// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0 /* Copyright (c) 2018 Mellanox Technologies. All rights reserved */ #include #include #include #include #include #include #include #define CREATE_TRACE_POINTS #include struct objagg_hints { struct rhashtable node_ht; struct rhashtable_params ht_params; struct list_head node_list; unsigned int node_count; unsigned int root_count; unsigned int refcount; const struct objagg_ops *ops; }; struct objagg_hints_node { struct rhash_head ht_node; /* member of objagg_hints->node_ht */ struct list_head list; /* member of objagg_hints->node_list */ struct objagg_hints_node *parent; unsigned int root_id; struct objagg_obj_stats_info stats_info; unsigned long obj[]; }; static struct objagg_hints_node * objagg_hints_lookup(struct objagg_hints *objagg_hints, void *obj) { if (!objagg_hints) return NULL; return rhashtable_lookup_fast(&objagg_hints->node_ht, obj, objagg_hints->ht_params); } struct objagg { const struct objagg_ops *ops; void *priv; struct rhashtable obj_ht; struct rhashtable_params ht_params; struct list_head obj_list; unsigned int obj_count; struct ida root_ida; struct objagg_hints *hints; }; struct objagg_obj { struct rhash_head ht_node; /* member of objagg->obj_ht */ struct list_head list; /* member of objagg->obj_list */ struct objagg_obj *parent; /* if the object is nested, this * holds pointer to parent, otherwise NULL */ union { void *delta_priv; /* user delta private */ void *root_priv; /* user root private */ }; unsigned int root_id; unsigned int refcount; /* counts number of users of this object * including nested objects */ struct objagg_obj_stats stats; unsigned long obj[]; }; static unsigned int objagg_obj_ref_inc(struct objagg_obj *objagg_obj) { return ++objagg_obj->refcount; } static unsigned int objagg_obj_ref_dec(struct objagg_obj *objagg_obj) { return --objagg_obj->refcount; } static void objagg_obj_stats_inc(struct objagg_obj *objagg_obj) { objagg_obj->stats.user_count++; objagg_obj->stats.delta_user_count++; if (objagg_obj->parent) objagg_obj->parent->stats.delta_user_count++; } static void objagg_obj_stats_dec(struct objagg_obj *objagg_obj) { objagg_obj->stats.user_count--; objagg_obj->stats.delta_user_count--; if (objagg_obj->parent) objagg_obj->parent->stats.delta_user_count--; } static bool objagg_obj_is_root(const struct objagg_obj *objagg_obj) { /* Nesting is not supported, so we can use ->parent * to figure out if the object is root. */ return !objagg_obj->parent; } /** * objagg_obj_root_priv - obtains root private for an object * @objagg_obj: objagg object instance * * Note: all locking must be provided by the caller. * * Either the object is root itself when the private is returned * directly, or the parent is root and its private is returned * instead. * * Returns a user private root pointer. */ const void *objagg_obj_root_priv(const struct objagg_obj *objagg_obj) { if (objagg_obj_is_root(objagg_obj)) return objagg_obj->root_priv; WARN_ON(!objagg_obj_is_root(objagg_obj->parent)); return objagg_obj->parent->root_priv; } EXPORT_SYMBOL(objagg_obj_root_priv); /** * objagg_obj_delta_priv - obtains delta private for an object * @objagg_obj: objagg object instance * * Note: all locking must be provided by the caller. * * Returns user private delta pointer or NULL in case the passed * object is root. */ const void *objagg_obj_delta_priv(const struct objagg_obj *objagg_obj) { if (objagg_obj_is_root(objagg_obj)) return NULL; return objagg_obj->delta_priv; } EXPORT_SYMBOL(objagg_obj_delta_priv); /** * objagg_obj_raw - obtains object user private pointer * @objagg_obj: objagg object instance * * Note: all locking must be provided by the caller. * * Returns user private pointer as was passed to objagg_obj_get() by "obj" arg. */ const void *objagg_obj_raw(const struct objagg_obj *objagg_obj) { return objagg_obj->obj; } EXPORT_SYMBOL(objagg_obj_raw); static struct objagg_obj *objagg_obj_lookup(struct objagg *objagg, void *obj) { return rhashtable_lookup_fast(&objagg->obj_ht, obj, objagg->ht_params); } static int objagg_obj_parent_assign(struct objagg *objagg, struct objagg_obj *objagg_obj, struct objagg_obj *parent, bool take_parent_ref) { void *delta_priv; if (WARN_ON(!objagg_obj_is_root(parent))) return -EINVAL; delta_priv = objagg->ops->delta_create(objagg->priv, parent->obj, objagg_obj->obj); if (IS_ERR(delta_priv)) return PTR_ERR(delta_priv); /* User returned a delta private, that means that * our object can be aggregated into the parent. */ objagg_obj->parent = parent; objagg_obj->delta_priv = delta_priv; if (take_parent_ref) objagg_obj_ref_inc(objagg_obj->parent); trace_objagg_obj_parent_assign(objagg, objagg_obj, parent, parent->refcount); return 0; } static int objagg_obj_parent_lookup_assign(struct objagg *objagg, struct objagg_obj *objagg_obj) { struct objagg_obj *objagg_obj_cur; int err; list_for_each_entry(objagg_obj_cur, &objagg->obj_list, list) { /* Nesting is not supported. In case the object * is not root, it cannot be assigned as parent. */ if (!objagg_obj_is_root(objagg_obj_cur)) continue; err = objagg_obj_parent_assign(objagg, objagg_obj, objagg_obj_cur, true); if (!err) return 0; } return -ENOENT; } static void __objagg_obj_put(struct objagg *objagg, struct objagg_obj *objagg_obj); static void objagg_obj_parent_unassign(struct objagg *objagg, struct objagg_obj *objagg_obj) { trace_objagg_obj_parent_unassign(objagg, objagg_obj, objagg_obj->parent, objagg_obj->parent->refcount); objagg->ops->delta_destroy(objagg->priv, objagg_obj->delta_priv); __objagg_obj_put(objagg, objagg_obj->parent); } static int objagg_obj_root_id_alloc(struct objagg *objagg, struct objagg_obj *objagg_obj, struct objagg_hints_node *hnode) { unsigned int min, max; int root_id; /* In case there are no hints available, the root id is invalid. */ if (!objagg->hints) { objagg_obj->root_id = OBJAGG_OBJ_ROOT_ID_INVALID; return 0; } if (hnode) { min = hnode->root_id; max = hnode->root_id; } else { /* For objects with no hint, start after the last * hinted root_id. */ min = objagg->hints->root_count; max = ~0; } root_id = ida_alloc_range(&objagg->root_ida, min, max, GFP_KERNEL); if (root_id < 0) return root_id; objagg_obj->root_id = root_id; return 0; } static void objagg_obj_root_id_free(struct objagg *objagg, struct objagg_obj *objagg_obj) { if (!objagg->hints) return; ida_free(&objagg->root_ida, objagg_obj->root_id); } static int objagg_obj_root_create(struct objagg *objagg, struct objagg_obj *objagg_obj, struct objagg_hints_node *hnode) { int err; err = objagg_obj_root_id_alloc(objagg, objagg_obj, hnode); if (err) return err; objagg_obj->root_priv = objagg->ops->root_create(objagg->priv, objagg_obj->obj, objagg_obj->root_id); if (IS_ERR(objagg_obj->root_priv)) { err = PTR_ERR(objagg_obj->root_priv); goto err_root_create; } trace_objagg_obj_root_create(objagg, objagg_obj); return 0; err_root_create: objagg_obj_root_id_free(objagg, objagg_obj); return err; } static void objagg_obj_root_destroy(struct objagg *objagg, struct objagg_obj *objagg_obj) { trace_objagg_obj_root_destroy(objagg, objagg_obj); objagg->ops->root_destroy(objagg->priv, objagg_obj->root_priv); objagg_obj_root_id_free(objagg, objagg_obj); } static struct objagg_obj *__objagg_obj_get(struct objagg *objagg, void *obj); static int objagg_obj_init_with_hints(struct objagg *objagg, struct objagg_obj *objagg_obj, bool *hint_found) { struct objagg_hints_node *hnode; struct objagg_obj *parent; int err; hnode = objagg_hints_lookup(objagg->hints, objagg_obj->obj); if (!hnode) { *hint_found = false; return 0; } *hint_found = true; if (!hnode->parent) return objagg_obj_root_create(objagg, objagg_obj, hnode); parent = __objagg_obj_get(objagg, hnode->parent->obj); if (IS_ERR(parent)) return PTR_ERR(parent); err = objagg_obj_parent_assign(objagg, objagg_obj, parent, false); if (err) { *hint_found = false; err = 0; goto err_parent_assign; } return 0; err_parent_assign: objagg_obj_put(objagg, parent); return err; } static int objagg_obj_init(struct objagg *objagg, struct objagg_obj *objagg_obj) { bool hint_found; int err; /* First, try to use hints if they are available and * if they provide result. */ err = objagg_obj_init_with_hints(objagg, objagg_obj, &hint_found); if (err) return err; if (hint_found) return 0; /* Try to find if the object can be aggregated under an existing one. */ err = objagg_obj_parent_lookup_assign(objagg, objagg_obj); if (!err) return 0; /* If aggregation is not possible, make the object a root. */ return objagg_obj_root_create(objagg, objagg_obj, NULL); } static void objagg_obj_fini(struct objagg *objagg, struct objagg_obj *objagg_obj) { if (!objagg_obj_is_root(objagg_obj)) objagg_obj_parent_unassign(objagg, objagg_obj); else objagg_obj_root_destroy(objagg, objagg_obj); } static struct objagg_obj *objagg_obj_create(struct objagg *objagg, void *obj) { struct objagg_obj *objagg_obj; int err; objagg_obj = kzalloc(sizeof(*objagg_obj) + objagg->ops->obj_size, GFP_KERNEL); if (!objagg_obj) return ERR_PTR(-ENOMEM); objagg_obj_ref_inc(objagg_obj); memcpy(objagg_obj->obj, obj, objagg->ops->obj_size); err = objagg_obj_init(objagg, objagg_obj); if (err) goto err_obj_init; err = rhashtable_insert_fast(&objagg->obj_ht, &objagg_obj->ht_node, objagg->ht_params); if (err) goto err_ht_insert; list_add(&objagg_obj->list, &objagg->obj_list); objagg->obj_count++; trace_objagg_obj_create(objagg, objagg_obj); return objagg_obj; err_ht_insert: objagg_obj_fini(objagg, objagg_obj); err_obj_init: kfree(objagg_obj); return ERR_PTR(err); } static struct objagg_obj *__objagg_obj_get(struct objagg *objagg, void *obj) { struct objagg_obj *objagg_obj; /* First, try to find the object exactly as user passed it, * perhaps it is already in use. */ objagg_obj = objagg_obj_lookup(objagg, obj); if (objagg_obj) { objagg_obj_ref_inc(objagg_obj); return objagg_obj; } return objagg_obj_create(objagg, obj); } /** * objagg_obj_get - gets an object within objagg instance * @objagg: objagg instance * @obj: user-specific private object pointer * * Note: all locking must be provided by the caller. * * Size of the "obj" memory is specified in "objagg->ops". * * There are 3 main options this function wraps: * 1) The object according to "obj" already exist. In that case * the reference counter is incrementes and the object is returned. * 2) The object does not exist, but it can be aggregated within * another object. In that case, user ops->delta_create() is called * to obtain delta data and a new object is created with returned * user-delta private pointer. * 3) The object does not exist and cannot be aggregated into * any of the existing objects. In that case, user ops->root_create() * is called to create the root and a new object is created with * returned user-root private pointer. * * Returns a pointer to objagg object instance in case of success, * otherwise it returns pointer error using ERR_PTR macro. */ struct objagg_obj *objagg_obj_get(struct objagg *objagg, void *obj) { struct objagg_obj *objagg_obj; objagg_obj = __objagg_obj_get(objagg, obj); if (IS_ERR(objagg_obj)) return objagg_obj; objagg_obj_stats_inc(objagg_obj); trace_objagg_obj_get(objagg, objagg_obj, objagg_obj->refcount); return objagg_obj; } EXPORT_SYMBOL(objagg_obj_get); static void objagg_obj_destroy(struct objagg *objagg, struct objagg_obj *objagg_obj) { trace_objagg_obj_destroy(objagg, objagg_obj); --objagg->obj_count; list_del(&objagg_obj->list); rhashtable_remove_fast(&objagg->obj_ht, &objagg_obj->ht_node, objagg->ht_params); objagg_obj_fini(objagg, objagg_obj); kfree(objagg_obj); } static