* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
+#define _LGPL_SOURCE
#include <stdint.h>
+#include <errno.h>
#include <limits.h>
#include <urcu/rcuja.h>
#include <urcu/compiler.h>
#include <urcu/arch.h>
#include <assert.h>
+#include <urcu-pointer.h>
+
#include "rcuja-internal.h"
#include "bitfield.h"
/* 32-bit: 101 to 256 children, 1024 bytes */
/* 64-bit: 113 to 256 children, 2048 bytes */
/* Leaf nodes are implicit from their height in the tree */
+ RCU_JA_NR_TYPES,
+
+ RCU_JA_NULL, /* not an encoded type, but keeps code regular */
};
struct rcu_ja_type {
enum rcu_ja_type_class type_class;
- uint16_t min_child; /* minimum number of children: 1 to 256 */
- uint16_t max_child; /* maximum number of children: 1 to 256 */
- uint16_t order; /* node size is (1 << order), in bytes */
+ uint16_t min_child; /* minimum number of children: 1 to 256 */
+ uint16_t max_child; /* maximum number of children: 1 to 256 */
+ uint16_t max_linear_child; /* per-pool max nr. children: 1 to 256 */
+ uint16_t order; /* node size is (1 << order), in bytes */
uint16_t nr_pool_order; /* number of pools */
uint16_t pool_size_order; /* pool size */
};
#define JA_ENTRY_PER_NODE 256UL
+/*
+ * Entry for NULL node is at index 8 of the table. It is never encoded
+ * in flags.
+ */
+#define NODE_INDEX_NULL 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
* The node the index within the following arrays is represented on 3
* bits. It identifies the node type, min/max number of children, and
* the size order.
+ * The max_child values for the RCU_JA_POOL below result from
+ * statistical approximation: over million populations, the max_child
+ * covers between 97% and 99% of the populations generated. Therefore, a
+ * fallback should exist to cover the rare extreme population unbalance
+ * cases, but it will not have a major impact on speed nor space
+ * consumption, since those are rare cases.
*/
#if (CAA_BITS_PER_LONG < 64)
/* 32-bit pointers */
+enum {
+ ja_type_0_max_child = 1,
+ ja_type_1_max_child = 3,
+ ja_type_2_max_child = 6,
+ ja_type_3_max_child = 12,
+ ja_type_4_max_child = 25,
+ ja_type_5_max_child = 48,
+ ja_type_6_max_child = 92,
+ ja_type_7_max_child = 256,
+ ja_type_8_max_child = 0, /* NULL */
+};
+
+enum {
+ ja_type_0_max_linear_child = 1,
+ ja_type_1_max_linear_child = 3,
+ ja_type_2_max_linear_child = 6,
+ ja_type_3_max_linear_child = 12,
+ ja_type_4_max_linear_child = 25,
+ ja_type_5_max_linear_child = 24,
+ ja_type_6_max_linear_child = 23,
+};
+
+enum {
+ ja_type_5_nr_pool_order = 1,
+ ja_type_6_nr_pool_order = 2,
+};
+
const struct rcu_ja_type ja_types[] = {
- { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = 1, .order = 3, },
- { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = 3, .order = 4, },
- { .type_class = RCU_JA_LINEAR, .min_child = 3, .max_child = 6, .order = 5, },
- { .type_class = RCU_JA_LINEAR, .min_child = 4, .max_child = 12, .order = 6, },
- { .type_class = RCU_JA_LINEAR, .min_child = 10, .max_child = 25, .order = 7, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = ja_type_0_max_child, .max_linear_child = ja_type_0_max_linear_child, .order = 3, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = ja_type_1_max_child, .max_linear_child = ja_type_1_max_linear_child, .order = 4, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 3, .max_child = ja_type_2_max_child, .max_linear_child = ja_type_2_max_linear_child, .order = 5, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 4, .max_child = ja_type_3_max_child, .max_linear_child = ja_type_3_max_linear_child, .order = 6, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 10, .max_child = ja_type_4_max_child, .max_linear_child = ja_type_4_max_linear_child, .order = 7, },
/* Pools may fill sooner than max_child */
- { .type_class = RCU_JA_POOL, .min_child = 20, .max_child = 50, .order = 8, .nr_pool_order = 1, .pool_size_order = 7, },
- { .type_class = RCU_JA_POOL, .min_child = 42, .max_child = 100, .order = 9, .nr_pool_order = 2, .pool_size_order = 7, },
+ { .type_class = RCU_JA_POOL, .min_child = 20, .max_child = ja_type_5_max_child, .max_linear_child = ja_type_5_max_linear_child, .order = 8, .nr_pool_order = ja_type_5_nr_pool_order, .pool_size_order = 7, },
+ { .type_class = RCU_JA_POOL, .min_child = 45, .max_child = ja_type_6_max_child, .max_linear_child = ja_type_6_max_linear_child, .order = 9, .nr_pool_order = ja_type_6_nr_pool_order, .pool_size_order = 7, },
- /* TODO: Upon downsize, if at least one pool is filled, we need to keep pigeon */
- { .type_class = RCU_JA_PIGEON, .min_child = 90, .max_child = 256, .order = 10, },
+ /*
+ * TODO: Upon node removal below min_child, if child pool is
+ * filled beyond capacity, we need to roll back to pigeon.
