/* * Copyright (c) 2009, 2010 Nicira Networks. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "shash.h" #include #include "hash.h" static struct shash_node *shash_find__(const struct shash *, const char *name, size_t hash); static size_t hash_name(const char *name) { return hash_string(name, 0); } void shash_init(struct shash *sh) { hmap_init(&sh->map); } void shash_destroy(struct shash *sh) { if (sh) { shash_clear(sh); hmap_destroy(&sh->map); } } /* Like shash_destroy(), but also free() each node's 'data'. */ void shash_destroy_free_data(struct shash *sh) { if (sh) { shash_clear_free_data(sh); hmap_destroy(&sh->map); } } void shash_swap(struct shash *a, struct shash *b) { hmap_swap(&a->map, &b->map); } void shash_moved(struct shash *sh) { hmap_moved(&sh->map); } void shash_clear(struct shash *sh) { struct shash_node *node, *next; SHASH_FOR_EACH_SAFE (node, next, sh) { hmap_remove(&sh->map, &node->node); free(node->name); free(node); } } /* Like shash_clear(), but also free() each node's 'data'. */ void shash_clear_free_data(struct shash *sh) { struct shash_node *node, *next; SHASH_FOR_EACH_SAFE (node, next, sh) { hmap_remove(&sh->map, &node->node); free(node->data); free(node->name); free(node); } } bool shash_is_empty(const struct shash *shash) { return hmap_is_empty(&shash->map); } size_t shash_count(const struct shash *shash) { return hmap_count(&shash->map); } static struct shash_node * shash_add_nocopy__(struct shash *sh, char *name, const void *data, size_t hash) { struct shash_node *node = xmalloc(sizeof *node); node->name = name; node->data = (void *) data; hmap_insert(&sh->map, &node->node, hash); return node; } /* It is the caller's responsibility to avoid duplicate names, if that is * desirable. */ struct shash_node * shash_add_nocopy(struct shash *sh, char *name, const void *data) { return shash_add_nocopy__(sh, name, data, hash_name(name)); } /* It is the caller's responsibility to avoid duplicate names, if that is * desirable. */ struct shash_node * shash_add(struct shash *sh, const char *name, const void *data) { return shash_add_nocopy(sh, xstrdup(name), data); } bool shash_add_once(struct shash *sh, const char *name, const void *data) { if (!shash_find(sh, name)) { shash_add(sh, name, data); return true; } else { return false; } } void shash_add_assert(struct shash *sh, const char *name, const void *data) { bool added OVS_UNUSED = shash_add_once(sh, name, data); assert(added); } /* Searches for 'name' in 'sh'. If it does not already exist, adds it along * with 'data' and returns NULL. If it does already exist, replaces its data * by 'data' and returns the data that it formerly contained. */ void * shash_replace(struct shash *sh, const char *name, const void *data) { size_t hash = hash_name(name); struct shash_node *node; node = shash_find__(sh, name, hash); if (!node) { shash_add_nocopy__(sh, xstrdup(name), data, hash); return NULL; } else { void *old_data = node->data; node->data = (void *) data; return old_data; } } /* Deletes 'node' from 'sh' and frees the node's name. The caller is still * responsible for freeing the node's data, if necessary. */ void shash_delete(struct shash *sh, struct shash_node *node) { free(shash_steal(sh, node)); } /* Deletes 'node' from 'sh'. Neither the node's name nor its data is freed; * instead, ownership is transferred to the caller. Returns the node's * name. */ char * shash_steal(struct shash *sh, struct shash_node *node) { char *name = node->name; hmap_remove(&sh->map, &node->node); free(node); return name; } static struct shash_node * shash_find__(const struct shash *sh, const char *name, size_t hash) { struct shash_node *node; HMAP_FOR_EACH_WITH_HASH (node, node, hash, &sh->map) { if (!strcmp(node->name, name)) { return node; } } return NULL; } /* If there are duplicates, returns a random element. */ struct shash_node * shash_find(const struct shash *sh, const char *name) { return shash_find__(sh, name, hash_name(name)); } void * shash_find_data(const struct shash *sh, const char *name) { struct shash_node *node = shash_find(sh, name); return node ? node->data : NULL; } void * shash_find_and_delete(struct shash *sh, const char *name) { struct shash_node *node = shash_find(sh, name); if (node) { void *data = node->data; shash_delete(sh, node); return data; } else { return NULL; } } void * shash_find_and_delete_assert(struct shash *sh, const char *name) { void *data = shash_find_and_delete(sh, name); assert(data != NULL); return data; } struct shash_node * shash_first(const struct shash *shash) { struct hmap_node *node = hmap_first(&shash->map); return node ? CONTAINER_OF(node, struct shash_node, node) : NULL; } static int compare_nodes_by_name(const void *a_, const void *b_) { const struct shash_node *const *a = a_; const struct shash_node *const *b = b_; return strcmp((*a)->name, (*b)->name); } const struct shash_node ** shash_sort(const struct shash *sh) { if (shash_is_empty(sh)) { return NULL; } else { const struct shash_node **nodes; struct shash_node *node; size_t i, n; n = shash_count(sh); nodes = xmalloc(n * sizeof *nodes); i = 0; SHASH_FOR_EACH (node, sh) { nodes[i++] = node; } assert(i == n); qsort(nodes, n, sizeof *nodes, compare_nodes_by_name); return nodes; } } /* Returns true if 'a' and 'b' contain the same keys (regardless of their * values), false otherwise. */ bool shash_equal_keys(const struct shash *a, const struct shash *b) { struct shash_node *node; if (hmap_count(&a->map) != hmap_count(&b->map)) { return false; } SHASH_FOR_EACH (node, a) { if (!shash_find(b, node->name)) { return false; } } return true; } /* Chooses and returns a randomly selected node from 'sh', which must not be * empty. * * I wouldn't depend on this algorithm to be fair, since I haven't analyzed it. * But it does at least ensure that any node in 'sh' can be chosen. */ struct shash_node * shash_random_node(struct shash *sh) { return CONTAINER_OF(hmap_random_node(&sh->map), struct shash_node, node); } /* String-to-string maps (smaps). */ /* Frees 'smap', including its keys and string values. */ void smap_destroy(struct shash *smap) { shash_destroy_free_data(smap); } /* Returns true if string-to-string maps 'a' and 'b' contain the same keys and * values, false otherwise. */ bool smap_equal(const struct shash *a, const struct shash *b) { struct shash_node *a_node; if (shash_count(a) != shash_count(b)) { return false; } SHASH_FOR_EACH (a_node, a) { uint32_t hash = a_node->node.hash; struct shash_node *b_node = shash_find__(b, a_node->name, hash); if (!b_node || strcmp(a_node->data, b_node->data)) { return false; } } return true; } /* Initializes 'dst' as a clone of 'src'. */ void smap_clone(struct shash *dst, const struct shash *src) { struct shash_node *node; shash_init(dst); SHASH_FOR_EACH (node, src) { shash_add_nocopy__(dst, xstrdup(node->name), xstrdup(node->data), node->node.hash); } } /* Adds 'key' with string 'value' to 'smap', making a copy of each. * * It is the caller's responsibility to avoid duplicate names, if that is * desirable. */ void smap_add(struct shash *smap, const char *key, const char *value) { shash_add(smap, key, xstrdup(value)); }