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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / bcacb24bf543b786219ffeb4826394dc55966dfe / . / aos / events / event_loop_param_test.cc
blob: fbcb62e5abe148d51a255cc34e2928404c5a8e35 [file] [log] [blame]
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]1#include "aos/events/event_loop_param_test.h"
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]2
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]3#include <chrono>
4
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]5#include "aos/events/test_message_generated.h"
Austin Schuh54cf95f2019-11-29 13:14:18 -0800[diff] [blame]6#include "aos/flatbuffer_merge.h"
7#include "glog/logging.h"
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]8#include "gmock/gmock.h"
9#include "gtest/gtest.h"
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]10
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]11namespace aos {
12namespace testing {
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]13namespace {
14namespace chrono = ::std::chrono;
15} // namespace
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]16
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]17// Tests that watcher can receive messages from a sender.
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]18// Also tests that OnRun() works.
19TEST_P(AbstractEventLoopTest, Basic) {
20 auto loop1 = Make();
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]21 auto loop2 = MakePrimary();
22
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]23 aos::Sender<TestMessage> sender = loop1->MakeSender<TestMessage>("/test");
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]24
25 bool happened = false;
26
27 loop2->OnRun([&]() {
28 happened = true;
29
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]30 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
31 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
32 builder.add_value(200);
33 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]34 });
35
36 loop2->MakeWatcher("/test", [&](const TestMessage &message) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]37 EXPECT_EQ(message.value(), 200);
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]38 this->Exit();
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]39 });
40
41 EXPECT_FALSE(happened);
42 Run();
43 EXPECT_TRUE(happened);
44}
45
Brian Silverman6b8a3c32020-03-06 11:26:14 -0800[diff] [blame]46// Verifies that a no-arg watcher will not have a data pointer.
47TEST_P(AbstractEventLoopTest, NoArgNoData) {
48 auto loop1 = Make();
49 auto loop2 = MakePrimary();
50
51 aos::Sender<TestMessage> sender = loop1->MakeSender<TestMessage>("/test");
52
53 bool happened = false;
54
55 loop2->OnRun([&]() {
56 happened = true;
57
58 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
59 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
60 ASSERT_TRUE(msg.Send(builder.Finish()));
61 });
62
63 loop2->MakeNoArgWatcher<TestMessage>("/test", [&]() {
64 EXPECT_GT(loop2->context().size, 0u);
65 EXPECT_EQ(nullptr, loop2->context().data);
66 this->Exit();
67 });
68
69 EXPECT_FALSE(happened);
70 Run();
71 EXPECT_TRUE(happened);
72}
73
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]74// Tests that no-arg watcher can receive messages from a sender.
75// Also tests that OnRun() works.
76TEST_P(AbstractEventLoopTest, BasicNoArg) {
77 auto loop1 = Make();
78 auto loop2 = MakePrimary();
79
80 aos::Sender<TestMessage> sender = loop1->MakeSender<TestMessage>("/test");
81
82 bool happened = false;
83
84 loop2->OnRun([&]() {
85 happened = true;
86
87 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
88 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
89 builder.add_value(200);
90 ASSERT_TRUE(msg.Send(builder.Finish()));
91 });
92
93 aos::Fetcher<TestMessage> fetcher = loop2->MakeFetcher<TestMessage>("/test");
94 loop2->MakeNoArgWatcher<TestMessage>("/test", [&]() {
95 ASSERT_TRUE(fetcher.Fetch());
96 EXPECT_EQ(fetcher->value(), 200);
97 this->Exit();
98 });
99
100 EXPECT_FALSE(happened);
101 Run();
102 EXPECT_TRUE(happened);
103}
104
105// Tests that a watcher can be created with an std::function.
