*
***/
typedef struct SilcDListStruct {
+ SilcStack stack;
SilcList list;
void *current;
void *prev;
*
* DESCRIPTION
*
- * Initializes SilcDList.
+ * Initializes SilcDList. Returns the SilcDList context or NULL on error.
*
***/
return list;
}
+/****f* silcutil/SilcDListAPI/silc_dlist_sinit
+ *
+ * SYNOPSIS
+ *
+ * static inline
+ * SilcDList silc_dlist_sinit(SilcStack stack);
+ *
+ * DESCRIPTION
+ *
+ * Initializes SilcDList. Returns the SilcDList context or NULL on error.
+ * This is same as silc_dlist_init but allocates the memory from `stack'
+ * if `stack' is non-NULL.
+ *
+ ***/
+
+static inline
+SilcDList silc_dlist_sinit(SilcStack stack)
+{
+ SilcDList list;
+
+ if (stack)
+ stack = silc_stack_alloc(0, stack);
+ list = (SilcDList)silc_smalloc(stack, sizeof(*list));
+ if (!list) {
+ silc_stack_free(stack);
+ return NULL;
+ }
+ list->stack = stack;
+ list->current = list->prev = NULL;
+ silc_list_init_prev(list->list, struct SilcDListEntryStruct, next, prev);
+
+ return list;
+}
+
/****f* silcutil/SilcDListAPI/silc_dlist_uninit
*
* SYNOPSIS
* DESCRIPTION
*
* Uninits and frees all memory. Must be called to free memory. Does NOT
- * free the contexts saved by caller.
+ * free the contexts saved by caller. If the silc_dlist_sinit was used
+ * with SilcStack this will release all memory allocated by the SilcDList
+ * back to the SilcStack.
*
***/
{
if (list) {
SilcDListEntry e;
+ SilcStack stack = list->stack;
silc_list_start(list->list);
while ((e = (SilcDListEntry)silc_list_get(list->list)) != SILC_LIST_END) {
silc_list_del(list->list, e);
- silc_free(e);
+ silc_sfree(stack, e);
}
- silc_free(list);
+ silc_sfree(stack, list);
+ silc_stack_free(stack);
}
}
static inline
SilcBool silc_dlist_add(SilcDList list, void *context)
{
- SilcDListEntry e = (SilcDListEntry)silc_malloc(sizeof(*e));
+ SilcDListEntry e = (SilcDListEntry)silc_smalloc(list->stack, sizeof(*e));
if (silc_unlikely(!e))
return FALSE;
e->context = context;
static inline
SilcBool silc_dlist_insert(SilcDList list, void *context)
{
- SilcDListEntry e = (SilcDListEntry)silc_malloc(sizeof(*e));
+ SilcDListEntry e = (SilcDListEntry)silc_smalloc(list->stack, sizeof(*e));
if (silc_unlikely(!e))
return FALSE;
e->context = context;
list->current = NULL;
if (list->prev == e)
list->prev = NULL;
- silc_free(e);
+ silc_sfree(list->stack, e);
break;
}
}
Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 2001 - 2006 Pekka Riikonen
+ Copyright (C) 2001 - 2007 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
/* Hash table. */
struct SilcHashTableStruct {
+ SilcStack stack;
SilcHashTableEntry *table;
SilcUInt32 table_size;
SilcUInt32 entry_count;
SILC_HT_DEBUG(("Collision; adding new key to list"));
- e->next = silc_calloc(1, sizeof(*e->next));
+ e->next = silc_scalloc(ht->stack, 1, sizeof(*e->next));
if (!e->next)
return FALSE;
e->next->key = key;
} else {
/* New key */
SILC_HT_DEBUG(("New key"));
- *entry = silc_calloc(1, sizeof(**entry));
+ *entry = silc_scalloc(ht->stack, 1, sizeof(**entry));
if (!(*entry))
return FALSE;
(*entry)->key = key;
ht->destructor_user_context);
} else {
/* New key */
- *entry = silc_calloc(1, sizeof(**entry));
+ *entry = silc_scalloc(ht->stack, 1, sizeof(**entry));
if (!(*entry))
return FALSE;
ht->entry_count++;
destructor function, respectively. The `hash' is mandatory, the others
are optional. */
-SilcHashTable silc_hash_table_alloc(SilcUInt32 table_size,
+SilcHashTable silc_hash_table_alloc(SilcStack stack,
+ SilcUInt32 table_size,
SilcHashFunction hash,
void *hash_user_context,
SilcHashCompare compare,
if (!hash)
return NULL;
- ht = silc_calloc(1, sizeof(*ht));
- if (!ht)
+ if (stack)
+ stack = silc_stack_alloc(0, stack);
+
+ ht = silc_scalloc(stack, 1, sizeof(*ht));
+ if (!ht) {
+ silc_stack_free(stack);
return NULL;
- ht->table = silc_calloc(table_size ? silc_hash_table_primesize(table_size,