void __objagg_obj_put(struct objagg *objagg, struct objagg_obj *objagg_obj) { if (!objagg_obj_ref_dec(objagg_obj)) objagg_obj_destroy(objagg, objagg_obj); } /** * objagg_obj_put - puts an object within objagg instance * @objagg: objagg instance * @objagg_obj: objagg object instance * * Note: all locking must be provided by the caller. * * Symmetric to objagg_obj_get(). */ void objagg_obj_put(struct objagg *objagg, struct objagg_obj *objagg_obj) { trace_objagg_obj_put(objagg, objagg_obj, objagg_obj->refcount); objagg_obj_stats_dec(objagg_obj); __objagg_obj_put(objagg, objagg_obj); } EXPORT_SYMBOL(objagg_obj_put); /** * objagg_create - creates a new objagg instance * @ops: user-specific callbacks * @objagg_hints: hints, can be NULL * @priv: pointer to a private data passed to the ops * * Note: all locking must be provided by the caller. * * The purpose of the library is to provide an infrastructure to * aggregate user-specified objects. Library does not care about the type * of the object. User fills-up ops which take care of the specific * user object manipulation. * * As a very stupid example, consider integer numbers. For example * number 8 as a root object. That can aggregate number 9 with delta 1, * number 10 with delta 2, etc. This example is implemented as * a part of a testing module in test_objagg.c file. * * Each objagg instance contains multiple trees. Each tree node is * represented by "an object". In the current implementation there can be * only roots and leafs nodes. Leaf nodes are called deltas. * But in general, this can be easily extended for intermediate nodes. * In that extension, a delta would be associated with all non-root * nodes. * * Returns a pointer to newly created objagg instance in case of success, * otherwise it returns pointer error using ERR_PTR macro. */ struct objagg *objagg_create(const struct objagg_ops *ops, struct objagg_hints *objagg_hints, void *priv) { struct objagg *objagg; int err; if (WARN_ON(!ops || !ops->root_create || !ops->root_destroy || !ops->delta_check || !ops->delta_create || !ops->delta_destroy)) return ERR_PTR(-EINVAL); objagg = kzalloc(sizeof(*objagg), GFP_KERNEL); if (!objagg) return ERR_PTR(-ENOMEM); objagg->ops = ops; if (objagg_hints) { objagg->hints = objagg_hints; objagg_hints->refcount++; } objagg->priv = priv; INIT_LIST_HEAD(&objagg->obj_list); objagg->ht_params.key_len = ops->obj_size; objagg->ht_params.key_offset = offsetof(struct objagg_obj, obj); objagg->ht_params.head_offset = offsetof(struct objagg_obj, ht_node); err = rhashtable_init(&objagg->obj_ht, &objagg->ht_params); if (err) goto err_rhashtable_init; ida_init(&objagg->root_ida); trace_objagg_create(objagg); return objagg; err_rhashtable_init: kfree(objagg); return ERR_PTR(err); } EXPORT_SYMBOL(objagg_create); /** * objagg_destroy - destroys a new objagg instance * @objagg: objagg instance * * Note: all locking must be provided by the caller. */ void objagg_destroy(struct objagg *objagg) { trace_objagg_destroy(objagg); ida_destroy(&objagg->root_ida); WARN_ON(!list_empty(&objagg->obj_list)); rhashtable_destroy(&objagg->obj_ht); if (objagg->hints) objagg_hints_put(objagg->hints); kfree(objagg); } EXPORT_SYMBOL(objagg_destroy); static int objagg_stats_info_sort_cmp_func(const void *a, const void *b) { const struct objagg_obj_stats_info *stats_info1 = a; const struct objagg_obj_stats_info *stats_info2 = b; if (stats_info1->is_root != stats_info2->is_root) return stats_info2->is_root - stats_info1->is_root; if (stats_info1->stats.delta_user_count != stats_info2->stats.delta_user_count) return stats_info2->stats.delta_user_count - stats_info1->stats.delta_user_count; return stats_info2->stats.user_count - stats_info1->stats.user_count; } /** * objagg_stats_get - obtains stats of the objagg instance * @objagg: objagg instance * * Note: all locking must be provided by the caller. * * The returned structure contains statistics of all object * currently in use, ordered by following rules: * 1) Root objects are always on lower indexes than the rest. * 2) Objects with higher delta user count are always on lower * indexes. * 3) In case more objects have the same delta user count, * the objects are ordered by user count. * * Returns a pointer to stats instance in case of success, * otherwise it returns pointer error using ERR_PTR macro. */ const struct objagg_stats *objagg_stats_get(struct objagg *objagg) { struct objagg_stats *objagg_stats; struct objagg_obj *objagg_obj; int i; objagg_stats = kzalloc(struct_size(objagg_stats, stats_info, objagg->obj_count), GFP_KERNEL); if (!objagg_stats) return ERR_PTR(-ENOMEM); i = 0; list_for_each_entry(objagg_obj, &objagg->obj_list, list) { memcpy(&objagg_stats->stats_info[i].stats, &objagg_obj->stats, sizeof(objagg_stats->stats_info[0].stats)); objagg_stats->stats_info[i].objagg_obj = objagg_obj; objagg_stats->stats_info[i].is_root = objagg_obj_is_root(objagg_obj); if (objagg_stats->stats_info[i].is_root) objagg_stats->root_count++; i++; } objagg_stats->stats_info_count = i; sort(objagg_stats->stats_info, objagg_stats->stats_info_count, sizeof(struct objagg_obj_stats_info), objagg_stats_info_sort_cmp_func, NULL); return objagg_stats; } EXPORT_SYMBOL(objagg_stats_get); /** * objagg_stats_put - puts stats of the objagg instance * @objagg_stats: objagg instance stats * * Note: all locking must be provided by the caller. */ void objagg_stats_put(const struct objagg_stats *objagg_stats) { kfree(objagg_stats); } EXPORT_SYMBOL(objagg_stats_put); static struct objagg_hints_node * objagg_hints_node_create(struct objagg_hints *objagg_hints, struct objagg_obj *objagg_obj, size_t obj_size, struct objagg_hints_node *parent_hnode) { unsigned int user_count = objagg_obj->stats.user_count; struct objagg_hints_node *hnode; int err; hnode = kzalloc(sizeof(*hnode) + obj_size, GFP_KERNEL); if (!hnode) return ERR_PTR(-ENOMEM); memcpy(hnode->obj, &objagg_obj->obj, obj_size); hnode->stats_info.stats.user_count = user_count; hnode->stats_info.stats.delta_user_count = user_count; if (parent_hnode) { parent_hnode->stats_info.stats.delta_user_count += user_count; } else { hnode->root_id = objagg_hints->root_count++; hnode->stats_info.is_root = true; } hnode->stats_info.objagg_obj = objagg_obj; err = rhashtable_insert_fast(&objagg_hints->node_ht, &hnode->ht_node, objagg_hints->ht_params); if (err) goto err_ht_insert; list_add(&hnode->list, &objagg_hints->node_list); hnode->parent = parent_hnode; objagg_hints->node_count++; return hnode; err_ht_insert: kfree(hnode); return ERR_PTR(err); } static void objagg_hints_flush(struct objagg_hints *objagg_hints) { struct objagg_hints_node *hnode, *tmp; list_for_each_entry_safe(hnode, tmp, &objagg_hints->node_list, list) { list_del(&hnode->list); rhashtable_remove_fast(&objagg_hints->node_ht, &hnode->ht_node, objagg_hints->ht_params); kfree(hnode); } } struct objagg_tmp_node { struct objagg_obj *objagg_obj; bool crossed_out; }; struct objagg_tmp_graph { struct objagg_tmp_node *nodes; unsigned long nodes_count; unsigned long *edges; }; static int objagg_tmp_graph_edge_index(struct objagg_tmp_graph *graph, int parent_index, int index) { return index * graph->nodes_count + parent_index; } static void objagg_tmp_graph_edge_set(struct objagg_tmp_graph *graph, int parent_index, int index) { int edge_index = objagg_tmp_graph_edge_index(graph, index, parent_index); __set_bit(edge_index, graph->edges); } static bool objagg_tmp_graph_is_edge(struct objagg_tmp_graph *graph, int parent_index, int index) { int edge_index = objagg_tmp_graph_edge_index(graph, index, parent_index); return test_bit(edge_index, graph->edges); } static unsigned int objagg_tmp_graph_node_weight(struct objagg_tmp_graph *graph, unsigned int index) { struct objagg_tmp_node *node = &graph->nodes[index]; unsigned int weight = node->objagg_obj->stats.user_count; int j; /* Node weight is sum of node users and all other nodes users * that this node can represent with delta. */ for (j = 0; j < graph->nodes_count; j++) { if (!objagg_tmp_graph_is_edge(graph, index, j)) continue; node = &graph->nodes[j]; if (node->crossed_out) continue; weight += node->objagg_obj->stats.user_count; } return weight; } static int objagg_tmp_graph_node_max_weight(struct objagg_tmp_graph *graph) { struct objagg_tmp_node *node; unsigned int max_weight = 0; unsigned int weight; int max_index = -1; int i; for (i = 0; i < graph->nodes_count; i++) { node = &graph->nodes[i]; if (node->crossed_out) continue; weight = objagg_tmp_graph_node_weight(graph, i); if (weight >= max_weight) { max_weight = weight; max_index = i; } } return max_index; } static struct objagg_tmp_graph *objagg_tmp_graph_create(struct objagg *objagg) { unsigned int nodes_count = objagg->obj_count; struct objagg_tmp_graph *graph; struct objagg_tmp_node *node; struct objagg_tmp_node *pnode; struct objagg_obj *objagg_obj; int i, j; graph = kzalloc(sizeof(*graph), GFP_KERNEL); if (!graph) return NULL; graph->nodes = kcalloc(nodes_count, sizeof(*graph->nodes), GFP_KERNEL); if (!graph->nodes) goto err_nodes_alloc; graph->nodes_count = nodes_count; graph->edges = bitmap_zalloc(nodes_count * nodes_count, GFP_KERNEL); if (!graph->edges) goto err_edges_alloc; i = 0; list_for_each_entry(objagg_obj, &objagg->obj_list, list) { node = &graph->nodes[i++]; node->objagg_obj = objagg_obj; } /* Assemble a temporary graph. Insert edge X->Y in case Y can be * in delta of X. */ for (i = 0; i < nodes_count; i++) { for (j = 0; j < nodes_count; j++) { if (i == j) continue; pnode = &graph->nodes[i]; node = &graph->nodes[j]; if (objagg->ops->delta_check(objagg->priv, pnode->objagg_obj->obj, node->objagg_obj->obj)) { objagg_tmp_graph_edge_set(graph, i, j); } } } return graph; err_edges_alloc: kfree(graph->nodes); err_nodes_alloc: kfree(graph); return NULL; } static void objagg_tmp_graph_destroy(struct objagg_tmp_graph *graph) { bitmap_free(graph->edges); kfree(graph->nodes); kfree(graph); } static int objagg_opt_simple_greedy_fillup_hints(struct objagg_hints *objagg_hints, struct objagg *objagg) { struct objagg_hints_node *hnode, *parent_hnode; struct objagg_tmp_graph *graph; struct objagg_tmp_node *node; int index; int j; int err; graph = objagg_tmp_graph_create(objagg); if (!graph) return -ENOMEM; /* Find the nodes from the ones that can accommodate most users * and cross them out of the graph. Save them to the hint list. */ while ((index = objagg_tmp_graph_node_max_weight(graph)) != -1) { node = &graph->nodes[index]; node->crossed_out = true; hnode = objagg_hints_node_create(objagg_hints, node->objagg_obj, objagg->ops->obj_size, NULL); if (IS_ERR(hnode)) { err = PTR_ERR(hnode); goto out; } parent_hnode = hnode; for (j = 0; j < graph->nodes_count; j++) { if (!objagg_tmp_graph_is_edge(graph, index, j)) continue; node = &graph->nodes[j]; if (node->crossed_out) continue; node->crossed_out = true; hnode = objagg_hints_node_create(objagg_hints, node->objagg_obj, objagg->ops->obj_size, parent_hnode); if (IS_ERR(hnode)) { err = PTR_ERR(hnode); goto out; } } } err = 0; out: objagg_tmp_graph_destroy(graph); return err; } struct objagg_opt_algo { int (*fillup_hints)(struct objagg_hints *objagg_hints, struct objagg *objagg); }; static const struct objagg_opt_algo objagg_opt_simple_greedy = { .fillup_hints = objagg_opt_simple_greedy_fillup_hints, }; static const struct objagg_opt_algo *objagg_opt_algos[] = { [OBJAGG_OPT_ALGO_SIMPLE_GREEDY] = &objagg_opt_simple_greedy, }; /** * objagg_hints_get - obtains hints instance * @objagg: objagg instance * @opt_algo_type: type of hints finding algorithm * * Note: all locking must be provided by the caller. * * According to the algo type, the existing objects of objagg instance * are going to be went-through to assemble an optimal tree. We call this * tree hints. These hints can be later on used for creation of * a new objagg instance. There, the future object creations are going * to be consulted with these hints in order to find out, where exactly * the new object should be put as a root or delta. * * Returns a pointer to hints instance in case of success, * otherwise it returns pointer error using ERR_PTR macro. */ struct objagg_hints *objagg_hints_get(struct objagg *objagg, enum objagg_opt_algo_type opt_algo_type) { const struct objagg_opt_algo *algo = objagg_opt_algos[opt_algo_type]; struct objagg_hints *objagg_hints; int err; objagg_hints = kzalloc(sizeof(*objagg_hints), GFP_KERNEL); if (!objagg_hints) return ERR_PTR(-ENOMEM); objagg_hints->ops = objagg->ops; objagg_hints->refcount = 1; INIT_LIST_HEAD(&objagg_hints->node_list); objagg_hints->ht_params.key_len = objagg->ops->obj_size; objagg_hints->ht_params.key_offset = offsetof(struct objagg_hints_node, obj); objagg_hints->ht_params.head_offset = offsetof(struct objagg_hints_node, ht_node); err = rhashtable_init(&objagg_hints->node_ht, &objagg_hints->ht_params); if (err) goto err_rhashtable_init; err = algo->fillup_hints(objagg_hints, objagg); if (err) goto err_fillup_hints; if (WARN_ON(objagg_hints->node_count != objagg->obj_count)) { err = -EINVAL; goto err_node_count_check; } return objagg_hints; err_node_count_check: err_fillup_hints: objagg_hints_flush(objagg_hints); rhashtable_destroy(&objagg_hints->node_ht); err_rhashtable_init: kfree(objagg_hints); return ERR_PTR(err); } EXPORT_SYMBOL(objagg_hints_get); /** * objagg_hints_put - puts hints instance * @objagg_hints: objagg hints instance * * Note: all locking must be provided by the caller. */ void objagg_hints_put(struct objagg_hints *objagg_hints) { if (--objagg_hints->refcount) return; objagg_hints_flush(objagg_hints); rhashtable_destroy(&objagg_hints->node_ht); kfree(objagg_hints); } EXPORT_SYMBOL(objagg_hints_put); /** * objagg_hints_stats_get - obtains stats of the hints instance * @objagg_hints: hints instance * * Note: all locking must be provided by the caller. * * The returned structure contains statistics of all objects * currently in use, ordered by following rules: * 1) Root objects are always on lower indexes than the rest. * 2) Objects with higher delta user count are always on lower * indexes. * 3) In case multiple objects have the same delta user count, * the objects are ordered by user count. * * Returns a pointer to stats instance in case of success, * otherwise it returns pointer error using ERR_PTR macro. */ const struct objagg_stats * objagg_hints_stats_get(struct objagg_hints *objagg_hints) { struct objagg_stats *objagg_stats; struct objagg_hints_node *hnode; int i; objagg_stats = kzalloc(struct_size(objagg_stats, stats_info, objagg_hints->node_count), GFP_KERNEL); if (!objagg_stats) return ERR_PTR(-ENOMEM); i = 0; list_for_each_entry(hnode, &objagg_hints->node_list, list) { memcpy(&objagg_stats->stats_info[i], &hnode->stats_info, sizeof(objagg_stats->stats_info[0])); if (objagg_stats->stats_info[i].is_root) objagg_stats->root_count++; i++; } objagg_stats->stats_info_count = i; sort(objagg_stats->stats_info, objagg_stats->stats_info_count, sizeof(struct objagg_obj_stats_info), objagg_stats_info_sort_cmp_func, NULL); return objagg_stats; } EXPORT_SYMBOL(objagg_hints_stats_get); MODULE_LICENSE("Dual BSD/GPL"); MODULE_AUTHOR("Jiri Pirko "); MODULE_DESCRIPTION("Object aggregation manager");