106TEST_P(AbstractEventLoopTest, BasicFunction) {
107 auto loop1 = Make();
108 auto loop2 = MakePrimary();
109
110 aos::Sender<TestMessage> sender = loop1->MakeSender<TestMessage>("/test");
111
112 bool happened = false;
113
114 loop2->OnRun([&]() {
115 happened = true;
116
117 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
118 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
119 builder.add_value(200);
120 ASSERT_TRUE(msg.Send(builder.Finish()));
121 });
122
123 loop2->MakeWatcher("/test", std::function<void(const TestMessage &)>(
124 [&](const TestMessage &message) {
125 EXPECT_EQ(message.value(), 200);
126 this->Exit();
127 }));
128
129 EXPECT_FALSE(happened);
130 Run();
131 EXPECT_TRUE(happened);
132}
133
Brian Silverman0fc69932020-01-24 21:54:02 -0800[diff] [blame]134// Tests that watcher can receive messages from two senders.
135// Also tests that OnRun() works.
136TEST_P(AbstractEventLoopTest, BasicTwoSenders) {
137 auto loop1 = Make();
138 auto loop2 = MakePrimary();
139
140 aos::Sender<TestMessage> sender1 = loop1->MakeSender<TestMessage>("/test");
141 aos::Sender<TestMessage> sender2 = loop1->MakeSender<TestMessage>("/test");
142
143 bool happened = false;
144
145 loop2->OnRun([&]() {
146 happened = true;
147
148 {
149 aos::Sender<TestMessage>::Builder msg = sender1.MakeBuilder();
150 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
151 builder.add_value(200);
152 ASSERT_TRUE(msg.Send(builder.Finish()));
153 }
154 {
155 aos::Sender<TestMessage>::Builder msg = sender2.MakeBuilder();
156 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
157 builder.add_value(200);
158 ASSERT_TRUE(msg.Send(builder.Finish()));
159 }
160 });
161
162 int messages_received = 0;
163 loop2->MakeWatcher("/test", [&](const TestMessage &message) {
164 EXPECT_EQ(message.value(), 200);
165 this->Exit();
166 ++messages_received;
167 });
168
169 EXPECT_FALSE(happened);
170 Run();
171 EXPECT_TRUE(happened);
172 EXPECT_EQ(messages_received, 2);
173}
174
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]175// Tests that a fetcher can fetch from a sender.
176// Also tests that OnRun() works.
177TEST_P(AbstractEventLoopTest, FetchWithoutRun) {
178 auto loop1 = Make();
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]179 auto loop2 = Make();
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]180 auto loop3 = MakePrimary();
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]181
182 auto sender = loop1->MakeSender<TestMessage>("/test");
183
184 auto fetcher = loop2->MakeFetcher<TestMessage>("/test");
185
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]186 EXPECT_FALSE(fetcher.Fetch());
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]187 EXPECT_EQ(fetcher.get(), nullptr);
188
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]189 EXPECT_EQ(fetcher.context().monotonic_event_time, monotonic_clock::min_time);
190 EXPECT_EQ(fetcher.context().monotonic_remote_time, monotonic_clock::min_time);
191 EXPECT_EQ(fetcher.context().realtime_event_time, realtime_clock::min_time);
192 EXPECT_EQ(fetcher.context().realtime_remote_time, realtime_clock::min_time);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]193 EXPECT_EQ(fetcher.context().queue_index, 0xffffffffu);
194 EXPECT_EQ(fetcher.context().size, 0u);
195 EXPECT_EQ(fetcher.context().data, nullptr);
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]196
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]197 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
198 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
199 builder.add_value(200);
200 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]201
202 EXPECT_TRUE(fetcher.Fetch());
203 ASSERT_FALSE(fetcher.get() == nullptr);
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]204 EXPECT_EQ(fetcher.get()->value(), 200);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]205
206 const chrono::milliseconds kEpsilon(100);
207
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]208 const aos::monotonic_clock::time_point monotonic_now = loop2->monotonic_now();
209 const aos::realtime_clock::time_point realtime_now = loop2->realtime_now();
210 EXPECT_EQ(fetcher.context().monotonic_event_time,
211 fetcher.context().monotonic_remote_time);
212 EXPECT_EQ(fetcher.context().realtime_event_time,
213 fetcher.context().realtime_remote_time);
214
215 EXPECT_GE(fetcher.context().monotonic_event_time, monotonic_now - kEpsilon);
216 EXPECT_LE(fetcher.context().monotonic_event_time, monotonic_now + kEpsilon);
217 EXPECT_GE(fetcher.context().realtime_event_time, realtime_now - kEpsilon);
218 EXPECT_LE(fetcher.context().realtime_event_time, realtime_now + kEpsilon);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]219 EXPECT_EQ(fetcher.context().queue_index, 0x0u);
220 EXPECT_EQ(fetcher.context().size, 20u);
221 EXPECT_NE(fetcher.context().data, nullptr);
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]222}
223
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]224// Tests that watcher will receive all messages sent if they are sent after
225// initialization and before running.
