static
gboolean close_packets(gpointer key, gpointer value, gpointer user_data)
{
- struct bt_packet *writer_packet = value;
+ const bt_packet *writer_packet = value;
- bt_put(writer_packet);
+ bt_packet_put_ref(writer_packet);
return TRUE;
}
BT_HIDDEN
-void trimmer_iterator_finalize(struct bt_private_connection_private_notification_iterator *it)
+void trimmer_iterator_finalize(bt_self_notification_iterator *it)
{
struct trimmer_iterator *trim_it;
- trim_it = bt_private_connection_private_notification_iterator_get_user_data(it);
+ trim_it = bt_self_notification_iterator_get_user_data(it);
BT_ASSERT(trim_it);
- bt_put(trim_it->input_iterator);
+ bt_object_put_ref(trim_it->input_iterator);
g_hash_table_foreach_remove(trim_it->packet_map,
close_packets, NULL);
g_hash_table_destroy(trim_it->packet_map);
BT_HIDDEN
enum bt_notification_iterator_status trimmer_iterator_init(
- struct bt_private_connection_private_notification_iterator *iterator,
+ bt_self_notification_iterator *iterator,
struct bt_private_port *port)
{
enum bt_notification_iterator_status ret =
enum bt_connection_status conn_status;
struct bt_private_port *input_port = NULL;
struct bt_private_connection *connection = NULL;
- struct bt_private_component *component =
- bt_private_connection_private_notification_iterator_get_private_component(iterator);
+ bt_self_component *component =
+ bt_self_notification_iterator_get_private_component(iterator);
struct trimmer_iterator *it_data = g_new0(struct trimmer_iterator, 1);
if (!it_data) {
}
/* Create a new iterator on the upstream component. */
- input_port = bt_private_component_filter_get_input_private_port_by_name(
+ input_port = bt_self_component_filter_get_input_port_by_name(
component, "in");
BT_ASSERT(input_port);
- connection = bt_private_port_get_private_connection(input_port);
+ connection = bt_private_port_get_connection(input_port);
BT_ASSERT(connection);
conn_status = bt_private_connection_create_notification_iterator(connection,
it_data->packet_map = g_hash_table_new_full(g_direct_hash,
g_direct_equal, NULL, NULL);
- it_ret = bt_private_connection_private_notification_iterator_set_user_data(iterator,
+ it_ret = bt_self_notification_iterator_set_user_data(iterator,
it_data);
if (it_ret) {
goto end;
}
end:
- bt_put(component);
- bt_put(connection);
- bt_put(input_port);
+ bt_object_put_ref(component);
+ bt_object_put_ref(connection);
+ bt_object_put_ref(input_port);
return ret;
}
}
tm.tm_sec = bound->lazy_values.ss;
tm.tm_min = bound->lazy_values.mm;
- tm.tm_hour = bound->lazy_values.hh;
+ tm.tm_hour = bound->lazy_value.hh;
timeval = bt_timegm(&tm);
if (timeval < 0) {
BT_LOGE("Failure in bt_timegm(), incorrectly formatted %s timestamp",
}
tm.tm_sec = bound->lazy_values.ss;
tm.tm_min = bound->lazy_values.mm;
- tm.tm_hour = bound->lazy_values.hh;
+ tm.tm_hour = bound->lazy_value.hh;
timeval = mktime(&tm);
if (timeval < 0) {
BT_LOGE("Failure in mktime(), incorrectly formatted %s timestamp",
}
static
-struct bt_notification *evaluate_event_notification(
- struct bt_notification *notification,
+const bt_notification *evaluate_event_notification(
+ const bt_notification *notification,
struct trimmer_iterator *trim_it,
struct trimmer_bound *begin, struct trimmer_bound *end,
bool *_event_in_range, bool *finished)
{
int64_t ts;
int clock_ret;
- struct bt_event *event = NULL, *writer_event;
+ const bt_event *event = NULL, *writer_event;
bool in_range = true;
- struct bt_clock_class *clock_class = NULL;
- struct bt_trace *trace = NULL;
- struct bt_stream *stream = NULL;
- struct bt_stream_class *stream_class = NULL;
- struct bt_clock_value *clock_value = NULL;
+ const bt_clock_class *clock_class = NULL;
+ const bt_trace *trace = NULL;
+ const bt_stream *stream = NULL;
+ const bt_stream_class *stream_class = NULL;
+ bt_clock_value *clock_value = NULL;
bool lazy_update = false;
- struct bt_notification *new_notification = NULL;
- struct bt_clock_class_priority_map *cc_prio_map;
