2 * Copyright 2017 - Philippe Proulx <pproulx@efficios.com>
4 * This program is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation; under version 2 of the License.
8 * This program is distributed in the hope that it will be useful,
9 * but WITHOUT ANY WARRANTY; without even the implied warranty of
10 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11 * GNU General Public License for more details.
13 * You should have received a copy of the GNU General Public License along
14 * with this program; if not, write to the Free Software Foundation, Inc.,
15 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
25 #include <babeltrace/babeltrace.h>
34 TEST_NO_UPSTREAM_CONNECTION
,
36 TEST_4_PORTS_WITH_RETRIES
,
37 TEST_SINGLE_END_THEN_MULTIPLE_FULL
,
38 TEST_SINGLE_AGAIN_END_THEN_MULTIPLE_FULL
,
41 enum test_event_type
{
42 TEST_EV_TYPE_NOTIF_UNEXPECTED
,
43 TEST_EV_TYPE_NOTIF_EVENT
,
44 TEST_EV_TYPE_NOTIF_INACTIVITY
,
45 TEST_EV_TYPE_NOTIF_PACKET_BEGIN
,
46 TEST_EV_TYPE_NOTIF_PACKET_END
,
47 TEST_EV_TYPE_NOTIF_STREAM_BEGIN
,
48 TEST_EV_TYPE_NOTIF_STREAM_END
,
51 TEST_EV_TYPE_SENTINEL
,
55 enum test_event_type type
;
59 struct source_muxer_sink
{
60 struct bt_component
*source
;
61 struct bt_component
*muxer
;
62 struct bt_component
*sink
;
65 struct graph_listener_data
{
66 struct bt_graph
*graph
;
67 struct bt_component
*source
;
68 struct bt_component
*muxer
;
69 struct bt_component
*sink
;
72 static bool debug
= false;
73 static enum test current_test
;
74 static GArray
*test_events
;
75 static struct bt_clock_class_priority_map
*src_cc_prio_map
;
76 static struct bt_clock_class_priority_map
*src_empty_cc_prio_map
;
77 static struct bt_clock_class
*src_clock_class
;
78 static struct bt_stream_class
*src_stream_class
;
79 static struct bt_event_class
*src_event_class
;
80 static struct bt_packet
*src_packet0
;
81 static struct bt_packet
*src_packet1
;
82 static struct bt_packet
*src_packet2
;
83 static struct bt_packet
*src_packet3
;
88 SEQ_PACKET_BEGIN
= -3,
90 SEQ_STREAM_BEGIN
= -5,
94 struct src_iter_user_data
{
98 struct bt_packet
*packet
;
101 struct sink_user_data
{
102 struct bt_notification_iterator
*notif_iter
;
105 static int64_t seq1
[] = {
106 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 24, 53, 97, 105, 119, 210,
107 222, 240, 292, 317, 353, 407, 433, 473, 487, 504, 572, 615, 708,
108 766, 850, 852, 931, 951, 956, 996, SEQ_PACKET_END
,
109 SEQ_STREAM_END
, SEQ_END
,
112 static int64_t seq2
[] = {
113 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 51, 59, 68, 77, 91, 121,
114 139, 170, 179, 266, 352, 454, 478, 631, 644, 668, 714, 744, 750,
115 778, 790, 836, SEQ_PACKET_END
, SEQ_STREAM_END
, SEQ_END
,
118 static int64_t seq3
[] = {
119 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 8, 71, 209, 254, 298, 320,
120 350, 393, 419, 624, 651, 678, 717, 731, 733, 788, 819, 820, 857,
121 892, 903, 944, 998, SEQ_PACKET_END
, SEQ_STREAM_END
, SEQ_END
,
124 static int64_t seq4
[] = {
125 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 41, 56, 120, 138, 154, 228,
126 471, 479, 481, 525, 591, 605, 612, 618, 632, 670, 696, 825, 863,
127 867, 871, 884, 953, 985, 999, SEQ_PACKET_END
, SEQ_STREAM_END
,
131 static int64_t seq1_with_again
[] = {
132 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 24, 53, 97, 105, 119, 210,
133 SEQ_AGAIN
, 222, 240, 292, 317, 353, 407, 433, 473, 487, 504,
134 572, 615, 708, 766, 850, 852, 931, 951, 956, 996,
135 SEQ_PACKET_END
, SEQ_STREAM_END
, SEQ_END
,
138 static int64_t seq2_with_again
[] = {
139 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 51, 59, 68, 77, 91, 121,
140 139, 170, 179, 266, 352, 454, 478, 631, 644, 668, 714, 744, 750,
141 778, 790, 836, SEQ_AGAIN
, SEQ_PACKET_END
, SEQ_STREAM_END
,
145 static int64_t seq3_with_again
[] = {
146 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 8, 71, 209, 254, 298, 320,
147 350, 393, 419, 624, 651, SEQ_AGAIN
, 678, 717, 731, 733, 788,
148 819, 820, 857, 892, 903, 944, 998, SEQ_PACKET_END
,
149 SEQ_STREAM_END
, SEQ_END
,
152 static int64_t seq4_with_again
[] = {
153 SEQ_AGAIN
, SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 41, 56, 120, 138,
154 154, 228, 471, 479, 481, 525, 591, 605, 612, 618, 632, 670, 696,
155 825, 863, 867, 871, 884, 953, 985, 999, SEQ_PACKET_END
,
156 SEQ_STREAM_END
, SEQ_END
,
159 static int64_t seq5
[] = {
160 SEQ_STREAM_BEGIN
, SEQ_PACKET_BEGIN
, 1, 4, 189, 1001,
161 SEQ_PACKET_END
, SEQ_STREAM_END
, SEQ_END
,
165 void clear_test_events(void)
167 g_array_set_size(test_events
, 0);
171 void print_test_event(FILE *fp
, const struct test_event
*event
)
173 fprintf(fp
, "{ type = ");
175 switch (event
->type
) {
176 case TEST_EV_TYPE_NOTIF_UNEXPECTED
:
177 fprintf(fp
, "TEST_EV_TYPE_NOTIF_UNEXPECTED");
179 case TEST_EV_TYPE_NOTIF_EVENT
:
180 fprintf(fp
, "TEST_EV_TYPE_NOTIF_EVENT");
182 case TEST_EV_TYPE_NOTIF_INACTIVITY
:
183 fprintf(fp
, "TEST_EV_TYPE_NOTIF_INACTIVITY");
185 case TEST_EV_TYPE_NOTIF_PACKET_BEGIN
:
186 fprintf(fp
, "TEST_EV_TYPE_NOTIF_PACKET_BEGIN");
188 case TEST_EV_TYPE_NOTIF_PACKET_END
:
189 fprintf(fp
, "TEST_EV_TYPE_NOTIF_PACKET_END");
191 case TEST_EV_TYPE_NOTIF_STREAM_BEGIN
:
192 fprintf(fp
, "TEST_EV_TYPE_NOTIF_STREAM_BEGIN");
194 case TEST_EV_TYPE_NOTIF_STREAM_END
:
195 fprintf(fp
, "TEST_EV_TYPE_NOTIF_STREAM_END");
197 case TEST_EV_TYPE_AGAIN
:
198 fprintf(fp
, "TEST_EV_TYPE_AGAIN");
200 case TEST_EV_TYPE_END
:
201 fprintf(fp
, "TEST_EV_TYPE_END");
203 case TEST_EV_TYPE_SENTINEL
:
204 fprintf(fp
, "TEST_EV_TYPE_SENTINEL");
207 fprintf(fp
, "(UNKNOWN)");
211 switch (event
->type
) {
212 case TEST_EV_TYPE_NOTIF_EVENT
:
213 case TEST_EV_TYPE_NOTIF_INACTIVITY
:
214 fprintf(fp
, ", ts-ns = %" PRId64
, event
->ts_ns
);
223 void append_test_event(struct test_event
*event
)
225 g_array_append_val(test_events
, *event
);
229 bool compare_single_test_events(const struct test_event
*ev_a
,
230 const struct test_event
*ev_b
)
233 fprintf(stderr
, ":: Comparing test events: ");
234 print_test_event(stderr
, ev_a
);
235 fprintf(stderr
, " vs. ");
236 print_test_event(stderr
, ev_b
);
237 fprintf(stderr
, "\n");
240 if (ev_a
->type
!= ev_b
->type
) {
244 switch (ev_a
->type
) {
245 case TEST_EV_TYPE_NOTIF_EVENT
:
246 case TEST_EV_TYPE_NOTIF_INACTIVITY
:
247 if (ev_a
->ts_ns
!= ev_b
->ts_ns
) {
259 bool compare_test_events(const struct test_event
*expected_events
)
261 const struct test_event
*expected_event
= expected_events
;
264 assert(expected_events
);
267 const struct test_event
*event
;
269 if (expected_event
->type
== TEST_EV_TYPE_SENTINEL
) {
273 if (i
>= test_events
->len
) {
277 event
= &g_array_index(test_events
, struct test_event
, i
);
279 if (!compare_single_test_events(event
, expected_event
)) {
287 if (i
!= test_events
->len
) {
289 fprintf(stderr
