/* * virhash.c: chained hash tables * * Reference: Your favorite introductory book on algorithms * * Copyright (C) 2005-2012 Red Hat, Inc. * Copyright (C) 2000 Bjorn Reese and Daniel Veillard. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF * MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE AUTHORS AND * CONTRIBUTORS ACCEPT NO RESPONSIBILITY IN ANY CONCEIVABLE MANNER. * * Author: Bjorn Reese * Daniel Veillard */ #include #include #include #include "virterror_internal.h" #include "virhash.h" #include "memory.h" #include "logging.h" #include "virhashcode.h" #include "virrandom.h" #define VIR_FROM_THIS VIR_FROM_NONE #define MAX_HASH_LEN 8 /* #define DEBUG_GROW */ #define virHashIterationError(ret) \ do { \ VIR_ERROR(_("Hash operation not allowed during iteration")); \ return ret; \ } while (0) /* * A single entry in the hash table */ typedef struct _virHashEntry virHashEntry; typedef virHashEntry *virHashEntryPtr; struct _virHashEntry { struct _virHashEntry *next; void *name; void *payload; }; /* * The entire hash table */ struct _virHashTable { virHashEntryPtr *table; uint32_t seed; size_t size; size_t nbElems; /* True iff we are iterating over hash entries. */ bool iterating; /* Pointer to the current entry during iteration. */ virHashEntryPtr current; virHashDataFree dataFree; virHashKeyCode keyCode; virHashKeyEqual keyEqual; virHashKeyCopy keyCopy; virHashKeyFree keyFree; }; static uint32_t virHashStrCode(const void *name, uint32_t seed) { return virHashCodeGen(name, strlen(name), seed); } static bool virHashStrEqual(const void *namea, const void *nameb) { return STREQ(namea, nameb); } static void *virHashStrCopy(const void *name) { return strdup(name); } static void virHashStrFree(void *name) { VIR_FREE(name); } static size_t virHashComputeKey(virHashTablePtr table, const void *name) { uint32_t value = table->keyCode(name, table->seed); return (value % table->size); } /** * virHashCreateFull: * @size: the size of the hash table * @dataFree: callback to free data * @keyCode: callback to compute hash code * @keyEqual: callback to compare hash keys * @keyCopy: callback to copy hash keys * @keyFree: callback to free keys * * Create a new virHashTablePtr. * * Returns the newly created object, or NULL if an error occurred. */ virHashTablePtr virHashCreateFull(ssize_t size, virHashDataFree dataFree, virHashKeyCode keyCode, virHashKeyEqual keyEqual, virHashKeyCopy keyCopy, virHashKeyFree keyFree) { virHashTablePtr table = NULL; if (size <= 0) size = 256; if (VIR_ALLOC(table) < 0) { virReportOOMError(); return NULL; } table->seed = virRandomBits(32); table->size = size; table->nbElems = 0; table->dataFree = dataFree; table->keyCode = keyCode; table->keyEqual = keyEqual; table->keyCopy = keyCopy; table->keyFree = keyFree; if (VIR_ALLOC_N(table->table, size) < 0) { virReportOOMError(); VIR_FREE(table); return NULL; } return table; } /** * virHashCreate: * @size: the size of the hash table * @dataFree: callback to free data * * Create a new virHashTablePtr. * * Returns the newly created object, or NULL if an error occurred. */ virHashTablePtr virHashCreate(ssize_t size, virHashDataFree dataFree) { return virHashCreateFull(size, dataFree, virHashStrCode, virHashStrEqual, virHashStrCopy, virHashStrFree); } /** * virHashGrow: * @table: the hash table * @size: the new size of the hash table * * resize the hash table * * Returns 0 in case of success, -1 in case of failure */ static int virHashGrow(virHashTablePtr table, size_t size) { size_t oldsize, i; virHashEntryPtr *oldtable; #ifdef DEBUG_GROW size_t nbElem = 0; #endif if (table == NULL) return (-1); if (size < 8) return (-1); if (size > 8 * 2048) return (-1); oldsize = table->size; oldtable = table->table; if (oldtable == NULL) return (-1); if (VIR_ALLOC_N(table->table, size) < 0) { virReportOOMError(); table->table = oldtable; return (-1); } table->size = size; for (i = 0; i < oldsize; i++) { virHashEntryPtr iter = oldtable[i]; while (iter) { virHashEntryPtr next = iter->next; size_t key = virHashComputeKey(table, iter->name); iter->next = table->table[key]; table->table[key] = iter; #ifdef DEBUG_GROW nbElem++; #endif iter = next; } } VIR_FREE(oldtable); #ifdef DEBUG_GROW VIR_DEBUG("virHashGrow : from %d to %d, %ld elems\n", oldsize, size, nbElem); #endif return (0); } /** * virHashFree: * @table: the hash table * * Free the hash @table and its contents. The userdata is * deallocated with function provided at creation time. */ void virHashFree(virHashTablePtr table) { size_t i; if (table == NULL) return; for (i = 0; i < table->size; i++) { virHashEntryPtr iter = table->table[i]; while (iter) { virHashEntryPtr next = iter->next; if (table->dataFree) table->dataFree(iter->payload, iter->name); if (table->keyFree) table->keyFree(iter->name); VIR_FREE(iter); iter = next; } } VIR_FREE(table->table); VIR_FREE(table); } static int virHashAddOrUpdateEntry(virHashTablePtr table, const void *name, void *userdata, bool is_update) { size_t key, len = 0; virHashEntryPtr entry; char *new_name; if ((table == NULL) || (name == NULL)) return (-1); if (table->iterating) virHashIterationError(-1); key = virHashComputeKey(table, name); /* Check for duplicate entry */ for (entry = table->table[key]; entry; entry = entry->next) { if (table->keyEqual(entry->name, name)) { if (is_update) { if (table->dataFree) table->dataFree(entry->payload, entry->name); entry->payload = userdata; return 0; } else { return -1; } } len++; } if (VIR_ALLOC(entry) < 0 || !(new_name = table->keyCopy(name))) { virReportOOMError(); VIR_FREE(entry); return -1; } entry->name = new_name; entry->payload = userdata; entry->next = table->table[key]; table->table[key] = entry; table->nbElems++; if (len > MAX_HASH_LEN) virHashGrow(table, MAX_HASH_LEN * table->size); return 0; } /** * virHashAddEntry: * @table: the hash table * @name: the name of the userdata * @userdata: a pointer to the userdata * * Add the @userdata to the hash @table. This can later be retrieved * by using @name. Duplicate entries generate errors. * * Returns 0 the addition succeeded and -1 in case of error. */ int virHashAddEntry(virHashTablePtr table, const void *name, void *userdata) { return virHashAddOrUpdateEntry(table, name, userdata, false); } /** * virHashUpdateEntry: * @table: the hash table * @name: the name of the userdata * @userdata: a pointer to the userdata * * Add the @userdata to the hash @table. This can later be retrieved * by using @name. Existing entry for this tuple * will be removed and freed with @f if found. * * Returns 0 the addition succeeded and -1 in case of error. */ int virHashUpdateEntry(virHashTablePtr table, const void *name, void *userdata) { return virHashAddOrUpdateEntry(table, name, userdata, true); } /** * virHashLookup: * @table: the hash table * @name: the name of the userdata * * Find the userdata specified by @name * * Returns the a pointer to the userdata */ void * virHashLookup(virHashTablePtr table, const void *name) { size_t key; virHashEntryPtr entry; if (!table || !name) return NULL; key = virHashComputeKey(table, name); for (entry = table->table[key]; entry; entry = entry->next) { if (table->keyEqual(entry->name, name)) return entry->payload; } return NULL; } /** * virHashSteal: * @table: the hash table * @name: the name of the userdata * * Find the userdata specified by @name * and remove it from the hash without freeing it. * * Returns the a pointer to the userdata */ void *virHashSteal(virHashTablePtr table, const void *name) { void *data = virHashLookup(table, name); if (data) { virHashDataFree dataFree = table->dataFree; table->dataFree = NULL; virHashRemoveEntry(table, name); table->dataFree = dataFree; } return data; } /** * virHashSize: * @table: the hash table * * Query the number of elements installed in the hash @table. * * Returns the number of elements in the hash table or * -1 in case of error */ ssize_t virHashSize(virHashTablePtr table) { if (table == NULL) return (-1); return (table->nbElems); } /** * virHashTableSize: * @table: the hash table * * Query the size of the hash @table, i.e., number of buckets in the table. * * Returns the number of keys in the hash table or * -1 in case of error */ ssize_t virHashTableSize(virHashTablePtr table) { if (table == NULL) return -1; return table->size; } /** * virHashRemoveEntry: * @table: the hash table * @name: the name of the userdata * * Find the userdata specified by the @name and remove * it from the hash @table. Existing userdata for this tuple will be removed * and freed with @f. * * Returns 0 if the removal succeeded and -1 in case of error or not found. */ int virHashRemoveEntry(virHashTablePtr table, const void *name) { virHashEntryPtr entry; virHashEntryPtr *nextptr; if (table == NULL || name == NULL) return (-1); nextptr = table->table + virHashComputeKey(table, name); for (entry = *nextptr; entry; entry = entry->next) { if (table->keyEqual(entry->name, name)) { if (table->iterating && table->current != entry) virHashIterationError(-1); if (table->dataFree) table->dataFree(entry->payload, entry->name); if (table->keyFree) table->keyFree(entry->name); *nextptr = entry->next; VIR_FREE(entry); table->nbElems--; return 0; } nextptr = &entry->next; } return -1; } /** * virHashForEach * @table: the hash table to process * @iter: callback to process each