struct cds_ja_inode_flag *ja_linear_node_get_nth(const struct cds_ja_type *type,
struct cds_ja_inode *node,
struct cds_ja_inode_flag ***child_node_flag_ptr,
+ struct cds_ja_inode_flag **child_node_flag_v,
struct cds_ja_inode_flag ***node_flag_ptr,
uint8_t n)
{
ptr = rcu_dereference(pointers[i]);
if (caa_unlikely(child_node_flag_ptr) && ptr)
*child_node_flag_ptr = &pointers[i];
+ if (caa_unlikely(child_node_flag_v) && ptr)
+ *child_node_flag_v = ptr;
if (caa_unlikely(node_flag_ptr))
*node_flag_ptr = &pointers[i];
return ptr;
struct cds_ja_inode_flag *ja_pool_node_get_nth(const struct cds_ja_type *type,
struct cds_ja_inode *node,
struct cds_ja_inode_flag ***child_node_flag_ptr,
+ struct cds_ja_inode_flag **child_node_flag_v,
struct cds_ja_inode_flag ***node_flag_ptr,
uint8_t n)
{
linear = (struct cds_ja_inode *)
&node->u.data[((unsigned long) n >> (CHAR_BIT - type->nr_pool_order)) << type->pool_size_order];
return ja_linear_node_get_nth(type, linear, child_node_flag_ptr,
- node_flag_ptr, n);
+ child_node_flag_v, node_flag_ptr, n);
}
static
struct cds_ja_inode_flag *ja_pigeon_node_get_nth(const struct cds_ja_type *type,
struct cds_ja_inode *node,
struct cds_ja_inode_flag ***child_node_flag_ptr,
+ struct cds_ja_inode_flag **child_node_flag_v,
struct cds_ja_inode_flag ***node_flag_ptr,
uint8_t n)
{
struct cds_ja_inode_flag **child_node_flag;
+ struct cds_ja_inode_flag *child_node_flag_read;
assert(type->type_class == RCU_JA_PIGEON);
child_node_flag = &((struct cds_ja_inode_flag **) node->u.data)[n];
+ child_node_flag_read = rcu_dereference(*child_node_flag);
dbg_printf("ja_pigeon_node_get_nth child_node_flag_ptr %p\n",
child_node_flag);
- if (caa_unlikely(child_node_flag_ptr) && *child_node_flag)
+ if (caa_unlikely(child_node_flag_ptr) && child_node_flag_read)
*child_node_flag_ptr = child_node_flag;
+ if (caa_unlikely(child_node_flag_v) && child_node_flag_read)
+ *child_node_flag_v = child_node_flag_read;
if (caa_unlikely(node_flag_ptr))
*node_flag_ptr = child_node_flag;
- return rcu_dereference(*child_node_flag);
+ return child_node_flag_read;
}
static
struct cds_ja_inode *node,
uint8_t i)
{
- return ja_pigeon_node_get_nth(type, node, NULL, NULL, i);
+ return ja_pigeon_node_get_nth(type, node, NULL, NULL, NULL, i);
}
/*
* node_flag is already rcu_dereference'd.