, ":: Length mismatch\n");
299 void init_static_data(void)
302 struct bt_trace
*trace
;
303 struct bt_stream
*stream
;
304 struct bt_field_type
*empty_struct_ft
;
307 test_events
= g_array_new(FALSE
, TRUE
, sizeof(struct test_event
));
311 empty_struct_ft
= bt_field_type_structure_create();
312 assert(empty_struct_ft
);
313 trace
= bt_trace_create();
315 ret
= bt_trace_set_native_byte_order(trace
,
316 BT_BYTE_ORDER_LITTLE_ENDIAN
);
318 ret
= bt_trace_set_packet_header_type(trace
, empty_struct_ft
);
320 src_clock_class
= bt_clock_class_create("my-clock", 1000000000);
321 assert(src_clock_class
);
322 ret
= bt_clock_class_set_is_absolute(src_clock_class
, 1);
324 ret
= bt_trace_add_clock_class(trace
, src_clock_class
);
326 src_empty_cc_prio_map
= bt_clock_class_priority_map_create();
327 assert(src_empty_cc_prio_map
);
328 src_cc_prio_map
= bt_clock_class_priority_map_create();
329 assert(src_cc_prio_map
);
330 ret
= bt_clock_class_priority_map_add_clock_class(src_cc_prio_map
,
333 src_stream_class
= bt_stream_class_create("my-stream-class");
334 assert(src_stream_class
);
335 ret
= bt_stream_class_set_packet_context_type(src_stream_class
,
338 ret
= bt_stream_class_set_event_header_type(src_stream_class
,
341 ret
= bt_stream_class_set_event_context_type(src_stream_class
,
344 src_event_class
= bt_event_class_create("my-event-class");
345 ret
= bt_event_class_set_context_type(src_event_class
,
348 ret
= bt_event_class_set_context_type(src_event_class
,
351 ret
= bt_stream_class_add_event_class(src_stream_class
,
354 ret
= bt_trace_add_stream_class(trace
, src_stream_class
);
356 stream
= bt_stream_create(src_stream_class
, "stream0");
358 src_packet0
= bt_packet_create(stream
);
361 stream
= bt_stream_create(src_stream_class
, "stream1");
363 src_packet1
= bt_packet_create(stream
);
366 stream
= bt_stream_create(src_stream_class
, "stream2");
368 src_packet2
= bt_packet_create(stream
);
371 stream
= bt_stream_create(src_stream_class
, "stream3");
373 src_packet3
= bt_packet_create(stream
);
378 bt_put(empty_struct_ft
);
382 void fini_static_data(void)
385 g_array_free(test_events
, TRUE
);
388 bt_put(src_empty_cc_prio_map
);
389 bt_put(src_cc_prio_map
);
390 bt_put(src_clock_class
);
391 bt_put(src_stream_class
);
392 bt_put(src_event_class
);
400 void src_iter_finalize(
401 struct bt_private_connection_private_notification_iterator
*private_notification_iterator
)
403 struct src_iter_user_data
*user_data
=
404 bt_private_connection_private_notification_iterator_get_user_data(
405 private_notification_iterator
);
413 enum bt_notification_iterator_status
src_iter_init(
414 struct bt_private_connection_private_notification_iterator
*priv_notif_iter
,
415 struct bt_private_port
*private_port
)
417 struct src_iter_user_data
*user_data
=
418 g_new0(struct src_iter_user_data
, 1);
419 struct bt_port
*port
= bt_port_from_private(private_port
);
420 const char *port_name
;
425 ret
= bt_private_connection_private_notification_iterator_set_user_data(priv_notif_iter
,
428 port_name
= bt_port_get_name(port
);
430 user_data
->iter_index
= port_name
[3] - '0';
433 switch (user_data
->iter_index
) {
435 user_data
->packet
= src_packet0
;
438 user_data
->packet
= src_packet1
;
441 user_data
->packet
= src_packet2
;
444 user_data
->packet
= src_packet3
;
450 switch (current_test
) {
452 if (user_data
->iter_index
== 1) {
453 user_data
->seq
= seq5
;
456 case TEST_SIMPLE_4_PORTS
:
457 if (user_data
->iter_index
== 0) {
458 user_data
->seq
= seq1
;
459 } else if (user_data
->iter_index
== 1) {
460 user_data
->seq
= seq2
;
461 } else if (user_data
->iter_index
== 2) {
462 user_data
->seq
= seq3
;
464 user_data
->seq
= seq4
;
467 case TEST_4_PORTS_WITH_RETRIES
:
468 if (user_data
->iter_index
== 0) {
469 user_data
->seq
= seq1_with_again
;
470 } else if (user_data
->iter_index
== 1) {
471 user_data
->seq
= seq2_with_again
;
472 } else if (user_data
->iter_index
== 2) {
473 user_data
->seq
= seq3_with_again
;
475 user_data
->seq
= seq4_with_again
;
478 case TEST_SINGLE_END_THEN_MULTIPLE_FULL
:
479 case TEST_SINGLE_AGAIN_END_THEN_MULTIPLE_FULL
:
480 if (user_data
->iter_index
== 0) {
481 /* Ignore: this iterator only returns END */
482 } else if (user_data
->iter_index
== 1) {
483 user_data
->seq
= seq2
;
485 user_data
->seq
= seq3
;
492 return BT_NOTIFICATION_ITERATOR_STATUS_OK
;
496 struct bt_event
*src_create_event(struct bt_packet
*packet
,
499 struct bt_event
*event
= bt_event_create(src_event_class
);
503 ret
= bt_event_set_packet(event
, packet
);
507 struct bt_clock_value
*clock_value
;
509 clock_value
= bt_clock_value_create(src_clock_class
,
512 ret
= bt_event_set_clock_value(event
, clock_value
);
521 struct bt_notification_iterator_next_method_return
src_iter_next_seq(
522 struct src_iter_user_data
*user_data
)
524 struct bt_notification_iterator_next_method_return next_return
= {
525 .status
= BT_NOTIFICATION_ITERATOR_STATUS_OK
,
528 struct bt_stream
*stream
;
530 assert(user_data
->seq
);
531 cur_ts_ns
= user_data
->seq
[user_data
->at
];
536 BT_NOTIFICATION_ITERATOR_STATUS_END
;
540 BT_NOTIFICATION_ITERATOR_STATUS_AGAIN
;
542 case SEQ_PACKET_BEGIN
:
543 next_return
.notification
=
544 bt_notification_packet_begin_create(user_data
->packet
);
545 assert(next_return
.notification
);
548 next_return
.notification
=
549 bt_notification_packet_end_create(user_data
->packet
);
550 assert(next_return
.notification
);
552 case SEQ_STREAM_BEGIN
:
553 stream
= bt_packet_get_stream(user_data
->packet
);
554 next_return
.notification
=
555 bt_notification_stream_begin_create(stream
);
556 assert(next_return
.notification
);
560 stream
= bt_packet_get_stream(user_data
->packet
);
561 next_return
.notification
=
562 bt_notification_stream_end_create(stream
);
563 assert(next_return
.notification
);
568 struct bt_event
*event
= src_create_event(
569 user_data
->packet
, cur_ts_ns
);
572 next_return
.notification
= bt_notification_event_create(event
,
575 assert(next_return
.notification
);
580 if (next_return
.status
!= BT_NOTIFICATION_ITERATOR_STATUS_END
) {
588 struct bt_notification_iterator_next_method_return
src_iter_next(
589 struct bt_private_connection_private_notification_iterator
*priv_iterator
)
591 struct bt_notification_iterator_next_method_return next_return
= {
592 .notification
= NULL
,
593 .status
= BT_NOTIFICATION_ITERATOR_STATUS_OK
,
595 struct src_iter_user_data
*user_data
=
596 bt_private_connection_private_notification_iterator_get_user_data(priv_iterator
);
597 struct bt_private_component
*private_component
=
598 bt_private_connection_private_notification_iterator_get_private_component(priv_iterator
);
599 struct bt_stream
*stream
;
603 assert(private_component
);
605 switch (current_test
) {
607 if (user_data
->iter_index
