uint16_t pool_size_order; /* pool size */
};
-/*
- * Number of least significant pointer bits reserved to represent the
- * child type.
- */
-#define JA_TYPE_BITS 3
-#define JA_TYPE_MAX_NR (1UL << JA_TYPE_BITS)
-#define JA_TYPE_MASK (JA_TYPE_MAX_NR - 1)
-#define JA_PTR_MASK (~JA_TYPE_MASK)
-
-#define JA_ENTRY_PER_NODE 256UL
-#define JA_LOG2_BITS_PER_BYTE 3U
-#define JA_BITS_PER_BYTE (1U << JA_LOG2_BITS_PER_BYTE)
-
-#define JA_MAX_DEPTH 9 /* Maximum depth, including leafs */
-
-/*
- * Entry for NULL node is at index 8 of the table. It is never encoded
- * in flags.
- */
-#define NODE_INDEX_NULL 8
-
-/*
- * Number of removals needed on a fallback node before we try to shrink
- * it.
- */
-#define JA_FALLBACK_REMOVAL_COUNT 8
-
/*
* Iteration on the array to find the right node size for the number of
* children stops when it reaches .max_child == 256 (this is the largest
JA_RECOMPACT_DEL,
};
-static
-struct cds_ja_inode_flag *ja_node_flag(struct cds_ja_inode *node,
- unsigned long type)
-{
- assert(type < (1UL << JA_TYPE_BITS));
- return (struct cds_ja_inode_flag *) (((unsigned long) node) | type);
-}
-
-static
-struct cds_ja_inode *ja_node_ptr(struct cds_ja_inode_flag *node)
-{
- return (struct cds_ja_inode *) (((unsigned long) node) & JA_PTR_MASK);
-}
-
-static
-unsigned long ja_node_type(struct cds_ja_inode_flag *node)
-{
- unsigned long type;
-
- if (ja_node_ptr(node) == NULL) {
- return NODE_INDEX_NULL;
- }
- type = (unsigned int) ((unsigned long) node & JA_TYPE_MASK);
- assert(type < (1UL << JA_TYPE_BITS));
- return type;
-}
-
struct cds_ja_inode *alloc_cds_ja_node(const struct cds_ja_type *ja_type)
{
return calloc(1U << ja_type->order, sizeof(char));
struct cds_ja_inode_flag **node_flag_ptr)
{
assert(type->type_class == RCU_JA_PIGEON);
+ dbg_printf("ja_pigeon_node_clear_ptr: clearing ptr: %p\n", *node_flag_ptr);
rcu_assign_pointer(*node_flag_ptr, NULL);
shadow_node->nr_child--;
return 0;
const struct cds_ja_type *old_type,
struct cds_ja_inode *old_node,
struct cds_ja_shadow_node *shadow_node,
- struct cds_ja_inode_flag **old_node_flag, uint8_t n,
+ struct cds_ja_inode_flag **old_node_flag_ptr, uint8_t n,
struct cds_ja_inode_flag *child_node_flag,
struct cds_ja_inode_flag **nullify_node_flag_ptr)
{
struct cds_ja_inode *new_node;
struct cds_ja_shadow_node *new_shadow_node = NULL;
const struct cds_ja_type *new_type;
- struct cds_ja_inode_flag *new_node_flag;
+ struct cds_ja_inode_flag *new_node_flag, *old_node_flag;
int ret;
int fallback = 0;
+ old_node_flag = *old_node_flag_ptr;
+
switch (mode) {
case JA_RECOMPACT:
new_type_index = old_type_index;
return -ENOMEM;
new_node_flag = ja_node_flag(new_node, new_type_index);
dbg_printf("Recompact inherit lock from %p\n", shadow_node);
- new_shadow_node = rcuja_shadow_set(ja->ht, new_node, shadow_node);