+ */
+ { .type_class = RCU_JA_PIGEON, .min_child = 89, .max_child = ja_type_7_max_child, .order = 10, },
+
+ { .type_class = RCU_JA_NULL, .min_child = 0, .max_child = ja_type_8_max_child, },
};
-CAA_BUILD_BUG_ON(CAA_ARRAY_SIZE(ja_types) > JA_TYPE_MAX_NR);
#else /* !(CAA_BITS_PER_LONG < 64) */
/* 64-bit pointers */
-const struct rcu_ja_type ja_types[] = {
- { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = 1, .order = 4, },
- { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = 3, .order = 5, },
- { .type_class = RCU_JA_LINEAR, .min_child = 3, .max_child = 7, .order = 6, },
- { .type_class = RCU_JA_LINEAR, .min_child = 5, .max_child = 14, .order = 7, },
- { .type_class = RCU_JA_LINEAR, .min_child = 10, .max_child = 28, .order = 8, },
+enum {
+ ja_type_0_max_child = 1,
+ ja_type_1_max_child = 3,
+ ja_type_2_max_child = 7,
+ ja_type_3_max_child = 14,
+ ja_type_4_max_child = 28,
+ ja_type_5_max_child = 54,
+ ja_type_6_max_child = 104,
+ ja_type_7_max_child = 256,
+ ja_type_8_max_child = 256,
+};
- /* Pools may fill sooner than max_child */
- { .type_class = RCU_JA_POOL, .min_child = 22, .max_child = 56, .order = 9, .nr_pool_order = 1, .pool_size_order = 8, },
- { .type_class = RCU_JA_POOL, .min_child = 44, .max_child = 112, .order = 10, .nr_pool_order = 2, .pool_size_order = 8, },
+enum {
+ ja_type_0_max_linear_child = 1,
+ ja_type_1_max_linear_child = 3,
+ ja_type_2_max_linear_child = 7,
+ ja_type_3_max_linear_child = 14,
+ ja_type_4_max_linear_child = 28,
+ ja_type_5_max_linear_child = 27,
+ ja_type_6_max_linear_child = 26,
+};
- /* TODO: Upon downsize, if at least one pool is filled, we need to keep pigeon */
- { .type_class = RCU_JA_PIGEON, .min_child = 100, .max_child = 256, .order = 11, },
+enum {
+ ja_type_5_nr_pool_order = 1,
+ ja_type_6_nr_pool_order = 2,
+};
+
+const struct rcu_ja_type ja_types[] = {
+ { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = ja_type_0_max_child, .max_linear_child = ja_type_0_max_linear_child, .order = 4, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 1, .max_child = ja_type_1_max_child, .max_linear_child = ja_type_1_max_linear_child, .order = 5, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 3, .max_child = ja_type_2_max_child, .max_linear_child = ja_type_2_max_linear_child, .order = 6, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 5, .max_child = ja_type_3_max_child, .max_linear_child = ja_type_3_max_linear_child, .order = 7, },
+ { .type_class = RCU_JA_LINEAR, .min_child = 10, .max_child = ja_type_4_max_child, .max_linear_child = ja_type_4_max_linear_child, .order = 8, },
+
+ /* Pools may fill sooner than max_child. */
+ { .type_class = RCU_JA_POOL, .min_child = 22, .max_child = ja_type_5_max_child, .max_linear_child = ja_type_5_max_linear_child, .order = 9, .nr_pool_order = ja_type_5_nr_pool_order, .pool_size_order = 8, },
+ { .type_class = RCU_JA_POOL, .min_child = 51, .max_child = ja_type_6_max_child, .max_linear_child = ja_type_6_max_linear_child, .order = 10, .nr_pool_order = ja_type_6_nr_pool_order, .pool_size_order = 8, },
+
+ /*
+ * TODO: Upon node removal below min_child, if child pool is
+ * filled beyond capacity, we need to roll back to pigeon.