226TEST_P(AbstractEventLoopTest, DoubleSendAtStartup) {
227 auto loop1 = Make();
228 auto loop2 = MakePrimary();
229
230 auto sender = loop1->MakeSender<TestMessage>("/test");
231
232 ::std::vector<int> values;
233
234 loop2->MakeWatcher("/test", [&](const TestMessage &message) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]235 values.push_back(message.value());
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]236 if (values.size() == 2) {
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]237 this->Exit();
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]238 }
239 });
240
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]241 // Before Run, should be ignored.
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]242 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]243 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
244 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
245 builder.add_value(199);
246 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]247 }
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]248
249 loop2->OnRun([&]() {
250 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]251 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
252 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
253 builder.add_value(200);
254 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]255 }
256 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]257 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
258 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
259 builder.add_value(201);
260 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]261 }
262 });
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]263
264 Run();
265
266 EXPECT_THAT(values, ::testing::ElementsAreArray({200, 201}));
267}
268
269// Tests that watcher will not receive messages sent before the watcher is
270// created.
271TEST_P(AbstractEventLoopTest, DoubleSendAfterStartup) {
272 auto loop1 = Make();
273 auto loop2 = MakePrimary();
274
275 auto sender = loop1->MakeSender<TestMessage>("/test");
276
277 ::std::vector<int> values;
278
279 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]280 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
281 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
282 builder.add_value(200);
283 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]284 }
285 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]286 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
287 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
288 builder.add_value(201);
289 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]290 }
291
292 loop2->MakeWatcher("/test", [&](const TestMessage &message) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]293 values.push_back(message.value());
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]294 });
295
296 // Add a timer to actually quit.
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]297 auto test_timer = loop2->AddTimer([this]() { this->Exit(); });
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]298 loop2->OnRun([&test_timer, &loop2]() {
299 test_timer->Setup(loop2->monotonic_now(), ::std::chrono::milliseconds(100));
300 });
301
302 Run();
303 EXPECT_EQ(0, values.size());
304}
305
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]306// Tests that FetchNext gets all the messages sent after it is constructed.
307TEST_P(AbstractEventLoopTest, FetchNext) {
308 auto loop1 = Make();
309 auto loop2 = MakePrimary();
310
311 auto sender = loop1->MakeSender<TestMessage>("/test");
312 auto fetcher = loop2->MakeFetcher<TestMessage>("/test");
313
314 ::std::vector<int> values;
315
316 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]317 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
318 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
319 builder.add_value(200);
320 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]321 }
322 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]323 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
324 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
325 builder.add_value(201);
326 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]327 }
328
329 // Add a timer to actually quit.