+ new_shadow_node = rcuja_shadow_set(ja->ht, new_node_flag, shadow_node, ja);
if (!new_shadow_node) {
free(new_node);
return -ENOMEM;
}
skip_copy:
- if (JA_RECOMPACT_ADD) {
+ if (mode == JA_RECOMPACT_ADD) {
/* add node */
ret = _ja_node_set_nth(new_type, new_node,
new_shadow_node,
n, child_node_flag);
assert(!ret);
}
- /* Return pointer to new recompacted node through old_node_flag */
- *old_node_flag = new_node_flag;
+ /* Return pointer to new recompacted node through old_node_flag_ptr */
+ *old_node_flag_ptr = new_node_flag;
if (old_node) {
int flags;
*/
if (new_type_index == NODE_INDEX_NULL)
flags = RCUJA_SHADOW_CLEAR_FREE_LOCK;
- ret = rcuja_shadow_clear(ja->ht, old_node, shadow_node,
+ ret = rcuja_shadow_clear(ja->ht, old_node_flag, shadow_node,
flags);
assert(!ret);
}
fallback_toosmall:
/* fallback if next pool is too small */
assert(new_shadow_node);
- ret = rcuja_shadow_clear(ja->ht, new_node, new_shadow_node,
+ ret = rcuja_shadow_clear(ja->ht, new_node_flag, new_shadow_node,
RCUJA_SHADOW_CLEAR_FREE_NODE);
assert(!ret);
level, node, node_flag);
assert(node);
- shadow_node = rcuja_shadow_lookup_lock(ja->ht, node);
+ shadow_node = rcuja_shadow_lookup_lock(ja->ht, node_flag);
if (!shadow_node) {
ret = -EAGAIN;
goto end;
}
if (parent_node) {
parent_shadow_node = rcuja_shadow_lookup_lock(ja->ht,
- parent_node);
+ parent_node_flag);
if (!parent_shadow_node) {
ret = -EAGAIN;
goto unlock_shadow;
if (i)
flags |= RCUJA_SHADOW_CLEAR_FREE_NODE;
tmpret = rcuja_shadow_clear(ja->ht,
- ja_node_ptr(created_nodes[i]),
+ created_nodes[i],
NULL,
flags);
assert(!tmpret);
{
struct cds_ja_shadow_node *shadow_node;
- shadow_node = rcuja_shadow_lookup_lock(ja->ht,
- ja_node_ptr(parent_node_flag));
+ shadow_node = rcuja_shadow_lookup_lock(ja->ht, parent_node_flag);
if (!shadow_node)
return -EAGAIN;
cds_hlist_add_head_rcu(&node->list, head);
*parent_node_flag = NULL,
**parent_node_flag_ptr = NULL;
struct cds_ja_inode_flag *iter_node_flag;
- int ret, i, nr_shadow = 0, nr_clear = 0;
- uint8_t n;
+ int ret, i, nr_shadow = 0, nr_clear = 0, nr_branch = 0;
+ uint8_t n = 0;
- assert(nr_snapshot == ja->tree_depth - 1);
+ assert(nr_snapshot == ja->tree_depth + 1);
/*
* From the last internal level node going up, get the node
* which has more that one child left, we lock the parent, and
* proceed to the node deletion (removing its children too).
*/
- for (i = nr_snapshot - 1; i >= 1; i--) {
+ for (i = nr_snapshot - 2; i >= 1; i--) {
struct cds_ja_shadow_node *shadow_node;
shadow_node = rcuja_shadow_lookup_lock(ja->ht,
- ja_node_ptr(snapshot[i]));
+ snapshot[i]);
if (!shadow_node) {
ret = -EAGAIN;
goto end;
}
assert(shadow_node->nr_child > 0);
shadow_nodes[nr_shadow++] = shadow_node;
- nr_clear++;
- if (i == nr_snapshot - 1) {
- /*
- * Re-check that last internal node level has
- * only one child, else trigger a retry.