+ */
+ { .type_class = RCU_JA_PIGEON, .min_child = 101, .max_child = ja_type_7_max_child, .order = 11, },
+
+ { .type_class = RCU_JA_NULL, .min_child = 0, .max_child = ja_type_8_max_child, },
};
-CAA_BUILD_BUG_ON(CAA_ARRAY_SIZE(ja_types) > JA_TYPE_MAX_NR);
#endif /* !(BITS_PER_LONG < 64) */
+static inline __attribute__((unused))
+void static_array_size_check(void)
+{
+ CAA_BUILD_BUG_ON(CAA_ARRAY_SIZE(ja_types) < JA_TYPE_MAX_NR);
+}
+
/*
- * The rcu_ja_node starts with a byte counting the number of children in
- * the node. Then, the node-specific data is placed.
- * TODO: where should we put the mutex for the node ?
- * -> mutex could be a 0-value node count.
- * TODO: where do we keep nr children for pigeon ?
+ * The rcu_ja_node contains the compressed node data needed for
+ * read-side. For linear and pool node configurations, it starts with a
+ * byte counting the number of children in the node. Then, the
+ * node-specific data is placed.
+ * The node mutex, if any is needed, protecting concurrent updated of
+ * each node is placed in a separate hash table indexed by node address.
+ * For the pigeon configuration, the number of children is also kept in
+ * a separate hash table, indexed by node address, because it is only
+ * required for updates.
*/
+
+#define DECLARE_LINEAR_NODE(index) \
+ struct { \
+ uint8_t nr_child; \
+ uint8_t child_value[ja_type_## index ##_max_linear_child]; \
+ struct rcu_ja_node_flag *child_ptr[ja_type_## index ##_max_linear_child]; \
+ }
+
+#define DECLARE_POOL_NODE(index) \
+ struct { \
+ struct { \
+ uint8_t nr_child; \
+ uint8_t child_value[ja_type_## index ##_max_linear_child]; \
+ struct rcu_ja_node_flag *child_ptr[ja_type_## index ##_max_linear_child]; \
+ } linear[1U << ja_type_## index ##_nr_pool_order]; \
+ }
+
struct rcu_ja_node {
- char data[];
+ union {
+ /* Linear configuration */
+ DECLARE_LINEAR_NODE(0) conf_0;
+ DECLARE_LINEAR_NODE(1) conf_1;
+ DECLARE_LINEAR_NODE(2) conf_2;
+ DECLARE_LINEAR_NODE(3) conf_3;
+ DECLARE_LINEAR_NODE(4) conf_4;
+
+ /* Pool configuration */
+ DECLARE_POOL_NODE(5) conf_5;
+ DECLARE_POOL_NODE(6) conf_6;
+
+ /* Pigeon configuration */
+ struct {
+ struct rcu_ja_node_flag *child[ja_type_7_max_child];
+ } conf_7;
+ /* data aliasing nodes for computed accesses */
+ uint8_t data[sizeof(struct rcu_ja_node_flag *) * ja_type_7_max_child];
+ } u;
};
-/* Never declared. Opaque type used to store flagged node pointers. */
-struct rcu_ja_node_flag;
-
static
-struct rcu_ja_node_flag *ja_node_flag(struct rcu_ja_node *node, unsigned int type)
+struct rcu_ja_node_flag *ja_node_flag(struct rcu_ja_node *node,
+ unsigned int type)
{
- assert(type < JA_TYPE_NR);
+ assert(type < RCU_JA_NR_TYPES);
return (struct rcu_ja_node_flag *) (((unsigned long) node) | type);
}
+static
+struct rcu_ja_node *ja_node_ptr(struct rcu_ja_node_flag *node)
+{
+ return (struct rcu_ja_node *) (((unsigned long) node) | JA_PTR_MASK);
+}
+
static
unsigned int ja_node_type(struct rcu_ja_node_flag *node)
{
unsigned int type;
+ if (ja_node_ptr(node) == NULL) {
+ return NODE_INDEX_NULL;
+ }
type = (unsigned int) ((unsigned long) node & JA_TYPE_MASK);
- assert(type < JA_TYPE_NR);
+ assert(type < RCU_JA_NR_TYPES);
return type;
}
-static
-struct rcu_ja_node *ja_node_ptr(struct rcu_ja_node_flag *node)