+ const bt_notification *new_notification = NULL;
+ bt_clock_class_priority_map *cc_prio_map;
event = bt_notification_event_get_event(notification);
BT_ASSERT(event);
BT_ASSERT(writer_event);
new_notification = bt_notification_event_create(writer_event, cc_prio_map);
BT_ASSERT(new_notification);
- bt_put(cc_prio_map);
+ bt_object_put_ref(cc_prio_map);
stream = bt_event_get_stream(event);
BT_ASSERT(stream);
goto end;
error:
- BT_PUT(new_notification);
+ BT_NOTIFICATION_PUT_REF_AND_RESET(new_notification);
end:
- bt_put(event);
- bt_put(writer_event);
- bt_put(clock_class);
- bt_put(trace);
- bt_put(stream);
- bt_put(stream_class);
- bt_put(clock_value);
+ bt_object_put_ref(event);
+ bt_object_put_ref(writer_event);
+ bt_clock_class_put_ref(clock_class);
+ bt_trace_put_ref(trace);
+ bt_stream_put_ref(stream);
+ bt_stream_class_put_ref(stream_class);
+ bt_object_put_ref(clock_value);
*_event_in_range = in_range;
return new_notification;
}
static
-int ns_from_integer_field(struct bt_field *integer, int64_t *ns)
+int ns_from_integer_field(const bt_field *integer, int64_t *ns)
{
int ret = 0;
int is_signed;
uint64_t raw_clock_value;
- struct bt_field_type *integer_type = NULL;
- struct bt_clock_class *clock_class = NULL;
- struct bt_clock_value *clock_value = NULL;
-
- integer_type = bt_field_get_type(integer);
- BT_ASSERT(integer_type);
- clock_class = bt_field_type_integer_get_mapped_clock_class(
- integer_type);
+ const bt_field_class *integer_class = NULL;
+ const bt_clock_class *clock_class = NULL;
+ bt_clock_value *clock_value = NULL;
+
+ integer_class = bt_field_get_class(integer);
+ BT_ASSERT(integer_class);
+ clock_class = bt_field_class_integer_get_mapped_clock_class(
+ integer_class);
if (!clock_class) {
ret = -1;
goto end;
}
- is_signed = bt_field_type_integer_is_signed(integer_type);
+ is_signed = bt_field_class_integer_is_signed(integer_class);
if (!is_signed) {
ret = bt_field_unsigned_integer_get_value(integer,
&raw_clock_value);
ret = bt_clock_value_get_value_ns_from_epoch(clock_value, ns);
end:
- bt_put(integer_type);
- bt_put(clock_class);
- bt_put(clock_value);
+ bt_field_class_put_ref(integer_class);
+ bt_clock_class_put_ref(clock_class);
+ bt_object_put_ref(clock_value);
return ret;
}
* timestamp minus the offset.
*/
static
-int64_t get_raw_timestamp(struct bt_packet *writer_packet,
+int64_t get_raw_timestamp(const bt_packet *writer_packet,
int64_t timestamp)
{
- struct bt_clock_class *writer_clock_class;
+ const bt_clock_class *writer_clock_class;
int64_t sec_offset, cycles_offset, ns;
- struct bt_trace *writer_trace;
- struct bt_stream *writer_stream;
- struct bt_stream_class *writer_stream_class;
+ const bt_trace *writer_trace;
+ const bt_stream *writer_stream;
+ const bt_stream_class *writer_stream_class;
int ret;
uint64_t freq;
ns += ns_from_value(freq, cycles_offset);
- bt_put(writer_clock_class);
- bt_put(writer_trace);
- bt_put(writer_stream_class);
- bt_put(writer_stream);
+ bt_clock_class_put_ref(writer_clock_class);
+ bt_trace_put_ref(writer_trace);
+ bt_stream_class_put_ref(writer_stream_class);
+ bt_stream_put_ref(writer_stream);
return timestamp - ns;
}
static
-struct bt_notification *evaluate_packet_notification(
- struct bt_notification *notification,
+const bt_notification *evaluate_packet_notification(
+ const bt_notification *notification,
struct trimmer_iterator *trim_it,
struct trimmer_bound *begin, struct trimmer_bound *end,
bool *_packet_in_range, bool *finished)
{
int64_t begin_ns, pkt_begin_ns, end_ns, pkt_end_ns;
bool in_range = true;
- struct bt_packet *packet = NULL, *writer_packet = NULL;
- struct bt_field *packet_context = NULL,
+ const bt_packet *packet = NULL, *writer_packet = NULL;
+ const bt_field *packet_context = NULL,
*timestamp_begin = NULL,
*timestamp_end = NULL;
- struct bt_notification *new_notification = NULL;
+ const bt_notification *new_notification = NULL;
enum bt_component_status ret;
bool lazy_update = false;
switch (bt_notification_get_type(notification)) {