- */
- if (shadow_node->nr_child != 1) {
- ret = -EAGAIN;
- goto end;
- }
- }
+ if (shadow_node->nr_child == 1)
+ nr_clear++;
+ nr_branch++;
if (shadow_node->nr_child > 1 || i == 1) {
/* Lock parent and break */
shadow_node = rcuja_shadow_lookup_lock(ja->ht,
- ja_node_ptr(snapshot[i - 1]));
+ snapshot[i - 1]);
if (!shadow_node) {
ret = -EAGAIN;
goto end;
}
shadow_nodes[nr_shadow++] = shadow_node;
- node_flag_ptr = snapshot_ptr[i];
- n = snapshot_n[i];
- parent_node_flag_ptr = snapshot_ptr[i - 1];
- parent_node_flag = snapshot[i - 1];
+ node_flag_ptr = snapshot_ptr[i + 1];
+ n = snapshot_n[i + 1];
+ parent_node_flag_ptr = snapshot_ptr[i];
+ parent_node_flag = snapshot[i];
if (i > 1) {
/*
* Lock parent's parent, in case we need
* to recompact parent.
*/
shadow_node = rcuja_shadow_lookup_lock(ja->ht,
- ja_node_ptr(snapshot[i - 2]));
+ snapshot[i - 2]);
if (!shadow_node) {
ret = -EAGAIN;
goto end;
}
/*
- * At this point, we want to delete all nodes in shadow_nodes
- * (except the last one, which is either the root or the parent
- * of the upmost node with 1 child). OK to as to free lock here,
- * because RCU read lock is held, and free only performed in
- * call_rcu.
+ * At this point, we want to delete all nodes that are about to
+ * be removed from shadow_nodes (except the last one, which is
+ * either the root or the parent of the upmost node with 1
+ * child). OK to as to free lock here, because RCU read lock is
+ * held, and free only performed in call_rcu.
*/
for (i = 0; i < nr_clear; i++) {
ret = rcuja_shadow_clear(ja->ht,
- shadow_nodes[i]->node,
+ shadow_nodes[i]->node_flag,
shadow_nodes[i],
RCUJA_SHADOW_CLEAR_FREE_NODE
| RCUJA_SHADOW_CLEAR_FREE_LOCK);
ret = ja_node_clear_ptr(ja,
node_flag_ptr, /* Pointer to location to nullify */
&iter_node_flag, /* Old new parent ptr in its parent */
- shadow_nodes[nr_clear], /* of parent */
+ shadow_nodes[nr_branch - 1], /* of parent */
n);
+ dbg_printf("ja_detach_node: publish %p instead of %p\n",
+ iter_node_flag, *parent_node_flag_ptr);
/* Update address of parent ptr in its parent */
rcu_assign_pointer(*parent_node_flag_ptr, iter_node_flag);
static
int ja_unchain_node(struct cds_ja *ja,
struct cds_ja_inode_flag *parent_node_flag,
+ struct cds_hlist_head *head,
struct cds_ja_node *node)
{
struct cds_ja_shadow_node *shadow_node;
- int ret = 0;
+ struct cds_hlist_node *hlist_node;
+ int ret = 0, count = 0;
- shadow_node = rcuja_shadow_lookup_lock(ja->ht,
- ja_node_ptr(parent_node_flag));
+ shadow_node = rcuja_shadow_lookup_lock(ja->ht, parent_node_flag);
if (!shadow_node)
return -EAGAIN;
/*
* Retry if another thread removed all but one of duplicates
- * since check.
+ * since check (that was performed without lock).