+struct rcu_ja_node *alloc_rcu_ja_node(const struct rcu_ja_type *ja_type)
{
- return (struct rcu_ja_node *) (((unsigned long) node) | JA_PTR_MASK);
-}
-
-struct rcu_ja_node *alloc_rcu_ja_node(struct rcu_ja_type *ja_type)
-{
- return zmalloc(1 << ja_type->node_order);
+ return calloc(1U << ja_type->order, sizeof(char));
}
void free_rcu_ja_node(struct rcu_ja_node *node)
#define JA_FLOOR(v, align) __JA_FLOOR_MASK(v, (typeof(v)) (align) - 1)
static
-char *align_ptr_size(char *ptr)
+uint8_t *align_ptr_size(uint8_t *ptr)
{
- return JA_ALIGN(ptr, sizeof(ptr));
+ return (uint8_t *) JA_ALIGN((unsigned long) ptr, sizeof(void *));
}
+/*
+ * The order in which values and pointers are does does not matter: if
+ * a value is missing, we return NULL. If a value is there, but its
+ * associated pointers is still NULL, we return NULL too.
+ */
static
struct rcu_ja_node_flag *ja_linear_node_get_nth(const struct rcu_ja_type *type,
- struct rcu_ja_node *node,
- uint8_t n)
+ struct rcu_ja_node *node,
+ uint8_t n)
{
uint8_t nr_child;
uint8_t *values;
- struct rcu_ja_node_flag *pointers;
+ struct rcu_ja_node_flag **pointers;
struct rcu_ja_node_flag *ptr;
unsigned int i;
- assert(!type || type->type_class == RCU_JA_LINEAR);
+ assert(type->type_class == RCU_JA_LINEAR || type->type_class == RCU_JA_POOL);
- nr_child = node->data[0];
- cmm_smp_rmb(); /* read nr_child before values */
- assert(!type || nr_child <= type->max_child);
- assert(!type || nr_child >= type->min_child);
+ nr_child = CMM_LOAD_SHARED(node->u.data[0]);
+ cmm_smp_rmb(); /* read nr_child before values and pointers */
+ assert(nr_child <= type->max_linear_child);
+ assert(type->type_class != RCU_JA_LINEAR || nr_child >= type->min_child);
- values = &node[1];
+ values = &node->u.data[1];
for (i = 0; i < nr_child; i++) {
- if (values[i] == n)
+ if (CMM_LOAD_SHARED(values[i]) == n)
break;
}
if (i >= nr_child)
return NULL;
- cmm_smp_rmb(); /* read values before pointer */
- pointers = align_ptr_size(&values[nr_child]);
- ptr = pointers[i];
+ pointers = (struct rcu_ja_node_flag **) align_ptr_size(&values[type->max_linear_child]);
+ ptr = rcu_dereference(pointers[i]);
assert(ja_node_ptr(ptr) != NULL);
return ptr;
}
static
struct rcu_ja_node_flag *ja_pool_node_get_nth(const struct rcu_ja_type *type,
- struct rcu_ja_node *node,
- uint8_t n)
+ struct rcu_ja_node *node,
+ uint8_t n)
{
- struct rcu_ja_node_flag *ptr;
struct rcu_ja_node *linear;
assert(type->type_class == RCU_JA_POOL);
+ /*
+ * TODO: currently, we select the pool by highest bits. We
+ * should support various encodings.
+ */
linear = (struct rcu_ja_node *)
- &node->data[(n >> (CHAR_BIT - type->nr_pool_order)) << type->pool_size_order];
- return ja_linear_node_get_nth(NULL, linear, n);
+ &node->u.data[((unsigned long) n >> (CHAR_BIT - type->nr_pool_order)) << type->pool_size_order];
+ return ja_linear_node_get_nth(type, linear, n);
}
static
struct rcu_ja_node_flag *ja_pigeon_node_get_nth(const struct rcu_ja_type *type,
- struct rcu_ja_node *node,
- uint8_t n)
+ struct rcu_ja_node *node,
+ uint8_t n)
{
assert(type->type_class == RCU_JA_PIGEON);
- return ((struct rcu_ja_node_flag *) node->data)[n];
+ return rcu_dereference(((struct rcu_ja_node_flag **) node->u.data)[n]);
}
-/* ja_node_get_nth: get nth item from a node */
+/*
+ * ja_node_get_nth: get nth item from a node.