== 0) {
608 if (user_data
->at
== 0) {
609 stream
= bt_packet_get_stream(user_data
->packet
);
610 next_return
.notification
=
611 bt_notification_stream_begin_create(
614 assert(next_return
.notification
);
615 } else if (user_data
->at
== 1) {
616 next_return
.notification
=
617 bt_notification_packet_begin_create(
619 assert(next_return
.notification
);
620 } else if (user_data
->at
< 7) {
621 struct bt_event
*event
= src_create_event(
622 user_data
->packet
, -1);
625 next_return
.notification
=
626 bt_notification_event_create(event
,
627 src_empty_cc_prio_map
);
628 assert(next_return
.notification
);
630 } else if (user_data
->at
== 7) {
631 next_return
.notification
=
632 bt_notification_packet_end_create(
634 assert(next_return
.notification
);
635 } else if (user_data
->at
== 8) {
636 stream
= bt_packet_get_stream(user_data
->packet
);
637 next_return
.notification
=
638 bt_notification_stream_end_create(
641 assert(next_return
.notification
);
644 BT_NOTIFICATION_ITERATOR_STATUS_END
;
649 next_return
= src_iter_next_seq(user_data
);
652 case TEST_SIMPLE_4_PORTS
:
653 case TEST_4_PORTS_WITH_RETRIES
:
654 next_return
= src_iter_next_seq(user_data
);
656 case TEST_SINGLE_END_THEN_MULTIPLE_FULL
:
657 if (user_data
->iter_index
== 0) {
658 ret
= bt_private_component_source_add_output_private_port(
659 private_component
, "out1", NULL
, NULL
);
661 ret
= bt_private_component_source_add_output_private_port(
662 private_component
, "out2", NULL
, NULL
);
664 next_return
.status
= BT_NOTIFICATION_ITERATOR_STATUS_END
;
666 next_return
= src_iter_next_seq(user_data
);
669 case TEST_SINGLE_AGAIN_END_THEN_MULTIPLE_FULL
:
670 if (user_data
->iter_index
== 0) {
671 if (user_data
->at
== 0) {
672 next_return
.status
= BT_NOTIFICATION_ITERATOR_STATUS_AGAIN
;
675 ret
= bt_private_component_source_add_output_private_port(
676 private_component
, "out1", NULL
, NULL
);
678 ret
= bt_private_component_source_add_output_private_port(
679 private_component
, "out2", NULL
, NULL
);
681 next_return
.status
= BT_NOTIFICATION_ITERATOR_STATUS_END
;
684 next_return
= src_iter_next_seq(user_data
);
691 bt_put(private_component
);
696 enum bt_component_status
src_init(
697 struct bt_private_component
*private_component
,
698 struct bt_value
*params
, void *init_method_data
)
703 switch (current_test
) {
707 case TEST_SINGLE_END_THEN_MULTIPLE_FULL
:
708 case TEST_SINGLE_AGAIN_END_THEN_MULTIPLE_FULL
:
717 ret
= bt_private_component_source_add_output_private_port(
718 private_component
, "out0", NULL
, NULL
);
723 ret
= bt_private_component_source_add_output_private_port(
724 private_component
, "out1", NULL
, NULL
);
729 ret
= bt_private_component_source_add_output_private_port(
730 private_component
, "out2", NULL
, NULL
);
735 ret
= bt_private_component_source_add_output_private_port(
736 private_component
, "out3", NULL
, NULL
);
740 return BT_COMPONENT_STATUS_OK
;
744 void src_finalize(struct bt_private_component
*private_component
)
749 enum bt_component_status
sink_consume(
750 struct bt_private_component
*priv_component
)
752 enum bt_component_status ret
= BT_COMPONENT_STATUS_OK
;
753 struct bt_notification
*notification
= NULL
;
754 struct sink_user_data
*user_data
=
755 bt_private_component_get_user_data(priv_component
);
756 enum bt_notification_iterator_status it_ret
;
757 struct test_event test_event
;
758 bool do_append_test_event
= true;
760 assert(user_data
&& user_data
->notif_iter
);
761 it_ret
= bt_notification_iterator_next(user_data
->notif_iter
);
764 ret
= BT_COMPONENT_STATUS_ERROR
;
765 do_append_test_event
= false;
770 case BT_NOTIFICATION_ITERATOR_STATUS_END
:
771 test_event
.type
= TEST_EV_TYPE_END
;
772 ret
= BT_COMPONENT_STATUS_END
;
773 BT_PUT(user_data
->notif_iter
);
775 case BT_NOTIFICATION_ITERATOR_STATUS_AGAIN
:
776 test_event
.type
= TEST_EV_TYPE_AGAIN
;
777 ret
= BT_COMPONENT_STATUS_AGAIN
;
783 notification
= bt_notification_iterator_get_notification(
784 user_data
->notif_iter
);
785 assert(notification
);
787 switch (bt_notification_get_type(notification
)) {
788 case BT_NOTIFICATION_TYPE_EVENT
:
790 struct bt_event
*event
;
791 struct bt_clock_class_priority_map
*cc_prio_map
;
793 test_event
.type
= TEST_EV_TYPE_NOTIF_EVENT
;
795 bt_notification_event_get_clock_class_priority_map(
798 event
= bt_notification_event_get_event(notification
);
801 if (bt_clock_class_priority_map_get_clock_class_count(cc_prio_map
) > 0) {
802 struct bt_clock_value
*clock_value
;
803 struct bt_clock_class
*clock_class
=
804 bt_clock_class_priority_map_get_highest_priority_clock_class(
808 clock_value
= bt_event_get_clock_value(event
,
811 ret
= bt_clock_value_get_value_ns_from_epoch(
812 clock_value
, &test_event
.ts_ns
);
817 test_event
.ts_ns
= -1;
824 case BT_NOTIFICATION_TYPE_INACTIVITY
:
826 struct bt_clock_class_priority_map
*cc_prio_map
;
828 test_event
.type
= TEST_EV_TYPE_NOTIF_INACTIVITY
;
829 cc_prio_map
= bt_notification_event_get_clock_class_priority_map(
833 if (bt_clock_class_priority_map_get_clock_class_count(cc_prio_map
) > 0) {
834 struct bt_clock_value
*clock_value
;
835 struct bt_clock_class
*clock_class
=
836 bt_clock_class_priority_map_get_highest_priority_clock_class(
841 bt_notification_inactivity_get_clock_value(
842 notification
, clock_class
);
844 ret
= bt_clock_value_get_value_ns_from_epoch(
845 clock_value
, &test_event
.ts_ns
);
850 test_event
.ts_ns
= -1;
856 case BT_NOTIFICATION_TYPE_PACKET_BEGIN
:
857 test_event
.type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
;
859 case BT_NOTIFICATION_TYPE_PACKET_END
:
860 test_event
.type
= TEST_EV_TYPE_NOTIF_PACKET_END
;
862 case BT_NOTIFICATION_TYPE_STREAM_BEGIN
:
863 test_event
.type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
;
865 case BT_NOTIFICATION_TYPE_STREAM_END
:
866 test_event
.type
= TEST_EV_TYPE_NOTIF_STREAM_END
;
869 test_event
.type
= TEST_EV_TYPE_NOTIF_UNEXPECTED
;
874 if (do_append_test_event
) {
875 append_test_event(&test_event
);
878 bt_put(notification
);
883 void sink_port_connected(struct bt_private_component
*private_component
,
884 struct bt_private_port
*self_private_port
,
885 struct bt_port
*other_port
)
887 struct bt_private_connection
*priv_conn
=
888 bt_private_port_get_private_connection(self_private_port
);
889 struct sink_user_data
*user_data
= bt_private_component_get_user_data(
891 enum bt_connection_status conn_status
;
895 conn_status
= bt_private_connection_create_notification_iterator(
896 priv_conn
, &user_data
->notif_iter
);
897 assert(conn_status
== 0);
902 enum bt_component_status
sink_init(
903 struct bt_private_component
*private_component
,
904 struct bt_value
*params
, void *init_method_data
)
906 struct sink_user_data
*user_data
= g_new0(struct sink_user_data
, 1);
910 ret