*/
static
-struct cds_ja_inode_flag * ja_node_get_nth(struct cds_ja_inode_flag *node_flag,
+struct cds_ja_inode_flag *ja_node_get_nth(struct cds_ja_inode_flag *node_flag,
struct cds_ja_inode_flag ***child_node_flag_ptr,
+ struct cds_ja_inode_flag **child_node_flag,
struct cds_ja_inode_flag ***node_flag_ptr,
uint8_t n)
{
switch (type->type_class) {
case RCU_JA_LINEAR:
return ja_linear_node_get_nth(type, node,
- child_node_flag_ptr, node_flag_ptr, n);
+ child_node_flag_ptr, child_node_flag,
+ node_flag_ptr, n);
case RCU_JA_POOL:
return ja_pool_node_get_nth(type, node,
- child_node_flag_ptr, node_flag_ptr, n);
+ child_node_flag_ptr, child_node_flag,
+ node_flag_ptr, n);
case RCU_JA_PIGEON:
return ja_pigeon_node_get_nth(type, node,
- child_node_flag_ptr, node_flag_ptr, n);
+ child_node_flag_ptr, child_node_flag,
+ node_flag_ptr, n);
default:
assert(0);
return (void *) -1UL;
uint8_t iter_key;
iter_key = (uint8_t) (key >> (JA_BITS_PER_BYTE * (tree_depth - i - 1)));
- node_flag = ja_node_get_nth(node_flag, NULL, NULL,
+ node_flag = ja_node_get_nth(node_flag, NULL, NULL, NULL,
iter_key);
dbg_printf("cds_ja_lookup iter key lookup %u finds node_flag %p\n",
(unsigned int) iter_key, node_flag);
static
int ja_attach_node(struct cds_ja *ja,
struct cds_ja_inode_flag **attach_node_flag_ptr,
+ struct cds_ja_inode_flag *attach_node_flag,
struct cds_ja_inode_flag **node_flag_ptr,
struct cds_ja_inode_flag *node_flag,
struct cds_ja_inode_flag *parent_node_flag,
if (node_flag_ptr && ja_node_ptr(*node_flag_ptr)) {
/*
- * Target node is non-NULL: it has been updated between
- * RCU lookup and lock acquisition. We need to re-try
- * lookup and attach.
+ * Target node has been updated between RCU lookup and
+ * lock acquisition. We need to re-try lookup and
+ * attach.
+ */
+ ret = -EAGAIN;
+ goto unlock_parent;
+ }
+
+ if (attach_node_flag_ptr && ja_node_ptr(*attach_node_flag_ptr) !=
+ ja_node_ptr(attach_node_flag)) {
+ /*
+ * Target node has been updated between RCU lookup and
+ * lock acquisition. We need to re-try lookup and
+ * attach.
*/
ret = -EAGAIN;
goto unlock_parent;
int ja_chain_node(struct cds_ja *ja,
struct cds_ja_inode_flag *parent_node_flag,
struct cds_ja_inode_flag **node_flag_ptr,
+ struct cds_ja_inode_flag *node_flag,
struct cds_hlist_head *head,
struct cds_ja_node *node)
{
if (!shadow_node) {
return -EAGAIN;
}
- if (!ja_node_ptr(*node_flag_ptr)) {
+ if (ja_node_ptr(*node_flag_ptr) != ja_node_ptr(node_flag)) {
ret = -EAGAIN;
goto end;
}
**node_flag_ptr;
struct cds_ja_inode_flag *node_flag,
*parent_node_flag,
- *parent2_node_flag;
+ *parent2_node_flag,
+ *attach_node_flag;
int ret;
if (caa_unlikely(key > ja->key_max)) {
parent_node_flag =
(struct cds_ja_inode_flag *) &ja->root; /* Use root ptr address as key for mutex */
attach_node_flag_ptr = &ja->root;
+ attach_node_flag = rcu_dereference(ja->root);
node_flag_ptr = &ja->root;
node_flag = rcu_dereference(ja->root);
uint8_t iter_key;
dbg_printf("cds_ja_add iter attach_node_flag_ptr %p node_flag_ptr %p node_flag %p\n",
- *attach_node_flag_ptr, *node_flag_ptr, node_flag);
+ attach_node_flag_ptr, node_flag_ptr, node_flag);
if (!ja_node_ptr(node_flag)) {
ret = ja_attach_node(ja, attach_node_flag_ptr,
+ attach_node_flag,
node_flag_ptr,
- parent_node_flag, parent2_node_flag,
+ parent_node_flag,
+ parent2_node_flag,
key, i, new_node);
if (ret == -EAGAIN || ret == -EEXIST)
goto retry;
parent_node_flag = node_flag;
node_flag = ja_node_get_nth(node_flag,
&attach_node_flag_ptr,
+ &attach_node_flag,
&node_flag_ptr,
iter_key);
dbg_printf("cds_ja_add iter key lookup %u finds node_flag %p attach_node_flag_ptr %p node_flag_ptr %p\n",
(unsigned int) iter_key, node_flag,
- *attach_node_flag_ptr,
- *node_flag_ptr);
+ attach_node_flag_ptr,
+ node_flag_ptr);
}
/*
* level, or chain it if key is already present.