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]330 auto test_timer = loop2->AddTimer([&fetcher, &values, this]() {
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]331 while (fetcher.FetchNext()) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]332 values.push_back(fetcher.get()->value());
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]333 }
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]334 this->Exit();
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]335 });
336
337 loop2->OnRun([&test_timer, &loop2]() {
338 test_timer->Setup(loop2->monotonic_now(), ::std::chrono::milliseconds(100));
339 });
340
341 Run();
342 EXPECT_THAT(values, ::testing::ElementsAreArray({200, 201}));
343}
344
345// Tests that FetchNext gets no messages sent before it is constructed.
346TEST_P(AbstractEventLoopTest, FetchNextAfterSend) {
347 auto loop1 = Make();
348 auto loop2 = MakePrimary();
349
350 auto sender = loop1->MakeSender<TestMessage>("/test");
351
352 ::std::vector<int> values;
353
354 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]355 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
356 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
357 builder.add_value(200);
358 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]359 }
360 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]361 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
362 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
363 builder.add_value(201);
364 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]365 }
366
367 auto fetcher = loop2->MakeFetcher<TestMessage>("/test");
368
369 // Add a timer to actually quit.
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]370 auto test_timer = loop2->AddTimer([&fetcher, &values, this]() {
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]371 while (fetcher.FetchNext()) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]372 values.push_back(fetcher.get()->value());
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]373 }
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]374 this->Exit();
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]375 });
376
377 loop2->OnRun([&test_timer, &loop2]() {
378 test_timer->Setup(loop2->monotonic_now(), ::std::chrono::milliseconds(100));
379 });
380
381 Run();
382 EXPECT_THAT(0, values.size());
383}
384
385// Tests that Fetch returns the last message created before the loop was
386// started.
387TEST_P(AbstractEventLoopTest, FetchDataFromBeforeCreation) {
388 auto loop1 = Make();
389 auto loop2 = MakePrimary();
390
391 auto sender = loop1->MakeSender<TestMessage>("/test");
392
393 ::std::vector<int> values;
394
395 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]396 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
397 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
398 builder.add_value(200);
399 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]400 }
401 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]402 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
403 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
404 builder.add_value(201);
405 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]406 }
407
408 auto fetcher = loop2->MakeFetcher<TestMessage>("/test");
409
410 // Add a timer to actually quit.
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]411 auto test_timer = loop2->AddTimer([&fetcher, &values, this]() {
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]412 if (fetcher.Fetch()) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]413 values.push_back(fetcher.get()->value());
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]414 }
415 // Do it again to make sure we don't double fetch.
416 if (fetcher.Fetch()) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]417 values.push_back(fetcher.get()->value());
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]418 }
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]419 this->Exit();
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]420 });
421
422 loop2->OnRun([&test_timer, &loop2]() {
423 test_timer->Setup(loop2->monotonic_now(), ::std::chrono::milliseconds(100));
424 });
425
426 Run();
427 EXPECT_THAT(values, ::testing::ElementsAreArray({201}));
428}
429
430// Tests that Fetch and FetchNext interleave as expected.
431TEST_P(AbstractEventLoopTest, FetchAndFetchNextTogether) {
432 auto loop1 = Make();
433 auto loop2 = MakePrimary();
434
435 auto sender = loop1->MakeSender<TestMessage>("/test");
436
437 ::std::vector<int> values;
438
439 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]440 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
441 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
442 builder.add_value(200);
443 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]444 }
445 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]446 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
447 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
448 builder.add_value(201);
449 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]450 }
451
452 auto fetcher = loop2->MakeFetcher<TestMessage>("/test");
453
454 // Add a timer to actually quit.