= bt_private_component_set_user_data(private_component
,
913 ret
= bt_private_component_sink_add_input_private_port(
914 private_component
, "in", NULL
, NULL
);
916 return BT_COMPONENT_STATUS_OK
;
920 void sink_finalize(struct bt_private_component
*private_component
)
922 struct sink_user_data
*user_data
= bt_private_component_get_user_data(
926 bt_put(user_data
->notif_iter
);
932 void create_source_muxer_sink(struct bt_graph
*graph
,
933 struct bt_component
**source
,
934 struct bt_component
**muxer
,
935 struct bt_component
**sink
)
937 struct bt_component_class
*src_comp_class
;
938 struct bt_component_class
*muxer_comp_class
;
939 struct bt_component_class
*sink_comp_class
;
942 /* Create source component */
943 src_comp_class
= bt_component_class_source_create("src", src_iter_next
);
944 assert(src_comp_class
);
945 ret
= bt_component_class_set_init_method(src_comp_class
, src_init
);
947 ret
= bt_component_class_set_finalize_method(src_comp_class
,
950 ret
= bt_component_class_source_set_notification_iterator_init_method(
951 src_comp_class
, src_iter_init
);
953 ret
= bt_component_class_source_set_notification_iterator_finalize_method(
954 src_comp_class
, src_iter_finalize
);
956 ret
= bt_graph_add_component(graph
, src_comp_class
, "source", NULL
, source
);
959 /* Create muxer component */
960 muxer_comp_class
= bt_plugin_find_component_class("utils", "muxer",
961 BT_COMPONENT_CLASS_TYPE_FILTER
);
962 assert(muxer_comp_class
);
963 ret
= bt_graph_add_component(graph
, muxer_comp_class
, "muxer", NULL
, muxer
);
966 /* Create sink component */
967 sink_comp_class
= bt_component_class_sink_create("sink", sink_consume
);
968 assert(sink_comp_class
);
969 ret
= bt_component_class_set_init_method(sink_comp_class
, sink_init
);
971 ret
= bt_component_class_set_finalize_method(sink_comp_class
,
973 ret
= bt_component_class_set_port_connected_method(sink_comp_class
,
974 sink_port_connected
);
976 ret
= bt_graph_add_component(graph
, sink_comp_class
, "sink", NULL
, sink
);
979 bt_put(src_comp_class
);
980 bt_put(muxer_comp_class
);
981 bt_put(sink_comp_class
);
985 void do_std_test(enum test test
, const char *name
,
986 const struct test_event
*expected_test_events
,
989 struct bt_component
*src_comp
;
990 struct bt_component
*muxer_comp
;
991 struct bt_component
*sink_comp
;
992 struct bt_port
*upstream_port
;
993 struct bt_port
*downstream_port
;
994 struct bt_graph
*graph
;
997 enum bt_graph_status graph_status
= BT_GRAPH_STATUS_OK
;
1000 current_test
= test
;
1001 diag("test: %s", name
);
1002 graph
= bt_graph_create();
1004 create_source_muxer_sink(graph
, &src_comp
, &muxer_comp
, &sink_comp
);
1006 /* Connect source output ports to muxer input ports */
1007 if (with_upstream
) {
1008 count
= bt_component_source_get_output_port_count(src_comp
);
1011 for (i
= 0; i
< count
; i
++) {
1012 upstream_port
= bt_component_source_get_output_port_by_index(
1014 assert(upstream_port
);
1015 downstream_port
= bt_component_filter_get_input_port_by_index(
1017 assert(downstream_port
);
1018 graph_status
= bt_graph_connect_ports(graph
,
1019 upstream_port
, downstream_port
, NULL
);
1020 assert(graph_status
== 0);
1021 bt_put(upstream_port
);
1022 bt_put(downstream_port
);
1026 /* Connect muxer output port to sink input port */
1027 upstream_port
= bt_component_filter_get_output_port_by_name(muxer_comp
,
1029 assert(upstream_port
);
1030 downstream_port
= bt_component_sink_get_input_port_by_name(sink_comp
, "in");
1031 assert(downstream_port
);
1032 graph_status
= bt_graph_connect_ports(graph
, upstream_port
,
1033 downstream_port
, NULL
);
1034 assert(graph_status
== 0);
1035 bt_put(upstream_port
);
1036 bt_put(downstream_port
);
1038 while (graph_status
== BT_GRAPH_STATUS_OK
||
1039 graph_status
== BT_GRAPH_STATUS_AGAIN
) {
1040 graph_status
= bt_graph_run(graph
);
1043 ok(graph_status
== BT_GRAPH_STATUS_END
, "graph finishes without any error");
1044 ok(compare_test_events(expected_test_events
),
1045 "the produced sequence of test events is the expected one");
1054 void test_no_ts(void)
1056 const struct test_event expected_test_events
[] = {
1057 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1058 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1059 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1060 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1061 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= -1, },
1062 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= -1, },
1063 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= -1, },
1064 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= -1, },
1065 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= -1, },
1066 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1067 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1068 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 1, },
1069 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 4, },
1070 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 189, },
1071 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 1001, },
1072 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1073 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1074 { .type
= TEST_EV_TYPE_END
, },
1075 { .type
= TEST_EV_TYPE_SENTINEL
, },
1078 do_std_test(TEST_NO_TS
, "event notifications with no time",
1079 expected_test_events
, true);
1083 void test_no_upstream_connection(void)
1085 const struct test_event expected_test_events
[] = {
1086 { .type
= TEST_EV_TYPE_END
, },
1087 { .type
= TEST_EV_TYPE_SENTINEL
, },
1090 do_std_test(TEST_NO_UPSTREAM_CONNECTION
, "no upstream connection",
1091 expected_test_events
, false);
1095 void test_simple_4_ports(void)
1097 const struct test_event expected_test_events
[] = {
1098 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1099 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1100 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1101 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1102 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1103 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1104 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1105 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1106 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 8 },
1107 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 24 },
1108 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 41 },
1109 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 51 },
1110 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 53 },
1111 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 56 },
1112 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 59 },
1113 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 68 },
1114 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 71 },
