head) {
tn = qb_list_entry(list, struct qb_map_notifier, list);
if (tn->events & event) {
tn->callback(event, key, old_value, value,
tn->user_data);
}
if (((event & QB_MAP_NOTIFY_DELETED) ||
(event & QB_MAP_NOTIFY_REPLACED)) &&
(tn->events & QB_MAP_NOTIFY_FREE)) {
tn->callback(QB_MAP_NOTIFY_FREE, (char *)key,
old_value, value, tn->user_data);
}
}
}
static void
skiplist_node_destroy(struct skiplist_node *node, struct skiplist *list)
{
struct qb_list_head *pos;
struct qb_list_head *next;
struct qb_map_notifier *tn;
skiplist_notify(list, node,
QB_MAP_NOTIFY_DELETED,
(char *)node->key, node->value, NULL);
qb_list_for_each_safe(pos, next, &node->notifier_head) {
tn = qb_list_entry(pos, struct qb_map_notifier, list);
qb_list_del(&tn->list);
free(tn);
}
free(node->forward);
free(node);
}
static void
skiplist_node_deref(struct skiplist_node *node, struct skiplist *list)
{
node->refcount--;
if (node->refcount == 0) {
skiplist_node_destroy(node, list);
}
}
static int32_t
skiplist_notify_add(qb_map_t * m, const char *key,
qb_map_notify_fn fn, int32_t events, void *user_data)
{
struct skiplist *t = (struct skiplist *)m;
struct qb_map_notifier *f;
struct skiplist_node *n;
struct qb_list_head *list;
int add_to_tail = QB_FALSE;
if (key) {
n = skiplist_lookup(t, key);
} else {
n = t->header;
}
if (events & QB_MAP_NOTIFY_FREE) {
add_to_tail = QB_TRUE;
}
if (n) {
qb_list_for_each(list, &n->notifier_head) {
f = qb_list_entry(list, struct qb_map_notifier, list);
if (events & QB_MAP_NOTIFY_FREE &&
f->events == events) {
/* only one free notifier */
return -EEXIST;
}
if (f->events == events &&
f->callback == fn &&
f->user_data == user_data) {
return -EEXIST;
}
}
f = malloc(sizeof(struct qb_map_notifier));
if (f == NULL) {
return -errno;
}
f->events = events;
f->user_data = user_data;
f->callback = fn;
qb_list_init(&f->list);
if (add_to_tail) {
qb_list_add_tail(&f->list, &n->notifier_head);
} else {
qb_list_add(&f->list, &n->notifier_head);
}
return 0;
}
return -EINVAL;
}
static int32_t
skiplist_notify_del(qb_map_t * m, const char *key,
qb_map_notify_fn fn, int32_t events,
int32_t cmp_userdata, void *user_data)
{
struct skiplist *t = (struct skiplist *)m;
struct skiplist_node *n;
struct qb_map_notifier *f;
struct qb_list_head *head = NULL;
struct qb_list_head *list;
struct qb_list_head *next;
int32_t found = QB_FALSE;
if (key) {
n = skiplist_lookup(t, key);
if (n) {
head = &n->notifier_head;
}
} else {
head = &t->header->notifier_head;
}
if (head == NULL) {
return -ENOENT;
}
qb_list_for_each_safe(list, next, head) {
f = qb_list_entry(list, struct qb_map_notifier, list);
if (f->events == events && f->callback == fn) {
if (cmp_userdata && (f->user_data == user_data)) {
found = QB_TRUE;
qb_list_del(&f->list);
free(f);
} else if (!cmp_userdata) {
found = QB_TRUE;
qb_list_del(&f->list);
free(f);
}
}
}
if (found) {
return 0;
} else {
return -ENOENT;
}
}
static void
skiplist_destroy(struct qb_map *map)
{
struct skiplist *list = (struct skiplist *)map;
struct skiplist_node *cur_node;
struct skiplist_node *fwd_node;
for (cur_node = skiplist_node_next(list->header);
cur_node; cur_node = fwd_node) {
fwd_node = skiplist_node_next(cur_node);
skiplist_node_destroy(cur_node, list);
}
skiplist_node_destroy(list->header, list);
free(list);
}
static void
skiplist_put(struct qb_map *map, const char *key, const void *value)
{
struct skiplist *list = (struct skiplist *)map;
struct skiplist_node *new_node;
int8_t level = list->level;
skiplist_update_t update;
int8_t update_level;
int8_t new_node_level;
struct skiplist_node *cur_node = list->header;
char *old_k;
char *old_v;
while ((update_level = level) >= SKIPLIST_LEVEL_MIN) {
struct skiplist_node *fwd_node = cur_node->forward[level];
switch (op_search(list, fwd_node, key)) {
case OP_FINISH:
old_k = (char *)fwd_node->key;
old_v = (char *)fwd_node->value;
fwd_node->value = (void *)value;
fwd_node->key = (void *)key;
skiplist_notify(list, fwd_node,