+ * node_flag is already rcu_dereference'd.
+ */
static
struct rcu_ja_node_flag *ja_node_get_nth(struct rcu_ja_node_flag *node_flag,
- uint8_t n)
+ uint8_t n)
{
unsigned int type_index;
struct rcu_ja_node *node;
const struct rcu_ja_type *type;
- node_flag = rcu_dereference(node_flag);
node = ja_node_ptr(node_flag);
assert(node != NULL);
type_index = ja_node_type(node_flag);
}
}
+static
+unsigned int ja_get_nr_child(struct rcu_ja_shadow_node *shadow_node)
+{
+ return shadow_node->nr_child;
+}
+
+static
+int ja_linear_node_set_nth(const struct rcu_ja_type *type,
+ struct rcu_ja_node *node,
+ struct rcu_ja_shadow_node *shadow_node,
+ uint8_t n,
+ struct rcu_ja_node_flag *child_node_flag)
+{
+ uint8_t nr_child;
+ uint8_t *values, *nr_child_ptr;
+ struct rcu_ja_node_flag **pointers;
+ unsigned int i;
+
+ assert(type->type_class == RCU_JA_LINEAR || type->type_class == RCU_JA_POOL);
+
+ nr_child_ptr = &node->u.data[0];
+ nr_child = *nr_child_ptr;
+ assert(nr_child <= type->max_linear_child);
+ assert(type->type_class != RCU_JA_LINEAR || nr_child >= type->min_child);
+
+ values = &node->u.data[1];
+ for (i = 0; i < nr_child; i++) {
+ if (values[i] == n)
+ return -EEXIST;
+ }
+ if (nr_child >= type->max_linear_child) {
+ /* No space left in this node type */
+ return -ENOSPC;
+ }
+ pointers = (struct rcu_ja_node_flag **) align_ptr_size(&values[type->max_linear_child]);
+ assert(pointers[nr_child] == NULL);
+ rcu_assign_pointer(pointers[nr_child], child_node_flag);
+ CMM_STORE_SHARED(values[nr_child], n);
+ cmm_smp_wmb(); /* write value and pointer before nr_child */
+ CMM_STORE_SHARED(*nr_child_ptr, nr_child + 1);
+ shadow_node->nr_child++;
+ return 0;
+}
+
+static
+int ja_pool_node_set_nth(const struct rcu_ja_type *type,
+ struct rcu_ja_node *node,
+ struct rcu_ja_shadow_node *shadow_node,
+ uint8_t n,
+ struct rcu_ja_node_flag *child_node_flag)
+{
+ struct rcu_ja_node *linear;
+
+ assert(type->type_class == RCU_JA_POOL);
+ linear = (struct rcu_ja_node *)
+ &node->u.data[((unsigned long) n >> (CHAR_BIT - type->nr_pool_order)) << type->pool_size_order];
+ return ja_linear_node_set_nth(type, linear, shadow_node,
+ n, child_node_flag);
+}
+
+static
+int ja_pigeon_node_set_nth(const struct rcu_ja_type *type,
+ struct rcu_ja_node *node,
+ struct rcu_ja_shadow_node *shadow_node,
+ uint8_t n,
+ struct rcu_ja_node_flag *child_node_flag)
+{
+ struct rcu_ja_node_flag **ptr;
+
+ assert(type->type_class == RCU_JA_PIGEON);
+ ptr = &((struct rcu_ja_node_flag **) node->u.data)[n];
+ if (*ptr != NULL)
+ return -EEXIST;
+ rcu_assign_pointer(*ptr, child_node_flag);
+ shadow_node->nr_child++;
+ return 0;
+}
+
+/*
+ * _ja_node_set_nth: set nth item within a node. Return an error
+ * (negative error value) if it is already there.
+ * TODO: exclusive access on node.