1115 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 77 },
1116 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 91 },
1117 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 97 },
1118 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 105 },
1119 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 119 },
1120 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 120 },
1121 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 121 },
1122 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 138 },
1123 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 139 },
1124 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 154 },
1125 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 170 },
1126 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 179 },
1127 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 209 },
1128 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 210 },
1129 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 222 },
1130 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 228 },
1131 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 240 },
1132 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 254 },
1133 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 266 },
1134 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 292 },
1135 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 298 },
1136 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 317 },
1137 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 320 },
1138 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 350 },
1139 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 352 },
1140 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 353 },
1141 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 393 },
1142 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 407 },
1143 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 419 },
1144 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 433 },
1145 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 454 },
1146 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 471 },
1147 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 473 },
1148 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 478 },
1149 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 479 },
1150 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 481 },
1151 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 487 },
1152 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 504 },
1153 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 525 },
1154 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 572 },
1155 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 591 },
1156 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 605 },
1157 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 612 },
1158 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 615 },
1159 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 618 },
1160 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 624 },
1161 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 631 },
1162 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 632 },
1163 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 644 },
1164 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 651 },
1165 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 668 },
1166 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 670 },
1167 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 678 },
1168 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 696 },
1169 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 708 },
1170 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 714 },
1171 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 717 },
1172 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 731 },
1173 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 733 },
1174 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 744 },
1175 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 750 },
1176 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 766 },
1177 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 778 },
1178 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 788 },
1179 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 790 },
1180 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 819 },
1181 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 820 },
1182 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 825 },
1183 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 836 },
1184 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1185 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1186 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 850 },
1187 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 852 },
1188 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 857 },
1189 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 863 },
1190 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 867 },
1191 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 871 },
1192 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 884 },
1193 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 892 },
1194 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 903 },
1195 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 931 },
1196 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 944 },
1197 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 951 },
1198 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 953 },
1199 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 956 },
1200 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 985 },
1201 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 996 },
1202 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1203 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1204 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 998 },
1205 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1206 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1207 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 999 },
1208 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1209 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1210 { .type
= TEST_EV_TYPE_END
, },
1211 { .type
= TEST_EV_TYPE_SENTINEL
, },
1214 do_std_test(TEST_SIMPLE_4_PORTS
, "simple: 4 ports without retries",
1215 expected_test_events
, true);
1219 void test_4_ports_with_retries(void)
1221 const struct test_event expected_test_events
[] = {
1222 { .type
= TEST_EV_TYPE_AGAIN
, },
