#include "lib/object.h"
#include <babeltrace2/graph/connection-const.h>
#include <babeltrace2/graph/message-const.h>
-#include <babeltrace2/graph/message-iterator-const.h>
#include <babeltrace2/types.h>
#include "common/assert.h"
#include <stdbool.h>
+#include "common/uuid.h"
struct bt_port;
struct bt_graph;
GPtrArray *msgs;
};
-typedef enum bt_self_message_iterator_status
+typedef enum bt_component_class_message_iterator_next_method_status
(*bt_self_component_port_input_message_iterator_next_method)(
void *, bt_message_array_const, uint64_t, uint64_t *);
-typedef enum bt_self_message_iterator_status
+typedef enum bt_component_class_message_iterator_seek_ns_from_origin_method_status
(*bt_self_component_port_input_message_iterator_seek_ns_from_origin_method)(
void *, int64_t);
-typedef enum bt_self_message_iterator_status
+typedef enum bt_component_class_message_iterator_seek_beginning_method_status
(*bt_self_component_port_input_message_iterator_seek_beginning_method)(
void *);
struct bt_connection *connection; /* Weak */
struct bt_graph *graph; /* Weak */
+ /*
+ * Array of
+ * `struct bt_self_component_port_input_message_iterator *`
+ * (weak).
+ *
+ * This is an array of upstream message iterators on which this
+ * iterator depends. The references are weak: an upstream
+ * message iterator is responsible for removing its entry within
+ * this array on finalization/destruction.
+ */
+ GPtrArray *upstream_msg_iters;
+
+ /*
+ * Downstream message iterator which depends on this message
+ * iterator (weak).
+ *
+ * This can be `NULL` if this message iterator's owner is a sink
+ * component.
+ */
+ struct bt_self_component_port_input_message_iterator *downstream_msg_iter;
+
struct {
bt_self_component_port_input_message_iterator_next_method next;
bt_self_component_port_input_message_iterator_seek_ns_from_origin_method seek_ns_from_origin;
} methods;
enum bt_self_component_port_input_message_iterator_state state;
- GQueue *auto_seek_msgs;
+
+ /*
+ * Timestamp of the last received message (or INT64_MIN in the
+ * beginning, or after a seek to beginning).
+ */
+ int64_t last_ns_from_origin;
+
+ struct {
+ enum {
+ /* We haven't recorded clock properties yet. */
+ CLOCK_EXPECTATION_UNSET,
+
+ /* Expect to have no clock. */
+ CLOCK_EXPECTATION_NONE,
+
+ /* Clock with origin_is_unix_epoch true.*/
+ CLOCK_EXPECTATION_ORIGIN_UNIX,
+
+ /* Clock with origin_is_unix_epoch false, with a UUID.*/
+ CLOCK_EXPECTATION_ORIGIN_OTHER_UUID,
+
+ /* Clock with origin_is_unix_epoch false, without a UUID.*/
+ CLOCK_EXPECTATION_ORIGIN_OTHER_NO_UUID,
+ } type;
+
+ /*
+ * Expected UUID of the clock, if `type`is CLOCK_EXPECTATION_ORIGIN_OTHER_UUID.
+ *
+ * If the clock's origin is the unix epoch, the UUID is
+ * irrelevant (as the clock will be correlatable with other
+ * clocks having the same origin).
+ */
+ bt_uuid_t uuid;
+ } clock_expectation;
+
+ /*
+ * Data necessary for auto seek (the seek-to-beginning then fast-forward
+ * seek strategy).
+ */
+ struct {
+ /*
+ * Queue of `const bt_message *` (owned by this queue).
+ *
+ * When fast-forwarding, we get the messages from upstream in
+ * batches. Once we have found the first message with timestamp
+ * greater or equal to the seek time, we put it and all of the
+ * following message of the batch in this queue. They will be
+ * sent on the next "next" call on this iterator.
+ *
+ * The messages are in chronological order (i.e. the first to
+ * send is the first of the queue).
+ */
+ GQueue *msgs;
+
+ /*
+ * After auto-seeking, we replace the iterator's `next` callback
+ * with our own, which returns the contents of the `msgs` queue.
+ * This field is where we save the original callback, so we can
+ * restore it.
+ */
+ void *original_next_callback;
+ } auto_seek;
+
void *user_data;
};
{
switch (state) {
case BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_ACTIVE:
- return "BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_ACTIVE";
+ return "ACTIVE";
case BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_ENDED:
- return "BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_ENDED";
+ return "ENDED";
case BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_FINALIZING:
- return "BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_FINALIZING";
+ return "FINALIZING";
case BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_FINALIZED:
- return "BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_FINALIZED";
+ return "FINALIZED";
case BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_SEEKING:
- return "BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_SEEKING";
+ return "SEEKING";
case BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_LAST_SEEKING_RETURNED_AGAIN:
- return "BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_LAST_SEEKING_RETURNED_AGAIN";
+ return "LAST_SEEKING_RETURNED_AGAIN";
case BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_LAST_SEEKING_RETURNED_ERROR:
- return "BT_SELF_COMPONENT_PORT_INPUT_MESSAGE_ITERATOR_STATE_LAST_SEEKING_RETURNED_ERROR";
+ return "LAST_SEEKING_RETURNED_ERROR";
default:
return "(unknown)";
}