lib/assoc_array: Remove smp_read_barrier_depends()
Now that smp_read_barrier_depends() is implied by READ_ONCE(), the several smp_read_barrier_depends() calls may be removed from lib/assoc_array.c. This commit makes this change and marks the READ_ONCE() calls that head address dependencies. Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com> Cc: Jonathan Corbet <corbet@lwn.net> Cc: Mark Rutland <mark.rutland@arm.com> Cc: Alexander Kuleshov <kuleshovmail@gmail.com> Cc: David Howells <dhowells@redhat.com>
This commit is contained in:
Paul E. McKenney
parent
243d1a7977
commit
516df05061
@ -38,12 +38,10 @@ static int assoc_array_subtree_iterate(const struct assoc_array_ptr *root,
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if (assoc_array_ptr_is_shortcut(cursor)) {
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/* Descend through a shortcut */
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shortcut = assoc_array_ptr_to_shortcut(cursor);
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smp_read_barrier_depends();
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cursor = READ_ONCE(shortcut->next_node);
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cursor = READ_ONCE(shortcut->next_node); /* Address dependency. */
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}
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node = assoc_array_ptr_to_node(cursor);
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smp_read_barrier_depends();
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slot = 0;
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/* We perform two passes of each node.
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@ -55,15 +53,12 @@ static int assoc_array_subtree_iterate(const struct assoc_array_ptr *root,
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*/
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has_meta = 0;
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for (; slot < ASSOC_ARRAY_FAN_OUT; slot++) {
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ptr = READ_ONCE(node->slots[slot]);
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ptr = READ_ONCE(node->slots[slot]); /* Address dependency. */
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has_meta |= (unsigned long)ptr;
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if (ptr && assoc_array_ptr_is_leaf(ptr)) {
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/* We need a barrier between the read of the pointer
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* and dereferencing the pointer - but only if we are
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* actually going to dereference it.
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/* We need a barrier between the read of the pointer,
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* which is supplied by the above READ_ONCE().
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*/
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smp_read_barrier_depends();
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/* Invoke the callback */
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ret = iterator(assoc_array_ptr_to_leaf(ptr),
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iterator_data);
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@ -86,10 +81,8 @@ static int assoc_array_subtree_iterate(const struct assoc_array_ptr *root,
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continue_node:
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node = assoc_array_ptr_to_node(cursor);
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smp_read_barrier_depends();
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for (; slot < ASSOC_ARRAY_FAN_OUT; slot++) {
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ptr = READ_ONCE(node->slots[slot]);
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ptr = READ_ONCE(node->slots[slot]); /* Address dependency. */
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if (assoc_array_ptr_is_meta(ptr)) {
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cursor = ptr;
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goto begin_node;
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@ -98,16 +91,15 @@ static int assoc_array_subtree_iterate(const struct assoc_array_ptr *root,
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finished_node:
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/* Move up to the parent (may need to skip back over a shortcut) */
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parent = READ_ONCE(node->back_pointer);
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parent = READ_ONCE(node->back_pointer); /* Address dependency. */
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slot = node->parent_slot;
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if (parent == stop)
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return 0;
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if (assoc_array_ptr_is_shortcut(parent)) {
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shortcut = assoc_array_ptr_to_shortcut(parent);
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smp_read_barrier_depends();
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cursor = parent;
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parent = READ_ONCE(shortcut->back_pointer);
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parent = READ_ONCE(shortcut->back_pointer); /* Address dependency. */
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slot = shortcut->parent_slot;
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if (parent == stop)
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return 0;
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@ -147,7 +139,7 @@ int assoc_array_iterate(const struct assoc_array *array,
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void *iterator_data),
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void *iterator_data)
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{
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struct assoc_array_ptr *root = READ_ONCE(array->root);
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struct assoc_array_ptr *root = READ_ONCE(array->root); /* Address dependency. */
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if (!root)
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return 0;
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@ -194,7 +186,7 @@ assoc_array_walk(const struct assoc_array *array,
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pr_devel("-->%s()\n", __func__);
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cursor = READ_ONCE(array->root);
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cursor = READ_ONCE(array->root); /* Address dependency. */
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if (!cursor)
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return assoc_array_walk_tree_empty;
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@ -216,11 +208,9 @@ assoc_array_walk(const struct assoc_array *array,
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consider_node:
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node = assoc_array_ptr_to_node(cursor);
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smp_read_barrier_depends();
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slot = segments >> (level & ASSOC_ARRAY_KEY_CHUNK_MASK);
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slot &= ASSOC_ARRAY_FAN_MASK;
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ptr = READ_ONCE(node->slots[slot]);
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ptr = READ_ONCE(node->slots[slot]); /* Address dependency. */
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pr_devel("consider slot %x [ix=%d type=%lu]\n",
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slot, level, (unsigned long)ptr & 3);
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@ -254,7 +244,6 @@ assoc_array_walk(const struct assoc_array *array,
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cursor = ptr;
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follow_shortcut:
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shortcut = assoc_array_ptr_to_shortcut(cursor);
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smp_read_barrier_depends();
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pr_devel("shortcut to %d\n", shortcut->skip_to_level);
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sc_level = level + ASSOC_ARRAY_LEVEL_STEP;
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BUG_ON(sc_level > shortcut->skip_to_level);
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@ -294,7 +283,7 @@ assoc_array_walk(const struct assoc_array *array,
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} while (sc_level < shortcut->skip_to_level);
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/* The shortcut matches the leaf's index to this point. */
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cursor = READ_ONCE(shortcut->next_node);
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cursor = READ_ONCE(shortcut->next_node); /* Address dependency. */
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if (((level ^ sc_level) & ~ASSOC_ARRAY_KEY_CHUNK_MASK) != 0) {
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level = sc_level;
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goto jumped;
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@ -331,20 +320,18 @@ void *assoc_array_find(const struct assoc_array *array,
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return NULL;
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node = result.terminal_node.node;
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smp_read_barrier_depends();
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/* If the target key is available to us, it's has to be pointed to by
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* the terminal node.
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*/
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for (slot = 0; slot < ASSOC_ARRAY_FAN_OUT; slot++) {
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ptr = READ_ONCE(node->slots[slot]);
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ptr = READ_ONCE(node->slots[slot]); /* Address dependency. */
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if (ptr && assoc_array_ptr_is_leaf(ptr)) {
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/* We need a barrier between the read of the pointer
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* and dereferencing the pointer - but only if we are
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* actually going to dereference it.
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*/
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leaf = assoc_array_ptr_to_leaf(ptr);
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smp_read_barrier_depends();
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if (ops->compare_object(leaf, index_key))
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return (void *)leaf;
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}
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