1223 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1224 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1225 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1226 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1227 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1228 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1229 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1230 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1231 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 8 },
1232 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 24 },
1233 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 41 },
1234 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 51 },
1235 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 53 },
1236 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 56 },
1237 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 59 },
1238 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 68 },
1239 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 71 },
1240 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 77 },
1241 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 91 },
1242 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 97 },
1243 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 105 },
1244 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 119 },
1245 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 120 },
1246 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 121 },
1247 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 138 },
1248 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 139 },
1249 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 154 },
1250 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 170 },
1251 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 179 },
1252 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 209 },
1253 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 210 },
1254 { .type
= TEST_EV_TYPE_AGAIN
, },
1255 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 222 },
1256 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 228 },
1257 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 240 },
1258 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 254 },
1259 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 266 },
1260 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 292 },
1261 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 298 },
1262 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 317 },
1263 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 320 },
1264 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 350 },
1265 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 352 },
1266 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 353 },
1267 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 393 },
1268 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 407 },
1269 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 419 },
1270 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 433 },
1271 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 454 },
1272 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 471 },
1273 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 473 },
1274 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 478 },
1275 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 479 },
1276 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 481 },
1277 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 487 },
1278 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 504 },
1279 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 525 },
1280 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 572 },
1281 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 591 },
1282 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 605 },
1283 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 612 },
1284 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 615 },
1285 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 618 },
1286 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 624 },
1287 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 631 },
1288 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 632 },
1289 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 644 },
1290 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 651 },
1291 { .type
= TEST_EV_TYPE_AGAIN
, },
1292 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 668 },
1293 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 670 },
1294 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 678 },
1295 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 696 },
1296 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 708 },
1297 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 714 },
1298 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 717 },
1299 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 731 },
1300 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 733 },
1301 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 744 },
1302 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 750 },
1303 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 766 },
1304 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 778 },
1305 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 788 },
1306 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 790 },
1307 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 819 },
1308 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 820 },
1309 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 825 },
1310 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 836 },
1311 { .type
= TEST_EV_TYPE_AGAIN
, },
1312 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1313 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1314 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 850 },
1315 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 852 },
1316 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 857 },
1317 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 863 },
1318 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 867 },
1319 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 871 },
1320 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 884 },
1321 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 892 },
1322 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 903 },
1323 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 931 },
1324 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 944 },
1325 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 951 },
1326 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 953 },
1327 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 956 },
1328 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 985 },
1329 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 996 },