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]455 auto test_timer = loop2->AddTimer([&fetcher, &values, &sender, this]() {
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]456 if (fetcher.Fetch()) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]457 values.push_back(fetcher.get()->value());
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]458 }
459
460 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]461 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
462 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
463 builder.add_value(202);
464 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]465 }
466 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]467 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
468 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
469 builder.add_value(203);
470 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]471 }
472 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]473 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
474 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
475 builder.add_value(204);
476 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]477 }
478
479 if (fetcher.FetchNext()) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]480 values.push_back(fetcher.get()->value());
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]481 }
482
483 if (fetcher.Fetch()) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]484 values.push_back(fetcher.get()->value());
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]485 }
486
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]487 this->Exit();
Austin Schuhbbce72d2019-05-26 15:11:46 -0700[diff] [blame]488 });
489
490 loop2->OnRun([&test_timer, &loop2]() {
491 test_timer->Setup(loop2->monotonic_now(), ::std::chrono::milliseconds(100));
492 });
493
494 Run();
495 EXPECT_THAT(values, ::testing::ElementsAreArray({201, 202, 204}));
496}
497
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]498// Tests that FetchNext behaves correctly when we get two messages in the queue
499// but don't consume the first until after the second has been sent.
500TEST_P(AbstractEventLoopTest, FetchNextTest) {
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]501 auto send_loop = Make();
502 auto fetch_loop = Make();
503 auto sender = send_loop->MakeSender<TestMessage>("/test");
504 Fetcher<TestMessage> fetcher = fetch_loop->MakeFetcher<TestMessage>("/test");
505
506 {
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]507 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
508 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
509 builder.add_value(100);
510 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]511 }
512
513 {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]514 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
515 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
516 builder.add_value(200);
517 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]518 }
519
520 ASSERT_TRUE(fetcher.FetchNext());
521 ASSERT_NE(nullptr, fetcher.get());
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]522 EXPECT_EQ(100, fetcher.get()->value());
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]523
524 ASSERT_TRUE(fetcher.FetchNext());
525 ASSERT_NE(nullptr, fetcher.get());
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]526 EXPECT_EQ(200, fetcher.get()->value());
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]527
528 // When we run off the end of the queue, expect to still have the old message:
529 ASSERT_FALSE(fetcher.FetchNext());
530 ASSERT_NE(nullptr, fetcher.get());
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]531 EXPECT_EQ(200, fetcher.get()->value());
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]532}
533
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]534// Verify that making a fetcher and watcher for "/test" succeeds.
535TEST_P(AbstractEventLoopTest, FetcherAndWatcher) {
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]536 auto loop = Make();
537 auto fetcher = loop->MakeFetcher<TestMessage>("/test");
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]538 loop->MakeWatcher("/test", [&](const TestMessage &) {});
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]539}
540
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]541// Verify that making 2 fetchers for "/test" succeeds.
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]542TEST_P(AbstractEventLoopTest, TwoFetcher) {
543 auto loop = Make();
544 auto fetcher = loop->MakeFetcher<TestMessage>("/test");
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]545 auto fetcher2 = loop->MakeFetcher<TestMessage>("/test");
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]546}
547
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]548// Verify that registering a watcher for an invalid channel name dies.
549TEST_P(AbstractEventLoopDeathTest, InvalidChannelName) {
550 auto loop = Make();
551 EXPECT_DEATH(
552 { loop->MakeWatcher("/test/invalid", [&](const TestMessage &) {}); },
553 "/test/invalid");
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]554 EXPECT_DEATH(
555 { loop->MakeNoArgWatcher<TestMessage>("/test/invalid", [&]() {}); },
556 "/test/invalid");
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]557}
558
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]559// Verify that registering a watcher twice for "/test" fails.
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]560TEST_P(AbstractEventLoopDeathTest, TwoWatcher) {
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]561 auto loop = Make();
562 loop->MakeWatcher("/test", [&](const TestMessage &) {});
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]563 EXPECT_DEATH(loop->MakeWatcher("/test", [&](const TestMessage &) {}),
564 "/test");
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]565 EXPECT_DEATH(loop->MakeNoArgWatcher<TestMessage>("/test", [&]() {}), "/test");
566}
567
568// Verify that registering a no-arg watcher twice for "/test" fails.