QB_MAP_NOTIFY_REPLACED,
old_k, old_v, fwd_node->value);
return;
case OP_GOTO_NEXT_NODE:
cur_node = fwd_node;
break;
case OP_GOTO_NEXT_LEVEL:
level--;
}
update[update_level] = cur_node;
}
new_node_level = skiplist_level_generate();
if (new_node_level > list->level) {
for (level = list->level + 1; level <= new_node_level; level++)
update[level] = list->header;
list->level = new_node_level;
}
new_node = skiplist_node_new(new_node_level, key, value);
assert(new_node != NULL);
skiplist_notify(list, new_node,
QB_MAP_NOTIFY_INSERTED,
(char*)new_node->key, NULL, new_node->value);
/* Drop @new_node into @list. */
for (level = SKIPLIST_LEVEL_MIN; level <= new_node_level; level++) {
new_node->forward[level] = update[level]->forward[level];
update[level]->forward[level] = new_node;
}
list->length++;
}
static int32_t
skiplist_rm(struct qb_map *map, const char *key)
{
struct skiplist *list = (struct skiplist *)map;
struct skiplist_node *found_node;
struct skiplist_node *cur_node = list->header;
int8_t level = list->level;
int8_t update_level;
skiplist_update_t update;
while ((update_level = level) >= SKIPLIST_LEVEL_MIN) {
struct skiplist_node *fwd_node = cur_node->forward[level];
switch (op_search(list, fwd_node, key)) {
case OP_GOTO_NEXT_NODE:
cur_node = fwd_node;
break;
case OP_GOTO_NEXT_LEVEL:
default:
level--;
break;
}
update[update_level] = cur_node;
}
/* The immediate forward node should be the matching node... */
found_node = skiplist_node_next(cur_node);
/* ...unless we're at the end of the list or the value doesn't exist. */
if (!found_node || strcmp(found_node->key, key) != 0) {
return QB_FALSE;
}
/* Splice found_node out of list. */
for (level = SKIPLIST_LEVEL_MIN; level <= list->level; level++)
if (update[level]->forward[level] == found_node)
update[level]->forward[level] =
found_node->forward[level];
skiplist_node_deref(found_node, list);
/* Remove unused levels from @list -- stop removing levels as soon as a
* used level is found. Unused levels can occur if @found_node had the
* highest level.
*/
for (level = list->level; level >= SKIPLIST_LEVEL_MIN; level--) {
if (list->header->forward[level])
break;
list->level--;
}
list->length--;
return QB_TRUE;
}
static void *
skiplist_get(struct qb_map *map, const char *key)
{
struct skiplist *list = (struct skiplist *)map;
struct skiplist_node *n = skiplist_lookup(list, key);
if (n) {
return n->value;
}
return NULL;
}
static qb_map_iter_t *
skiplist_iter_create(struct qb_map *map, const char *prefix)
{
struct skiplist_iter *i = malloc(sizeof(struct skiplist_iter));
struct skiplist *list = (struct skiplist *)map;
if (i == NULL) {
return NULL;
}
i->i.m = map;
i->n = list->header;
i->n->refcount++;
return (qb_map_iter_t *) i;
}
static const char *
skiplist_iter_next(qb_map_iter_t * i, void **value)
{
struct skiplist_iter *si = (struct skiplist_iter *)i;
struct skiplist_node *p = si->n;
if (p == NULL) {
return NULL;
}
si->n = skiplist_node_next(p);
if (si->n == NULL) {
skiplist_node_deref(p, (struct skiplist *)i->m);
return NULL;
}
si->n->refcount++;
skiplist_node_deref(p, (struct skiplist *)i->m);
*value = si->n->value;
return si->n->key;
}
static void
skiplist_iter_free(qb_map_iter_t * i)
{
free(i);
}
static size_t
skiplist_count_get(struct qb_map *map)
{
struct skiplist *list = (struct skiplist *)map;
return list->length;
}
qb_map_t *
qb_skiplist_create(void)
{
struct skiplist *sl = malloc(sizeof(struct skiplist));
if (sl == NULL) {
return NULL;
}
srand(time(NULL));
sl->map.put = skiplist_put;
sl->map.get = skiplist_get;
sl->map.rm = skiplist_rm;
sl->map.count_get = skiplist_count_get;
sl->map.iter_create = skiplist_iter_create;
sl->map.iter_next = skiplist_iter_next;
sl->map.iter_free = skiplist_iter_free;
sl->map.destroy = skiplist_destroy;
sl->map.notify_add = skiplist_notify_add;
sl->map.notify_del = skiplist_notify_del;
sl->level = SKIPLIST_LEVEL_MIN;
sl->length = 0;
sl->header = skiplist_header_node_new();
return (qb_map_t *) sl;
}