1330 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1331 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1332 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 998 },
1333 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1334 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1335 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 999 },
1336 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1337 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1338 { .type
= TEST_EV_TYPE_END
, },
1339 { .type
= TEST_EV_TYPE_SENTINEL
, },
1342 do_std_test(TEST_4_PORTS_WITH_RETRIES
, "4 ports with retries",
1343 expected_test_events
, true);
1347 void connect_port_to_first_avail_muxer_port(struct bt_graph
*graph
,
1348 struct bt_port
*source_port
,
1349 struct bt_component
*muxer_comp
)
1351 struct bt_port
*avail_muxer_port
= NULL
;
1354 enum bt_graph_status graph_status
;
1356 count
= bt_component_filter_get_input_port_count(muxer_comp
);
1359 for (i
= 0; i
< count
; i
++) {
1360 struct bt_port
*muxer_port
=
1361 bt_component_filter_get_input_port_by_index(
1366 if (!bt_port_is_connected(muxer_port
)) {
1367 BT_MOVE(avail_muxer_port
, muxer_port
);
1374 graph_status
= bt_graph_connect_ports(graph
, source_port
,
1375 avail_muxer_port
, NULL
);
1376 assert(graph_status
== 0);
1377 bt_put(avail_muxer_port
);
1381 void graph_port_added_listener_connect_to_avail_muxer_port(struct bt_port
*port
,
1384 struct graph_listener_data
*graph_listener_data
= data
;
1385 struct bt_component
*comp
;
1387 comp
= bt_port_get_component(port
);
1390 if (comp
!= graph_listener_data
->source
) {
1394 connect_port_to_first_avail_muxer_port(graph_listener_data
->graph
,
1395 port
, graph_listener_data
->muxer
);
1402 void test_single_end_then_multiple_full(void)
1404 struct bt_component
*src_comp
;
1405 struct bt_component
*muxer_comp
;
1406 struct bt_component
*sink_comp
;
1407 struct bt_port
*upstream_port
;
1408 struct bt_port
*downstream_port
;
1409 struct bt_graph
*graph
;
1413 enum bt_graph_status graph_status
= BT_GRAPH_STATUS_OK
;
1414 struct graph_listener_data graph_listener_data
;
1415 const struct test_event expected_test_events
[] = {
1416 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1417 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1418 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1419 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1420 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 8 },
1421 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 51 },
1422 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 59 },
1423 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 68 },
1424 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 71 },
1425 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 77 },
1426 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 91 },
1427 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 121 },
1428 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 139 },
1429 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 170 },
1430 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 179 },
1431 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 209 },
1432 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 254 },
1433 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 266 },
1434 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 298 },
1435 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 320 },
1436 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 350 },
1437 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 352 },
1438 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 393 },
1439 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 419 },
1440 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 454 },
1441 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 478 },
1442 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 624 },
1443 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 631 },
1444 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 644 },
1445 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 651 },
1446 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 668 },
1447 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 678 },
1448 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 714 },
1449 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 717 },
1450 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 731 },
1451 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 733 },
1452 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 744 },
1453 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 750 },
1454 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 778 },
1455 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 788 },
1456 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 790 },
1457 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 819 },
1458 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 820 },
1459 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 836 },
1460 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1461 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1462 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 857 },
1463 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 892 },
1464 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 903 },
1465 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 944 },
1466 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 998 },
1467 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1468 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1469 { .type
= TEST_EV_TYPE_END
, },
1470 { .type
= TEST_EV_TYPE_SENTINEL
, },
1473 clear_test_events();
1474 current_test
= TEST_SINGLE_END_THEN_MULTIPLE_FULL
;
1475 diag("test: single end then multiple full");
1476 graph
= bt_graph_create();
1478 create_source_muxer_sink(graph
, &src_comp
, &muxer_comp
, &sink_comp
);
1479 graph_listener_data
.graph
= graph
;
1480 graph_listener_data
.source
= src_comp
;
1481 graph_listener_data
.muxer
= muxer_comp
;
1482 graph_listener_data
.sink
= sink_comp
;
1483 ret
= bt_graph_add_port_added_listener(graph
,
1484 graph_port_added_listener_connect_to_avail_muxer_port
, NULL
,
1485 &graph_listener_data
);
1488 /* Connect source output ports to muxer input ports */
1489 count
= bt_component_source_get_output_port_count(src_comp
);
1492 for (i
= 0; i
< count
; i
++) {
1493 upstream_port
= bt_component_source_get_output_port_by_index(
1495 assert(upstream_port
);
1496 connect_port_to_first_avail_muxer_port(graph
,
1497 upstream_port
, muxer_comp
);
1498 bt_put(upstream_port
);
1501 /* Connect muxer output port to sink input port */
1502 upstream_port
= bt_component_filter_get_output_port_by_name(muxer_comp
,
1504 assert(upstream_port
);
1505 downstream_port