- case BT_NOTIFICATION_TYPE_PACKET_BEGIN:
- packet = bt_notification_packet_begin_get_packet(notification);
+ case BT_NOTIFICATION_TYPE_PACKET_BEGINNING:
+ packet = bt_notification_packet_beginning_get_packet(notification);
BT_ASSERT(packet);
writer_packet = trimmer_new_packet(trim_it, packet);
BT_ASSERT(writer_packet);
end:
switch (bt_notification_get_type(notification)) {
- case BT_NOTIFICATION_TYPE_PACKET_BEGIN:
- new_notification = bt_notification_packet_begin_create(writer_packet);
+ case BT_NOTIFICATION_TYPE_PACKET_BEGINNING:
+ new_notification = bt_notification_packet_beginning_create(writer_packet);
BT_ASSERT(new_notification);
break;
case BT_NOTIFICATION_TYPE_PACKET_END:
}
end_no_notif:
*_packet_in_range = in_range;
- bt_put(packet);
- bt_put(writer_packet);
- bt_put(packet_context);
- bt_put(timestamp_begin);
- bt_put(timestamp_end);
+ bt_packet_put_ref(packet);
+ bt_packet_put_ref(writer_packet);
+ bt_object_put_ref(packet_context);
+ bt_object_put_ref(timestamp_begin);
+ bt_object_put_ref(timestamp_end);
return new_notification;
}
static
-struct bt_notification *evaluate_stream_notification(
- struct bt_notification *notification,
+const bt_notification *evaluate_stream_notification(
+ const bt_notification *notification,
struct trimmer_iterator *trim_it)
{
- struct bt_stream *stream;
+ const bt_stream *stream;
stream = bt_notification_stream_end_get_stream(notification);
BT_ASSERT(stream);
/* Return true if the notification should be forwarded. */
static
enum bt_notification_iterator_status evaluate_notification(
- struct bt_notification **notification,
+ const bt_notification **notification,
struct trimmer_iterator *trim_it,
struct trimmer_bound *begin, struct trimmer_bound *end,
bool *in_range)
{
enum bt_notification_type type;
- struct bt_notification *new_notification = NULL;
+ const bt_notification *new_notification = NULL;
bool finished = false;
*in_range = true;
new_notification = evaluate_event_notification(*notification,
trim_it, begin, end, in_range, &finished);
break;
- case BT_NOTIFICATION_TYPE_PACKET_BEGIN:
+ case BT_NOTIFICATION_TYPE_PACKET_BEGINNING:
case BT_NOTIFICATION_TYPE_PACKET_END:
new_notification = evaluate_packet_notification(*notification,
trim_it, begin, end, in_range, &finished);
default:
break;
}
- BT_PUT(*notification);
+ BT_NOTIFICATION_PUT_REF_AND_RESET(*notification);
*notification = new_notification;
if (finished) {
}
BT_HIDDEN
-struct bt_notification_iterator_next_method_return trimmer_iterator_next(
- struct bt_private_connection_private_notification_iterator *iterator)
+bt_notification_iterator_next_method_return trimmer_iterator_next(
+ bt_self_notification_iterator *iterator)
{
struct trimmer_iterator *trim_it = NULL;
- struct bt_private_component *component = NULL;
+ bt_self_component *component = NULL;
struct trimmer *trimmer = NULL;
- struct bt_notification_iterator *source_it = NULL;
- struct bt_notification_iterator_next_method_return ret = {
+ bt_notification_iterator *source_it = NULL;
+ bt_notification_iterator_next_method_return ret = {
.status = BT_NOTIFICATION_ITERATOR_STATUS_OK,
.notification = NULL,
};
bool notification_in_range = false;
- trim_it = bt_private_connection_private_notification_iterator_get_user_data(iterator);
+ trim_it = bt_self_notification_iterator_get_user_data(iterator);
BT_ASSERT(trim_it);
- component = bt_private_connection_private_notification_iterator_get_private_component(
+ component = bt_self_notification_iterator_get_private_component(
iterator);
BT_ASSERT(component);
- trimmer = bt_private_component_get_user_data(component);
+ trimmer = bt_self_component_get_user_data(component);
BT_ASSERT(trimmer);
source_it = trim_it->input_iterator;
&trimmer->begin, &trimmer->end,
¬ification_in_range);
if (!notification_in_range) {
- BT_PUT(ret.notification);
+ BT_OBJECT_PUT_REF_AND_RESET(ret.notification);
}
if (ret.status != BT_NOTIFICATION_ITERATOR_STATUS_OK) {
}
}
end:
- bt_put(component);
+ bt_object_put_ref(component);
return ret;
}