569TEST_P(AbstractEventLoopDeathTest, TwoNoArgWatcher) {
570 auto loop = Make();
571 loop->MakeNoArgWatcher<TestMessage>("/test", [&]() {});
572 EXPECT_DEATH(loop->MakeWatcher("/test", [&](const TestMessage &) {}),
573 "/test");
574 EXPECT_DEATH(loop->MakeNoArgWatcher<TestMessage>("/test", [&]() {}), "/test");
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]575}
576
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]577// Verify that SetRuntimeRealtimePriority fails while running.
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]578TEST_P(AbstractEventLoopDeathTest, SetRuntimeRealtimePriority) {
Austin Schuh3115a202019-05-27 21:02:14 -0700[diff] [blame]579 auto loop = MakePrimary();
580 // Confirm that runtime priority calls work when not realtime.
581 loop->SetRuntimeRealtimePriority(5);
582
583 loop->OnRun([&]() { loop->SetRuntimeRealtimePriority(5); });
584
585 EXPECT_DEATH(Run(), "realtime");
586}
587
Brian Silverman6a54ff32020-04-28 16:41:39 -0700[diff] [blame]588// Verify that SetRuntimeAffinity fails while running.
589TEST_P(AbstractEventLoopDeathTest, SetRuntimeAffinity) {
590 auto loop = MakePrimary();
591 // Confirm that runtime priority calls work when not running.
592 loop->SetRuntimeAffinity(MakeCpusetFromCpus({0}));
593
594 loop->OnRun([&]() { loop->SetRuntimeAffinity(MakeCpusetFromCpus({1})); });
595
596 EXPECT_DEATH(Run(), "Cannot set affinity while running");
597}
598
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]599// Verify that registering a watcher and a sender for "/test" fails.
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]600TEST_P(AbstractEventLoopDeathTest, WatcherAndSender) {
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]601 auto loop = Make();
602 auto sender = loop->MakeSender<TestMessage>("/test");
603 EXPECT_DEATH(loop->MakeWatcher("/test", [&](const TestMessage &) {}),
604 "/test");
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]605}
606
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]607// Verify that we can't create a sender inside OnRun.
608TEST_P(AbstractEventLoopDeathTest, SenderInOnRun) {
609 auto loop1 = MakePrimary();
610
611 loop1->OnRun(
612 [&]() { auto sender = loop1->MakeSender<TestMessage>("/test2"); });
613
614 EXPECT_DEATH(Run(), "running");
615}
616
617// Verify that we can't create a watcher inside OnRun.
618TEST_P(AbstractEventLoopDeathTest, WatcherInOnRun) {
619 auto loop1 = MakePrimary();
620
621 loop1->OnRun(
622 [&]() { loop1->MakeWatcher("/test", [&](const TestMessage &) {}); });
623
624 EXPECT_DEATH(Run(), "running");
625}
626
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]627// Verify that we can't create a no-arg watcher inside OnRun.
628TEST_P(AbstractEventLoopDeathTest, NoArgWatcherInOnRun) {
629 auto loop1 = MakePrimary();
630
631 loop1->OnRun(
632 [&]() { loop1->MakeNoArgWatcher<TestMessage>("/test", [&]() {}); });
633
634 EXPECT_DEATH(Run(), "running");
635}
636
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]637// Verify that Quit() works when there are multiple watchers.
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]638TEST_P(AbstractEventLoopTest, MultipleWatcherQuit) {
639 auto loop1 = Make();
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]640 auto loop2 = MakePrimary();
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]641
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]642 loop2->MakeWatcher("/test1", [&](const TestMessage &) {});
643 loop2->MakeWatcher("/test2", [&](const TestMessage &message) {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]644 EXPECT_EQ(message.value(), 200);
Austin Schuh9fe68f72019-08-10 19:32:03 -0700[diff] [blame]645 this->Exit();
Austin Schuh3578a2e2019-05-25 18:17:59 -0700[diff] [blame]646 });
647
Austin Schuh81fc9cc2019-02-02 23:25:47 -0800[diff] [blame]648 auto sender = loop1->MakeSender<TestMessage>("/test2");
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]649
650 loop2->OnRun([&]() {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]651 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
652 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
653 builder.add_value(200);
654 ASSERT_TRUE(msg.Send(builder.Finish()));
Austin Schuh6b6dfa52019-06-12 20:16:20 -0700[diff] [blame]655 });
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]656
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]657 Run();
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]658}
659
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]660// Verify that timer intervals and duration function properly.