+ */
+static
+int _ja_node_set_nth(const struct rcu_ja_type *type,
+ struct rcu_ja_node *node,
+ struct rcu_ja_shadow_node *shadow_node,
+ uint8_t n,
+ struct rcu_ja_node_flag *child_node_flag)
+{
+ switch (type->type_class) {
+ case RCU_JA_LINEAR:
+ return ja_linear_node_set_nth(type, node, shadow_node, n,
+ child_node_flag);
+ case RCU_JA_POOL:
+ return ja_pool_node_set_nth(type, node, shadow_node, n,
+ child_node_flag);
+ case RCU_JA_PIGEON:
+ return ja_pigeon_node_set_nth(type, node, shadow_node, n,
+ child_node_flag);
+ case RCU_JA_NULL:
+ return -ENOSPC;
+ default:
+ assert(0);
+ return -EINVAL;
+ }
+
+ return 0;
+}
+
/*
- * ja_node_set_nth: set nth item within a node. asserts that it is not
- * there yet.
+ * ja_node_recompact_add: recompact a node, adding a new child.
+ * TODO: for pool type, take selection bit(s) into account.
*/
+static
+int ja_node_recompact_add(struct rcu_ja *ja,
+ unsigned int old_type_index,
+ const struct rcu_ja_type *old_type,
+ struct rcu_ja_node *old_node,
+ struct rcu_ja_shadow_node **shadow_node,
+ struct rcu_ja_node_flag **old_node_flag, uint8_t n,
+ struct rcu_ja_node_flag *child_node_flag)
+{
+ unsigned int new_type_index;
+ struct rcu_ja_node *new_node;
+ const struct rcu_ja_type *new_type;
+ struct rcu_ja_node_flag *new_node_flag;
+ unsigned int i;
+ int ret;
+
+ if (*shadow_node == NULL) {
+ new_type_index = 0;
+ } else {
+ new_type_index = old_type_index + 1;
+ }
+ new_type = &ja_types[new_type_index];
+ new_node = alloc_rcu_ja_node(new_type);
+ if (!new_node)
+ return -ENOMEM;
+ new_node_flag = ja_node_flag(new_node, new_type_index);
+
+ ret = rcuja_shadow_set(ja->ht, new_node, *shadow_node);
+ if (ret)
+ return ret;
+
+ if (*shadow_node == NULL) {
+ *shadow_node = rcuja_shadow_lookup_lock(ja->ht, new_node);
+ assert(*shadow_node);
+ }
+ (*shadow_node)->nr_child = 0;
+ for (i = 0; i < old_type->max_child; i++) {
+ struct rcu_ja_node_flag *iter;
+
+ iter = ja_node_get_nth(*old_node_flag, i);
+ if (!iter)
+ continue;
+ ret = _ja_node_set_nth(new_type, new_node, *shadow_node,
+ i, iter);
+ assert(!ret);
+ }
+ /* add node */
+ ret = _ja_node_set_nth(new_type, new_node, *shadow_node,
+ n, child_node_flag);
+ assert(!ret);
+ /* Replace the old node with the new recompacted one */
+ rcu_assign_pointer(*old_node_flag, new_node_flag);
+ ret = rcuja_shadow_clear(ja->ht, old_node,
+ RCUJA_SHADOW_CLEAR_FREE_NODE);
+ assert(!ret);
+ return 0;
+}
+
+static
+int ja_node_set_nth(struct rcu_ja *ja,
+ struct rcu_ja_node_flag **node_flag, uint8_t n,
+ struct rcu_ja_node_flag *child_node_flag)
+{
+ int ret;
+ unsigned int type_index;
+ const struct rcu_ja_type *type;
+ struct rcu_ja_node *node;
+ struct rcu_ja_shadow_node *shadow_node = NULL;
+
+ node = ja_node_ptr(*node_flag);
+ type_index = ja_node_type(*node_flag);
+ type = &ja_types[type_index];
+ if (node != NULL) {
+ shadow_node = rcuja_shadow_lookup_lock(ja->ht, node);
+ assert(shadow_node);
+ }
+ ret = _ja_node_set_nth(type, node, shadow_node,
+ n, child_node_flag);
+ if (ret == -ENOSPC) {
+ /* Not enough space in node, need to recompact. */
+ ret = ja_node_recompact_add(ja, type_index, type, node,
+ &shadow_node, node_flag, n, child_node_flag);
+ /* recompact always leave shadow_node locked */
+ }
+ rcuja_shadow_unlock(shadow_node);
+ return ret;
+}