@@ -440,6 +440,7 @@ ForEachMacros:
- 'inet_lhash2_for_each_icsk'
- 'inet_lhash2_for_each_icsk_continue'
- 'inet_lhash2_for_each_icsk_rcu'
+ - 'interval_tree_for_each_span'
- 'intlist__for_each_entry'
- 'intlist__for_each_entry_safe'
- 'kcore_copy__for_each_phdr'
@@ -27,4 +27,62 @@ extern struct interval_tree_node *
interval_tree_iter_next(struct interval_tree_node *node,
unsigned long start, unsigned long last);
+/**
+ * struct interval_tree_span_iter - Find used and unused spans.
+ * @start_hole: Start of an interval for a hole when is_hole == 1
+ * @last_hole: Inclusive end of an interval for a hole when is_hole == 1
+ * @start_used: Start of a used interval when is_hole == 0
+ * @last_used: Inclusive end of a used interval when is_hole == 0
+ * @is_hole: 0 == used, 1 == is_hole, -1 == done iteration
+ *
+ * This iterator travels over spans in an interval tree. It does not return
+ * nodes but classifies each span as either a hole, where no nodes intersect, or
+ * a used, which is fully covered by nodes. Each iteration step toggles between
+ * hole and used until the entire range is covered. The returned spans always
+ * fully cover the requested range.
+ *
+ * The iterator is greedy, it always returns the largest hole or used possible,
+ * consolidating all consecutive nodes.
+ *
+ * Use interval_tree_span_iter_done() to detect end of iteration.
+ */
+struct interval_tree_span_iter {
+ /* private: not for use by the caller */
+ struct interval_tree_node *nodes[2];
+ unsigned long first_index;
+ unsigned long last_index;
+
+ /* public: */
+ union {
+ unsigned long start_hole;
+ unsigned long start_used;
+ };
+ union {
+ unsigned long last_hole;
+ unsigned long last_used;
+ };
+ int is_hole;
+};
+
+void interval_tree_span_iter_first(struct interval_tree_span_iter *state,
+ struct rb_root_cached *itree,
+ unsigned long first_index,
+ unsigned long last_index);
+void interval_tree_span_iter_advance(struct interval_tree_span_iter *iter,
+ struct rb_root_cached *itree,
+ unsigned long new_index);
+void interval_tree_span_iter_next(struct interval_tree_span_iter *state);
+
+static inline bool
+interval_tree_span_iter_done(struct interval_tree_span_iter *state)
+{
+ return state->is_hole == -1;
+}
+
+#define interval_tree_for_each_span(span, itree, first_index, last_index) \
+ for (interval_tree_span_iter_first(span, itree, \
+ first_index, last_index); \
+ !interval_tree_span_iter_done(span); \
+ interval_tree_span_iter_next(span))
+
#endif /* _LINUX_INTERVAL_TREE_H */
@@ -479,6 +479,10 @@ config INTERVAL_TREE
for more information.
+config INTERVAL_TREE_SPAN_ITER
+ bool
+ depends on INTERVAL_TREE
+
config XARRAY_MULTI
bool
help
@@ -15,3 +15,135 @@ EXPORT_SYMBOL_GPL(interval_tree_insert);
EXPORT_SYMBOL_GPL(interval_tree_remove);
EXPORT_SYMBOL_GPL(interval_tree_iter_first);
EXPORT_SYMBOL_GPL(interval_tree_iter_next);
+
+#ifdef CONFIG_INTERVAL_TREE_SPAN_ITER
+/*
+ * Roll nodes[1] into nodes[0] by advancing nodes[1] to the end of a contiguous
+ * span of nodes. This makes nodes[0]->last the end of that contiguous used span
+ * indexes that started at the original nodes[1]->start. nodes[1] is now the
+ * first node starting the next used span. A hole span is between nodes[0]->last
+ * and nodes[1]->start. nodes[1] must be !NULL.
