+#define qe(x) ((queue_entry_t)(x))
+#define CE(x) ((call_entry_t)(x))
+
+static __inline__ queue_head_t *
+call_entry_enqueue_tail(
+ call_entry_t entry,
+ queue_t queue)
+{
+ queue_t old_queue = entry->queue;
+
+ if (old_queue != NULL)
+ (void)remque(qe(entry));
+
+ enqueue_tail(queue, qe(entry));
+
+ entry->queue = queue;
+
+ return (old_queue);
+}
+
+static __inline__ queue_head_t *
+call_entry_dequeue(
+ call_entry_t entry)
+{
+ queue_t old_queue = entry->queue;
+
+ if (old_queue != NULL) {
+ (void)remque(qe(entry));
+
+ entry->queue = NULL;
+ }
+ return (old_queue);
+}
+
+static __inline__ queue_head_t *
+call_entry_enqueue_deadline(
+ call_entry_t entry,
+ queue_head_t *queue,
+ uint64_t deadline)
+{
+ queue_t old_queue = entry->queue;
+ call_entry_t current;
+
+ if (old_queue != queue || entry->deadline < deadline) {
+ if (old_queue == NULL) {
+ current = CE(queue_first(queue));
+ } else if (old_queue != queue) {
+ (void)remque(qe(entry));
+ current = CE(queue_first(queue));
+ } else {
+ current = CE(queue_next(qe(entry)));
+ (void)remque(qe(entry));
+ }
+
+ while (TRUE) {
+ if (queue_end(queue, qe(current)) ||
+ deadline < current->deadline) {
+ current = CE(queue_prev(qe(current)));
+ break;
+ }
+
+ current = CE(queue_next(qe(current)));
+ }
+ insque(qe(entry), qe(current));
+ }
+ else
+ if (deadline < entry->deadline) {
+ current = CE(queue_prev(qe(entry)));
+
+ (void)remque(qe(entry));
+
+ while (TRUE) {
+ if (queue_end(queue, qe(current)) ||
+ current->deadline <= deadline) {
+ break;
+ }
+
+ current = CE(queue_prev(qe(current)));
+ }
+ insque(qe(entry), qe(current));
+ }
+ entry->queue = queue;
+ entry->deadline = deadline;
+
+ return (old_queue);
+}