/* * Summary: Chained hash tables and domain/connections handling * Description: This module implements the hash table and allocation and * deallocation of domains and connections * * Copyright (C) 2005-2014 Red Hat, Inc. * Copyright (C) 2000 Bjorn Reese and Daniel Veillard. */ #ifndef LIBVIRT_VIRHASH_H # define LIBVIRT_VIRHASH_H # include "virautoclean.h" /* * The hash table. */ typedef struct _virHashTable virHashTable; typedef virHashTable *virHashTablePtr; typedef struct _virHashAtomic virHashAtomic; typedef virHashAtomic *virHashAtomicPtr; /* * function types: */ /** * virHashDataFree: * @payload: the data in the hash * @name: the name associated * * Callback to free data from a hash. */ typedef void (*virHashDataFree) (void *payload, const void *name); /** * virHashIterator: * @payload: the data in the hash * @name: the hash key * @data: user supplied data blob * * Callback to process a hash entry during iteration * * Returns -1 to stop the iteration, e.g. in case of an error */ typedef int (*virHashIterator) (void *payload, const void *name, void *data); /** * virHashSearcher: * @payload: the data in the hash * @name: the hash key * @data: user supplied data blob * * Callback to identify hash entry desired * Returns 1 if the hash entry is desired, 0 to move * to next entry */ typedef int (*virHashSearcher) (const void *payload, const void *name, const void *data); /** * virHashKeyCode: * @name: the hash key * @seed: random seed * * Compute the hash code corresponding to the key @name, using * @seed to perturb the hashing algorithm * * Returns the hash code */ typedef uint32_t (*virHashKeyCode)(const void *name, uint32_t seed); /** * virHashKeyEqual: * @namea: the first hash key * @nameb: the second hash key * * Compare two hash keys for equality * * Returns true if the keys are equal, false otherwise */ typedef bool (*virHashKeyEqual)(const void *namea, const void *nameb); /** * virHashKeyCopy: * @name: the hash key * * Create a copy of the hash key, duplicating * memory allocation where applicable * * Returns a newly allocated copy of @name */ typedef void *(*virHashKeyCopy)(const void *name); /** * virHashKeyFree: * @name: the hash key * * Free any memory associated with the hash * key @name */ typedef void (*virHashKeyFree)(void *name); /* * Constructor and destructor. */ virHashTablePtr virHashCreate(ssize_t size, virHashDataFree dataFree); virHashAtomicPtr virHashAtomicNew(ssize_t size, virHashDataFree dataFree); virHashTablePtr virHashCreateFull(ssize_t size, virHashDataFree dataFree, virHashKeyCode keyCode, virHashKeyEqual keyEqual, virHashKeyCopy keyCopy, virHashKeyFree keyFree); void virHashFree(virHashTablePtr table); ssize_t virHashSize(const virHashTable *table); ssize_t virHashTableSize(const virHashTable *table); /* * Add a new entry to the hash table. */ int virHashAddEntry(virHashTablePtr table, const void *name, void *userdata); int virHashUpdateEntry(virHashTablePtr table, const void *name, void *userdata); int virHashAtomicUpdate(virHashAtomicPtr table, const void *name, void *userdata); /* * Remove an entry from the hash table. */ int virHashRemoveEntry(virHashTablePtr table, const void *name); /* * Remove all entries from the hash table. */ ssize_t virHashRemoveAll(virHashTablePtr table); /* * Retrieve the userdata. */ void *virHashLookup(const virHashTable *table, const void *name); /* * Retrieve & remove the userdata. */ void *virHashSteal(virHashTablePtr table, const void *name); void *virHashAtomicSteal(virHashAtomicPtr table, const void *name); /* * Get the hash table's key/value pairs and have them optionally sorted. * The returned array contains virHashSize() elements. Additionally, * an empty element has been added to the end of the array (with key == NULL) * to indicate the end of the array. * The key/value pairs are only valid as long as the underlying hash * table is not modified, i.e., no keys are removed or inserted, and * the hash table is not deleted. * The caller must only free the returned array using VIR_FREE(). * The caller must make copies of all returned keys and values if they are * to be used somewhere else. */ typedef struct _virHashKeyValuePair virHashKeyValuePair; typedef virHashKeyValuePair *virHashKeyValuePairPtr; struct _virHashKeyValuePair { const void *key; const void *value; }; typedef int (*virHashKeyComparator)(const virHashKeyValuePair *, const virHashKeyValuePair *); virHashKeyValuePairPtr virHashGetItems(virHashTablePtr table, virHashKeyComparator compar); /* * Compare two tables for equality: the lookup of a key's value in * both tables must result in an equivalent value. * The caller must pass in a comparator function for comparing the values * of two keys. */ typedef int (*virHashValueComparator)(const void *value1, const void *value2); bool virHashEqual(const virHashTable *table1, const virHashTable *table2, virHashValueComparator compar); /* * Iterators */ int virHashForEach(virHashTablePtr table, virHashIterator iter, void *data); ssize_t virHashRemoveSet(virHashTablePtr table, virHashSearcher iter, const void *data); void *virHashSearch(const virHashTable *table, virHashSearcher iter, const void *data, void **name); /* Convenience for when VIR_FREE(value) is sufficient as a data freer. */ void virHashValueFree(void *value, const void *name); VIR_DEFINE_AUTOPTR_FUNC(virHashTable, virHashFree); #endif /* LIBVIRT_VIRHASH_H */