*/
- if (shadow_node->nr_child == 1) {
+ cds_hlist_for_each_rcu(hlist_node, head, list) {
+ count++;
+ }
+
+ if (count == 1) {
ret = -EAGAIN;
goto end;
}
uint8_t snapshot_n[JA_MAX_DEPTH];
struct cds_ja_inode_flag *node_flag;
struct cds_ja_inode_flag **prev_node_flag_ptr;
- int nr_snapshot = 0;
+ int nr_snapshot;
int ret;
if (caa_unlikely(key > ja->key_max))
tree_depth = ja->tree_depth;
retry:
+ nr_snapshot = 0;
dbg_printf("cds_ja_del attempt: key %" PRIu64 ", node %p\n",
key, node);
/* snapshot for level 0 is only for shadow node lookup */
- snapshot_n[nr_snapshot] = 0;
+ snapshot_n[0] = 0;
+ snapshot_n[1] = 0;
snapshot_ptr[nr_snapshot] = NULL;
snapshot[nr_snapshot++] = (struct cds_ja_inode_flag *) &ja->root;
node_flag = rcu_dereference(ja->root);
return -ENOENT;
}
iter_key = (uint8_t) (key >> (JA_BITS_PER_BYTE * (tree_depth - i - 1)));
- if (nr_snapshot <= 1)
- snapshot_n[nr_snapshot] = 0;
- else
- snapshot_n[nr_snapshot - 1] = iter_key;
-
+ snapshot_n[nr_snapshot + 1] = iter_key;
snapshot_ptr[nr_snapshot] = prev_node_flag_ptr;
snapshot[nr_snapshot++] = node_flag;
node_flag = ja_node_get_nth(node_flag,
* to remove. Fail if we cannot find it.
*/
if (!ja_node_ptr(node_flag)) {
+ dbg_printf("cds_ja_del: no node found for key %" PRIu64 "\n",
+ key);
return -ENOENT;
} else {
- struct cds_hlist_head *hlist_head;
+ struct cds_hlist_head hlist_head;
struct cds_hlist_node *hlist_node;
struct cds_ja_node *entry, *match = NULL;
int count = 0;
- hlist_head = (struct cds_hlist_head *) ja_node_ptr(node_flag);
+ hlist_head.next =
+ (struct cds_hlist_node *) ja_node_ptr(node_flag);
cds_hlist_for_each_entry_rcu(entry,
hlist_node,
- hlist_head,
+ &hlist_head,
list) {
+ dbg_printf("cds_ja_del: compare %p with entry %p\n", node, entry);
if (entry == node)
match = entry;
count++;
}
- if (!match)
+ if (!match) {
+ dbg_printf("cds_ja_del: no node match for node %p key %" PRIu64 "\n", node, key);
return -ENOENT;
+ }
assert(count > 0);
if (count == 1) {
/*
- * Removing last of duplicates.
+ * Removing last of duplicates. Last snapshot
+ * does not have a shadow node (external leafs).
*/
snapshot_ptr[nr_snapshot] = prev_node_flag_ptr;
snapshot[nr_snapshot++] = node_flag;
ret = ja_detach_node(ja, snapshot, snapshot_ptr,
snapshot_n, nr_snapshot, key, node);
} else {
- ret = ja_unchain_node(ja, node_flag, entry);
+ ret = ja_unchain_node(ja, snapshot[nr_snapshot - 1],
+ &hlist_head, match);
}
}
if (ret == -EAGAIN)
* Note: we should not free this node until judy array destroy.
*/
root_shadow_node = rcuja_shadow_set(ja->ht,
- ja_node_ptr((struct cds_ja_inode_flag *) &ja->root),
- NULL);
+ (struct cds_ja_inode_flag *) &ja->root,
+ NULL, ja);
if (!root_shadow_node) {
ret = -ENOMEM;
goto ht_node_error;
}
- root_shadow_node->is_root = 1;
+ root_shadow_node->level = 0;
return ja;
return NULL;
}
+/*
+ * Called from RCU read-side CS.