= bt_component_sink_get_input_port_by_name(sink_comp
, "in");
1506 assert(downstream_port
);
1507 graph_status
= bt_graph_connect_ports(graph
, upstream_port
,
1508 downstream_port
, NULL
);
1509 assert(graph_status
== 0);
1510 bt_put(upstream_port
);
1511 bt_put(downstream_port
);
1513 while (graph_status
== BT_GRAPH_STATUS_OK
||
1514 graph_status
== BT_GRAPH_STATUS_AGAIN
) {
1515 graph_status
= bt_graph_run(graph
);
1518 ok(graph_status
== BT_GRAPH_STATUS_END
, "graph finishes without any error");
1519 ok(compare_test_events(expected_test_events
),
1520 "the produced sequence of test events is the expected one");
1529 void test_single_again_end_then_multiple_full(void)
1531 struct bt_component
*src_comp
;
1532 struct bt_component
*muxer_comp
;
1533 struct bt_component
*sink_comp
;
1534 struct bt_port
*upstream_port
;
1535 struct bt_port
*downstream_port
;
1536 struct bt_graph
*graph
;
1540 enum bt_graph_status graph_status
= BT_GRAPH_STATUS_OK
;
1541 struct graph_listener_data graph_listener_data
;
1542 const struct test_event expected_test_events
[] = {
1543 { .type
= TEST_EV_TYPE_AGAIN
, },
1544 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1545 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1546 { .type
= TEST_EV_TYPE_NOTIF_STREAM_BEGIN
, },
1547 { .type
= TEST_EV_TYPE_NOTIF_PACKET_BEGIN
, },
1548 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 8 },
1549 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 51 },
1550 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 59 },
1551 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 68 },
1552 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 71 },
1553 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 77 },
1554 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 91 },
1555 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 121 },
1556 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 139 },
1557 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 170 },
1558 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 179 },
1559 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 209 },
1560 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 254 },
1561 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 266 },
1562 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 298 },
1563 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 320 },
1564 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 350 },
1565 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 352 },
1566 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 393 },
1567 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 419 },
1568 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 454 },
1569 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 478 },
1570 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 624 },
1571 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 631 },
1572 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 644 },
1573 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 651 },
1574 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 668 },
1575 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 678 },
1576 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 714 },
1577 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 717 },
1578 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 731 },
1579 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 733 },
1580 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 744 },
1581 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 750 },
1582 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 778 },
1583 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 788 },
1584 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 790 },
1585 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 819 },
1586 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 820 },
1587 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 836 },
1588 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1589 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1590 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 857 },
1591 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 892 },
1592 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 903 },
1593 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 944 },
1594 { .type
= TEST_EV_TYPE_NOTIF_EVENT
, .ts_ns
= 998 },
1595 { .type
= TEST_EV_TYPE_NOTIF_PACKET_END
, },
1596 { .type
= TEST_EV_TYPE_NOTIF_STREAM_END
, },
1597 { .type
= TEST_EV_TYPE_END
, },
1598 { .type
= TEST_EV_TYPE_SENTINEL
, },
1601 clear_test_events();
1602 current_test
= TEST_SINGLE_AGAIN_END_THEN_MULTIPLE_FULL
;
1603 diag("test: single again then end then multiple full");
1604 graph
= bt_graph_create();
1606 create_source_muxer_sink(graph
, &src_comp
, &muxer_comp
, &sink_comp
);
1607 graph_listener_data
.graph
= graph
;
1608 graph_listener_data
.source
= src_comp
;
1609 graph_listener_data
.muxer
= muxer_comp
;
1610 graph_listener_data
.sink
= sink_comp
;
1611 ret
= bt_graph_add_port_added_listener(graph
,
1612 graph_port_added_listener_connect_to_avail_muxer_port
, NULL
,
1613 &graph_listener_data
);
1616 /* Connect source output ports to muxer input ports */
1617 count
= bt_component_source_get_output_port_count(src_comp
);
1620 for (i
= 0; i
< count
; i
++) {
1621 upstream_port
= bt_component_source_get_output_port_by_index(
1623 assert(upstream_port
);
1624 connect_port_to_first_avail_muxer_port(graph
,
1625 upstream_port
, muxer_comp
);
1626 bt_put(upstream_port
);
1629 /* Connect muxer output port to sink input port */
1630 upstream_port
= bt_component_filter_get_output_port_by_name(muxer_comp
,
1632 assert(upstream_port
);
1633 downstream_port
= bt_component_sink_get_input_port_by_name(sink_comp
, "in");
1634 assert(downstream_port
);
1635 graph_status
= bt_graph_connect_ports(graph
, upstream_port
,
1636 downstream_port
, NULL
);
1637 assert(graph_status
== 0);
1638 bt_put(upstream_port
);
1639 bt_put(downstream_port
);
1641 while (graph_status
== BT_GRAPH_STATUS_OK
||
1642 graph_status
== BT_GRAPH_STATUS_AGAIN
) {
1643 graph_status
= bt_graph_run(graph
);
1646 ok(graph_status
== BT_GRAPH_STATUS_END
, "graph finishes without any error");
1647 ok(compare_test_events(expected_test_events
),
1648 "the produced sequence of test events is the expected one");
1656 #define DEBUG_ENV_VAR "TEST_UTILS_MUXER_DEBUG"
1658 int main(int argc
, char **argv
)
1660 if (getenv(DEBUG_ENV_VAR
) && strcmp(getenv(DEBUG_ENV_VAR
), "1") == 0) {
1664 plan_tests(NR_TESTS
);
1667 test_no_upstream_connection();
1668 test_simple_4_ports();
1669 test_4_ports_with_retries();
1670 test_single_end_then_multiple_full();
1671 test_single_again_end_then_multiple_full();
1673 return exit_status();