661TEST_P(AbstractEventLoopTest, TimerIntervalAndDuration) {
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]662 // Force a slower rate so we are guarenteed to have reports for our timer.
663 FLAGS_timing_report_ms = 2000;
664
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]665 const int kCount = 5;
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]666
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]667 auto loop = MakePrimary();
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]668 auto loop2 = Make();
669
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]670 ::std::vector<::aos::monotonic_clock::time_point> times;
671 ::std::vector<::aos::monotonic_clock::time_point> expected_times;
672
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]673 Fetcher<timing::Report> report_fetcher =
674 loop2->MakeFetcher<timing::Report>("/aos");
675 EXPECT_FALSE(report_fetcher.Fetch());
676
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]677 auto test_timer = loop->AddTimer([this, &times, &expected_times, &loop]() {
678 times.push_back(loop->monotonic_now());
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]679 EXPECT_EQ(loop->context().monotonic_remote_time, monotonic_clock::min_time);
680 EXPECT_EQ(loop->context().realtime_event_time, realtime_clock::min_time);
681 EXPECT_EQ(loop->context().realtime_remote_time, realtime_clock::min_time);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]682 EXPECT_EQ(loop->context().queue_index, 0xffffffffu);
683 EXPECT_EQ(loop->context().size, 0u);
684 EXPECT_EQ(loop->context().data, nullptr);
685
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]686 expected_times.push_back(loop->context().monotonic_event_time);
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]687 if (times.size() == kCount) {
688 this->Exit();
689 }
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]690 });
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]691 test_timer->set_name("Test loop");
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]692
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]693 const monotonic_clock::time_point start_time = loop->monotonic_now();
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]694 // TODO(austin): This should be an error... Should be done in OnRun only.
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]695 test_timer->Setup(start_time + chrono::seconds(1), chrono::seconds(1));
696
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]697 Run();
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]698
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]699 // Confirm that we got both the right number of samples, and it's odd.
700 EXPECT_EQ(times.size(), static_cast<size_t>(kCount));
701 EXPECT_EQ(times.size(), expected_times.size());
702 EXPECT_EQ((times.size() % 2), 1);
703
704 // Grab the middle sample.
705 ::aos::monotonic_clock::time_point average_time = times[times.size() / 2];
706
707 // Add up all the delays of all the times.
708 ::aos::monotonic_clock::duration sum = chrono::seconds(0);
709 for (const ::aos::monotonic_clock::time_point time : times) {
710 sum += time - average_time;
711 }
712
713 // Average and add to the middle to find the average time.
714 sum /= times.size();
715 average_time += sum;
716
717 // Compute the offset from the average and the expected average. It
718 // should be pretty close to 0.
719 const ::aos::monotonic_clock::duration remainder =
720 average_time - start_time - chrono::seconds(times.size() / 2 + 1);
721
722 const chrono::milliseconds kEpsilon(100);
723 EXPECT_LT(remainder, +kEpsilon);
724 EXPECT_GT(remainder, -kEpsilon);
725
726 // Make sure that the average duration is close to 1 second.
727 EXPECT_NEAR(chrono::duration_cast<chrono::duration<double>>(times.back() -
728 times.front())
729 .count() /
730 static_cast<double>(times.size() - 1),
731 1.0, 0.1);
732
733 // Confirm that the ideal wakeup times increment correctly.