- &size_index) :
- primesize[SILC_HASH_TABLE_SIZE],
- sizeof(*ht->table));
+ }
+ ht->table = silc_scalloc(stack,
+ table_size ? silc_hash_table_primesize(table_size,
+ &size_index) :
+ primesize[SILC_HASH_TABLE_SIZE],
+ sizeof(*ht->table));
if (!ht->table) {
- silc_free(ht);
+ silc_stack_free(stack);
+ silc_sfree(stack, ht);
return NULL;
}
+ ht->stack = stack;
ht->table_size = size_index;
ht->hash = hash;
ht->compare = compare;
void silc_hash_table_free(SilcHashTable ht)
{
+ SilcStack stack = ht->stack;
SilcHashTableEntry e, tmp;
int i;
ht->destructor(e->key, e->context, ht->destructor_user_context);
tmp = e;
e = e->next;
- silc_free(tmp);
+ silc_sfree(stack, tmp);
}
}
- silc_free(ht->table);
- silc_free(ht);
+ silc_sfree(stack, ht->table);
+ silc_sfree(stack, ht);
+ silc_stack_free(stack);
}
/* Returns the size of the hash table */
the `context. The destructor function will be called for the
replaced key and context. */
-SilcBool silc_hash_table_replace(SilcHashTable ht, void *key, void *context)
+SilcBool silc_hash_table_set(SilcHashTable ht, void *key, void *context)
{
return silc_hash_table_replace_internal(ht, key, context, ht->hash,
ht->hash_user_context);
/* Same as above but with specific hash function. */
-SilcBool silc_hash_table_replace_ext(SilcHashTable ht, void *key,
- void *context,
- SilcHashFunction hash,
- void *hash_user_context)
+SilcBool silc_hash_table_set_ext(SilcHashTable ht, void *key,
+ void *context,
+ SilcHashFunction hash,
+ void *hash_user_context)
{
return silc_hash_table_replace_internal(ht, key, context,
hash, hash_user_context);
if (ht->destructor)
ht->destructor(e->key, e->context, ht->destructor_user_context);
- silc_free(e);
+ silc_sfree(ht->stack, e);
ht->entry_count--;
if (ht->destructor)
ht->destructor(e->key, e->context, ht->destructor_user_context);
}
- silc_free(e);
+ silc_sfree(ht->stack, e);
ht->entry_count--;
if (ht->destructor)
ht->destructor(e->key, e->context, ht->destructor_user_context);
- silc_free(e);
+ silc_sfree(ht->stack, e);
ht->entry_count--;
if (ht->destructor)
ht->destructor(e->key, e->context, ht->destructor_user_context);
}
- silc_free(e);
+ silc_sfree(ht->stack, e);
ht->entry_count--;
ht->auto_rehash = FALSE;
/* Allocate new table */
- ht->table = silc_calloc(primesize[size_index], sizeof(*ht->table));
+ ht->table = silc_scalloc(ht->stack,
+ primesize[size_index], sizeof(*ht->table));
if (!ht->table)
return;
ht->table_size = size_index;
e = e->next;
/* Remove old entry */
- silc_free(tmp);
+ silc_sfree(ht->stack, tmp);
}
}
ht->auto_rehash = auto_rehash;
/* Remove old table */
- silc_free(table);
+ silc_sfree(ht->stack, table);
}
/* Same as above but with specific hash function. */
ht->auto_rehash = FALSE;
/* Allocate new table */
- ht->table = silc_calloc(primesize[size_index], sizeof(*ht->table));
+ ht->table = silc_scalloc(ht->stack,
+ primesize[size_index], sizeof(*ht->table));
if (!ht->table)
return;
ht->table_size = size_index;
e = e->next;
/* Remove old entry */
- silc_free(tmp);
+ silc_sfree(ht->stack, tmp);
}
}
ht->auto_rehash = auto_rehash;
/* Remove old table */
- silc_free(table);
+ silc_sfree(ht->stack, table);
}
/* Prepares the `htl' list structure sent as argument to be used in the
Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 2001 - 2006 Pekka Riikonen
+ Copyright (C) 2001 - 2007 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
* Implementation of collision resistant hash table. This is a hash table
* that provides a reliable (what you add there stays there, and duplicate
* keys are allowed) with as fast reference to the key as possible. If
- * there are a lot of duplicate keys in the hash table the lookup gets
- * slower of course. However, this is reliable and no data is lost at any
- * point. If you know that you never have duplicate keys then this is as
- * fast as any simple hash table.