element * @data: opaque data to pass to the iterator * * Iterates over every element in the hash table, invoking the * 'iter' callback. The callback is allowed to remove the current element * using virHashRemoveEntry but calling other virHash* functions is prohibited. * * Returns number of items iterated over upon completion, -1 on failure */ ssize_t virHashForEach(virHashTablePtr table, virHashIterator iter, void *data) { size_t i, count = 0; if (table == NULL || iter == NULL) return (-1); if (table->iterating) virHashIterationError(-1); table->iterating = true; table->current = NULL; for (i = 0 ; i < table->size ; i++) { virHashEntryPtr entry = table->table[i]; while (entry) { virHashEntryPtr next = entry->next; table->current = entry; iter(entry->payload, entry->name, data); table->current = NULL; count++; entry = next; } } table->iterating = false; return (count); } /** * virHashRemoveSet * @table: the hash table to process * @iter: callback to identify elements for removal * @data: opaque data to pass to the iterator * * Iterates over all elements in the hash table, invoking the 'iter' * callback. If the callback returns a non-zero value, the element * will be removed from the hash table & its payload passed to the * data freer callback registered at creation. * * Returns number of items removed on success, -1 on failure */ ssize_t virHashRemoveSet(virHashTablePtr table, virHashSearcher iter, const void *data) { size_t i, count = 0; if (table == NULL || iter == NULL) return (-1); if (table->iterating) virHashIterationError(-1); table->iterating = true; table->current = NULL; for (i = 0 ; i < table->size ; i++) { virHashEntryPtr *nextptr = table->table + i; while (*nextptr) { virHashEntryPtr entry = *nextptr; if (!iter(entry->payload, entry->name, data)) { nextptr = &entry->next; } else { count++; if (table->dataFree) table->dataFree(entry->payload, entry->name); if (table->keyFree) table->keyFree(entry->name); *nextptr = entry->next; VIR_FREE(entry); table->nbElems--; } } } table->iterating = false; return count; } /** * virHashSearch: * @table: the hash table to search * @iter: an iterator to identify the desired element * @data: extra opaque information passed to the iter * * Iterates over the hash table calling the 'iter' callback * for each element. The first element for which the iter * returns non-zero will be returned by this function. * The elements are processed in a undefined order */ void *virHashSearch(virHashTablePtr table, virHashSearcher iter, const void *data) { size_t i; if (table == NULL || iter == NULL) return (NULL); if (table->iterating) virHashIterationError(NULL); table->iterating = true; table->current = NULL; for (i = 0 ; i < table->size ; i++) { virHashEntryPtr entry; for (entry = table->table[i]; entry; entry = entry->next) { if (iter(entry->payload, entry->name, data)) { table->iterating = false; return entry->payload; } } } table->iterating = false; return NULL; } struct getKeysIter { virHashKeyValuePair *sortArray; size_t arrayIdx; }; static void virHashGetKeysIterator(void *payload, const void *key, void *data) { struct getKeysIter *iter = data; iter->sortArray[iter->arrayIdx].key = key; iter->sortArray[iter->arrayIdx].value = payload; iter->arrayIdx++; } typedef int (*qsort_comp)(const void *, const void *); virHashKeyValuePairPtr virHashGetItems(virHashTablePtr table, virHashKeyComparator compar) { ssize_t numElems = virHashSize(table); struct getKeysIter iter = { .arrayIdx = 0, .sortArray = NULL, }; if (numElems < 0) return NULL; if (VIR_ALLOC_N(iter.sortArray, numElems + 1)) { virReportOOMError(); return NULL; } virHashForEach(table, virHashGetKeysIterator, &iter); if (compar) qsort(&iter.sortArray[0], numElems, sizeof(iter.sortArray[0]), (qsort_comp)compar); return iter.sortArray; } struct virHashEqualData { bool equal; const virHashTablePtr table2; virHashValueComparator compar; }; static int virHashEqualSearcher(const void *payload, const void *name, const void *data) { struct virHashEqualData *vhed = (void *)data; const void *value; value = virHashLookup(vhed->table2, name); if (!value || vhed->compar(value, payload) != 0) { /* key is missing in 2nd table or values are different */ vhed->equal = false; /* stop 'iteration' */ return 1; } return 0; } bool virHashEqual(const virHashTablePtr table1, const virHashTablePtr table2, virHashValueComparator compar) { struct virHashEqualData data = { .equal = true, .table2 = table2, .compar = compar, }; if (table1 == table2) return true; if (!table1 || !table2 || virHashSize(table1) != virHashSize(table2)) return false; virHashSearch(table1, virHashEqualSearcher, &data); return data.equal; }