+ */
+static void
+interval_tree_span_iter_next_gap(struct interval_tree_span_iter *state)
+{
+ struct interval_tree_node *cur = state->nodes[1];
+
+ state->nodes[0] = cur;
+ do {
+ if (cur->last > state->nodes[0]->last)
+ state->nodes[0] = cur;
+ cur = interval_tree_iter_next(cur, state->first_index,
+ state->last_index);
+ } while (cur && (state->nodes[0]->last >= cur->start ||
+ state->nodes[0]->last + 1 == cur->start));
+ state->nodes[1] = cur;
+}
+
+void interval_tree_span_iter_first(struct interval_tree_span_iter *iter,
+ struct rb_root_cached *itree,
+ unsigned long first_index,
+ unsigned long last_index)
+{
+ iter->first_index = first_index;
+ iter->last_index = last_index;
+ iter->nodes[0] = NULL;
+ iter->nodes[1] =
+ interval_tree_iter_first(itree, first_index, last_index);
+ if (!iter->nodes[1]) {
+ /* No nodes intersect the span, whole span is hole */
+ iter->start_hole = first_index;
+ iter->last_hole = last_index;
+ iter->is_hole = 1;
+ return;
+ }
+ if (iter->nodes[1]->start > first_index) {
+ /* Leading hole on first iteration */
+ iter->start_hole = first_index;
+ iter->last_hole = iter->nodes[1]->start - 1;
+ iter->is_hole = 1;
+ interval_tree_span_iter_next_gap(iter);
+ return;
+ }
+
+ /* Starting inside a used */
+ iter->start_used = first_index;
+ iter->is_hole = 0;
+ interval_tree_span_iter_next_gap(iter);
+ iter->last_used = iter->nodes[0]->last;
+ if (iter->last_used >= last_index) {
+ iter->last_used = last_index;
+ iter->nodes[0] = NULL;
+ iter->nodes[1] = NULL;
+ }
+}
+EXPORT_SYMBOL_GPL(interval_tree_span_iter_first);
+
+void interval_tree_span_iter_next(struct interval_tree_span_iter *iter)
+{
+ if (!iter->nodes[0] && !iter->nodes[1]) {
+ iter->is_hole = -1;
+ return;
+ }
+
+ if (iter->is_hole) {
+ iter->start_used = iter->last_hole + 1;
+ iter->last_used = iter->nodes[0]->last;
+ if (iter->last_used >= iter->last_index) {
+ iter->last_used = iter->last_index;
+ iter->nodes[0] = NULL;
+ iter->nodes[1] = NULL;
+ }
+ iter->is_hole = 0;
+ return;
+ }
+
+ if (!iter->nodes[1]) {
+ /* Trailing hole */
+ iter->start_hole = iter->nodes[0]->last + 1;
+ iter->last_hole = iter->last_index;
+ iter->nodes[0] = NULL;
+ iter->is_hole = 1;
+ return;
+ }
+
+ /* must have both nodes[0] and [1], interior hole */
+ iter->start_hole = iter->nodes[0]->last + 1;
+ iter->last_hole = iter->nodes[1]->start - 1;
+ iter->is_hole = 1;
+ interval_tree_span_iter_next_gap(iter);
+}
+EXPORT_SYMBOL_GPL(interval_tree_span_iter_next);
+
+/*
+ * Advance the iterator index to a specific position. The returned used/hole is
+ * updated to start at new_index. This is faster than calling
+ * interval_tree_span_iter_first() as it can avoid full searches in several
+ * cases where the iterator is already set.
+ */
+void interval_tree_span_iter_advance(struct interval_tree_span_iter *iter,
+ struct rb_root_cached *itree,
+ unsigned long new_index)
+{
+ if (iter->is_hole == -1)
+ return;
+
+ iter->first_index = new_index;
+ if (new_index > iter->last_index) {
+ iter->is_hole = -1;
+ return;
+ }
+
+ /* Rely on the union aliasing hole/used */
+ if (iter->start_hole <= new_index && new_index <= iter->last_hole) {
+ iter->start_hole = new_index;
+ return;
+ }
+ if (new_index == iter->last_hole + 1)
+ interval_tree_span_iter_next(iter);
+ else
+ interval_tree_span_iter_first(iter, itree, new_index,
+ iter->last_index);
+}
+EXPORT_SYMBOL_GPL(interval_tree_span_iter_advance);
+#endif