+ * there are a lot of duplicate keys in the hash table the lookup slows down.
+ * However, this is reliable and no data is lost at any point. If you know
+ * that you never have duplicate keys then this is as fast as any simple hash
+ * table.
*
* The interface provides many ways to search the hash table including
* an extended interface where caller can specify its own hash and comparison
- * functions.
+ * functions. The interface also supports SilcStack and all memory allocated
+ * by the hash table can be allocated from SilcStack.
*
* There are two ways to traverse the entire hash table if this feature
* is needed. There exists a foreach function that calls a foreach
* SilcHashTableList structure and traverse the hash table inside while()
* using the list structure. Both are equally fast.
*
- * The hash table is not thread safe. If same hash table context is used in
- * multi thread environment concurrency control must be employed.
+ * The hash table is not thread safe. If same SilcHashtable context is used
+ * in multi thread environment concurrency control must be employed.
*
***/
*
* SYNOPSIS
*
- * SilcHashTable silc_hash_table_alloc(SilcUInt32 table_size,
+ * SilcHashTable silc_hash_table_alloc(SilcStack stack,
+ * SilcUInt32 table_size,
* SilcHashFunction hash,
* void *hash_user_context,
* SilcHashCompare compare,
*
* DESCRIPTION
*
- * Allocates new hash table and returns it. If the `table_size' is not
+ * Allocates new hash table and returns it. If the `stack' is non-NULL
+ * the hash table is allocated from `stack'. If the `table_size' is not
* zero then the hash table size is the size provided. If zero then the
* default size will be used. Note that if the `table_size' is provided
* it should be a prime. The `hash', `compare' and `destructor' are
* are optional.
*
***/
-SilcHashTable silc_hash_table_alloc(SilcUInt32 table_size,
+SilcHashTable silc_hash_table_alloc(SilcStack stack,
+ SilcUInt32 table_size,
SilcHashFunction hash,
void *hash_user_context,
SilcHashCompare compare,
* Frees the hash table. The destructor function provided in the
* silc_hash_table_alloc will be called for all keys in the hash table.
*
+ * If the SilcStack was given to silc_hash_table_alloc this call will
+ * release all memory allocated during the life time of the `ht' back
+ * to the SilcStack.
+ *
***/
void silc_hash_table_free(SilcHashTable ht);
***/
SilcBool silc_hash_table_add(SilcHashTable ht, void *key, void *context);
-/****f* silcutil/SilcHashTableAPI/silc_hash_table_replace
+/****f* silcutil/SilcHashTableAPI/silc_hash_table_set
*
* SYNOPSIS
*
- * SilcBool silc_hash_table_replace(SilcHashTable ht, void *key,
- * void *context);
+ * SilcBool silc_hash_table_set(SilcHashTable ht, void *key,
+ * void *context);
*
* DESCRIPTION
*
* replaced key and context.
*
***/
-SilcBool silc_hash_table_replace(SilcHashTable ht, void *key, void *context);
+SilcBool silc_hash_table_set(SilcHashTable ht, void *key, void *context);
/****f* silcutil/SilcHashTableAPI/silc_hash_table_del
*
SilcHashFunction hash,
void *hash_user_context);
-/****f* silcutil/SilcHashTableAPI/silc_hash_table_replace_ext
+/****f* silcutil/SilcHashTableAPI/silc_hash_table_set_ext
*
* SYNOPSIS
*
- * SilcBool silc_hash_table_replace_ext(SilcHashTable ht, void *key,
- * void *context,
- * SilcHashFunction hash,
- * void *hash_user_context);
+ * SilcBool silc_hash_table_set_ext(SilcHashTable ht, void *key,
+ * void *context,
+ * SilcHashFunction hash,
+ * void *hash_user_context);
*
* DESCRIPTION
*
* function. If not provided the hash table's default is used.
*
***/
-SilcBool silc_hash_table_replace_ext(SilcHashTable ht,
- void *key, void *context,
- SilcHashFunction hash,
- void *hash_user_context);
+SilcBool silc_hash_table_set_ext(SilcHashTable ht,
+ void *key, void *context,
+ SilcHashFunction hash,
+ void *hash_user_context);
/****f* silcutil/SilcHashTableAPI/silc_hash_table_del_ext
*
SILC_LOG_DEBUG(("Allocating hash table with %d entries (%s)",
count, auto_rehash ? "auto rehash" : "no auto rehash"));
- t = silc_hash_table_alloc(0, hash_entry, NULL,
+ t = silc_hash_table_alloc(NULL, 0, hash_entry, NULL,
hash_compare, NULL,
hash_destructor, NULL, auto_rehash);
projects / crypto.git / commitdiff