+ */
+__attribute__((visibility("protected")))
+void rcuja_free_all_children(struct cds_ja_shadow_node *shadow_node,
+ struct cds_ja_inode_flag *node_flag,
+ void (*free_node_cb)(struct rcu_head *head))
+{
+ const struct rcu_flavor_struct *flavor;
+ unsigned int type_index;
+ struct cds_ja_inode *node;
+ const struct cds_ja_type *type;
+
+ flavor = cds_lfht_rcu_flavor(shadow_node->ja->ht);
+ node = ja_node_ptr(node_flag);
+ assert(node != NULL);
+ type_index = ja_node_type(node_flag);
+ type = &ja_types[type_index];
+
+ switch (type->type_class) {
+ case RCU_JA_LINEAR:
+ {
+ uint8_t nr_child =
+ ja_linear_node_get_nr_child(type, node);
+ unsigned int i;
+
+ for (i = 0; i < nr_child; i++) {
+ struct cds_ja_inode_flag *iter;
+ struct cds_hlist_head head;
+ struct cds_ja_node *entry;
+ struct cds_hlist_node *pos;
+ uint8_t v;
+
+ ja_linear_node_get_ith_pos(type, node, i, &v, &iter);
+ if (!iter)
+ continue;
+ head.next = (struct cds_hlist_node *) iter;
+ cds_hlist_for_each_entry_rcu(entry, pos, &head, list) {
+ flavor->update_call_rcu(&entry->head, free_node_cb);
+ }
+ }
+ break;
+ }
+ case RCU_JA_POOL:
+ {
+ unsigned int pool_nr;
+
+ for (pool_nr = 0; pool_nr < (1U << type->nr_pool_order); pool_nr++) {
+ struct cds_ja_inode *pool =
+ ja_pool_node_get_ith_pool(type, node, pool_nr);
+ uint8_t nr_child =
+ ja_linear_node_get_nr_child(type, pool);
+ unsigned int j;
+
+ for (j = 0; j < nr_child; j++) {
+ struct cds_ja_inode_flag *iter;
+ struct cds_hlist_head head;
+ struct cds_ja_node *entry;
+ struct cds_hlist_node *pos;
+ uint8_t v;
+
+ ja_linear_node_get_ith_pos(type, node, j, &v, &iter);
+ if (!iter)
+ continue;
+ head.next = (struct cds_hlist_node *) iter;
+ cds_hlist_for_each_entry_rcu(entry, pos, &head, list) {
+ flavor->update_call_rcu(&entry->head, free_node_cb);
+ }
+ }
+ }
+ break;
+ }
+ case RCU_JA_NULL:
+ break;
+ case RCU_JA_PIGEON:
+ {
+ uint8_t nr_child;
+ unsigned int i;
+
+ nr_child = shadow_node->nr_child;
+ for (i = 0; i < nr_child; i++) {
+ struct cds_ja_inode_flag *iter;
+ struct cds_hlist_head head;
+ struct cds_ja_node *entry;
+ struct cds_hlist_node *pos;
+
+ iter = ja_pigeon_node_get_ith_pos(type, node, i);
+ if (!iter)
+ continue;
+ head.next = (struct cds_hlist_node *) iter;
+ cds_hlist_for_each_entry_rcu(entry, pos, &head, list) {
+ flavor->update_call_rcu(&entry->head, free_node_cb);
+ }
+ }
+ break;
+ }
+ default:
+ assert(0);
+ }
+}
+
/*
* There should be no more concurrent add to the judy array while it is
* being destroyed (ensured by the caller).
*/
-int cds_ja_destroy(struct cds_ja *ja)
+int cds_ja_destroy(struct cds_ja *ja,
+ void (*free_node_cb)(struct rcu_head *head))
{
int ret;
rcuja_shadow_prune(ja->ht,
- RCUJA_SHADOW_CLEAR_FREE_NODE | RCUJA_SHADOW_CLEAR_FREE_LOCK);
+ RCUJA_SHADOW_CLEAR_FREE_NODE | RCUJA_SHADOW_CLEAR_FREE_LOCK,
+ free_node_cb);
ret = rcuja_delete_ht(ja->ht);
if (ret)
return ret;