*/
if (!ja_node_ptr(node_flag)) {
- dbg_printf("cds_ja_add last attach_node_flag_ptr %p node_flag_ptr %p node_flag %p\n",
- *attach_node_flag_ptr, *node_flag_ptr, node_flag);
+ dbg_printf("cds_ja_add attach_node_flag_ptr %p node_flag_ptr %p node_flag %p\n",
+ attach_node_flag_ptr, node_flag_ptr, node_flag);
ret = ja_attach_node(ja, attach_node_flag_ptr,
+ attach_node_flag,
node_flag_ptr, parent_node_flag,
parent2_node_flag, key, i, new_node);
} else {
ret = ja_chain_node(ja,
parent_node_flag,
node_flag_ptr,
+ node_flag,
(struct cds_hlist_head *) attach_node_flag_ptr,
new_node);
}
ret = -EAGAIN;
goto end;
}
- assert(shadow_node->nr_child > 0);
shadow_nodes[nr_shadow++] = shadow_node;
+
+ /*
+ * Check if node has been removed between RCU
+ * lookup and lock acquisition.
+ */
+ assert(snapshot_ptr[i + 1]);
+ if (ja_node_ptr(*snapshot_ptr[i + 1])
+ != ja_node_ptr(snapshot[i + 1])) {
+ ret = -ENOENT;
+ goto end;
+ }
+
+ assert(shadow_node->nr_child > 0);
if (shadow_node->nr_child == 1 && i > 1)
nr_clear++;
nr_branch++;
goto end;
}
shadow_nodes[nr_shadow++] = shadow_node;
+
+ /*
+ * Check if node has been removed between RCU
+ * lookup and lock acquisition.
+ */
+ assert(snapshot_ptr[i]);
+ if (ja_node_ptr(*snapshot_ptr[i])
+ != ja_node_ptr(snapshot[i])) {
+ ret = -ENOENT;
+ goto end;
+ }
+
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
goto end;
}
shadow_nodes[nr_shadow++] = shadow_node;
+
+ /*
+ * Check if node has been removed between RCU
+ * lookup and lock acquisition.
+ */
+ assert(snapshot_ptr[i - 1]);
+ if (ja_node_ptr(*snapshot_ptr[i - 1])
+ != ja_node_ptr(snapshot[i - 1])) {
+ ret = -ENOENT;
+ goto end;
+ }
}
+
break;
}
}
- /*
- * Check if node has been removed between RCU lookup and lock
- * acquisition.
- */
- assert(node_flag_ptr);
- if (!ja_node_ptr(*node_flag_ptr)) {
- ret = -ENOENT;
- goto end;
- }
-
/*
* 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.
+ * child). OK to free lock here, because RCU read lock is held,
+ * and free only performed in call_rcu.
*/
for (i = 0; i < nr_clear; i++) {
* list (while holding lock).
*/
cds_hlist_for_each_rcu(hlist_node, &hlist_head) {
+ if (count == 0) {
+ /* FIXME: currently a work-around */
+ hlist_node->prev = (struct cds_hlist_node *) node_flag_ptr;
+ }
count++;
if (hlist_node == &node->list)
found++;
goto end;
}
cds_hlist_del_rcu(&node->list);
+ /*
+ * Validate that we indeed removed the node from linked list.
+ */
+ assert(ja_node_ptr(*node_flag_ptr) != (struct cds_ja_inode *) node);
end:
rcuja_shadow_unlock(shadow_node);
return ret;
snapshot[nr_snapshot++] = node_flag;
node_flag = ja_node_get_nth(node_flag,
&prev_node_flag_ptr,
+ NULL,
&node_flag_ptr,
iter_key);
dbg_printf("cds_ja_del iter key lookup %u finds node_flag %p, prev_node_flag_ptr %p\n",
(unsigned int) iter_key, node_flag,
prev_node_flag_ptr);
}
-
/*
* We reached bottom of tree, try to find the node we are trying
* to remove. Fail if we cannot find it.