734 for (size_t i = 1; i < expected_times.size(); ++i) {
735 EXPECT_EQ(expected_times[i], expected_times[i - 1] + chrono::seconds(1));
736 }
737
738 for (size_t i = 0; i < expected_times.size(); ++i) {
739 EXPECT_EQ((expected_times[i] - start_time) % chrono::seconds(1),
740 chrono::seconds(0));
741 }
742
743 EXPECT_LT(expected_times[expected_times.size() / 2], average_time + kEpsilon);
744 EXPECT_GT(expected_times[expected_times.size() / 2], average_time - kEpsilon);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]745
746 // And, since we are here, check that the timing report makes sense.
747 // Start by looking for our event loop's timing.
748 FlatbufferDetachedBuffer<timing::Report> report =
749 FlatbufferDetachedBuffer<timing::Report>::Empty();
750 while (report_fetcher.FetchNext()) {
751 if (report_fetcher->name()->string_view() == "primary") {
752 report = CopyFlatBuffer(report_fetcher.get());
753 }
754 }
755
756 // Confirm that we have the right number of reports, and the contents are
757 // sane.
758 VLOG(1) << FlatbufferToJson(report, true);
759
760 EXPECT_EQ(report.message().name()->string_view(), "primary");
761
762 ASSERT_NE(report.message().senders(), nullptr);
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]763 EXPECT_EQ(report.message().senders()->size(), 2);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]764
765 ASSERT_NE(report.message().timers(), nullptr);
766 EXPECT_EQ(report.message().timers()->size(), 2);
767
768 EXPECT_EQ(report.message().timers()->Get(0)->name()->string_view(),
769 "Test loop");
770 EXPECT_GE(report.message().timers()->Get(0)->count(), 1);
771
772 EXPECT_EQ(report.message().timers()->Get(1)->name()->string_view(),
773 "timing_reports");
774 EXPECT_EQ(report.message().timers()->Get(1)->count(), 1);
775
776 // Make sure there is a single phased loop report with our report in it.
777 ASSERT_EQ(report.message().phased_loops(), nullptr);
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]778}
779
780// Verify that we can change a timer's parameters during execution.
781TEST_P(AbstractEventLoopTest, TimerChangeParameters) {
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]782 auto loop = MakePrimary();
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]783 ::std::vector<::aos::monotonic_clock::time_point> iteration_list;
784
785 auto test_timer = loop->AddTimer([&iteration_list, &loop]() {
786 iteration_list.push_back(loop->monotonic_now());
787 });
788
789 auto modifier_timer = loop->AddTimer([&loop, &test_timer]() {
790 test_timer->Setup(loop->monotonic_now(), ::std::chrono::milliseconds(30));
791 });
792
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]793 test_timer->Setup(loop->monotonic_now(), ::std::chrono::milliseconds(20));
794 modifier_timer->Setup(loop->monotonic_now() +
795 ::std::chrono::milliseconds(45));
796 EndEventLoop(loop.get(), ::std::chrono::milliseconds(150));
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]797 Run();
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]798
799 EXPECT_EQ(iteration_list.size(), 7);
800}
801
802// Verify that we can disable a timer during execution.
803TEST_P(AbstractEventLoopTest, TimerDisable) {
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]804 auto loop = MakePrimary();
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]805 ::std::vector<::aos::monotonic_clock::time_point> iteration_list;
806
807 auto test_timer = loop->AddTimer([&iteration_list, &loop]() {
808 iteration_list.push_back(loop->monotonic_now());
809 });
810
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]811 auto ender_timer = loop->AddTimer([&test_timer]() { test_timer->Disable(); });
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]812
813 test_timer->Setup(loop->monotonic_now(), ::std::chrono::milliseconds(20));
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]814 ender_timer->Setup(loop->monotonic_now() + ::std::chrono::milliseconds(45));
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]815 EndEventLoop(loop.get(), ::std::chrono::milliseconds(150));
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]816 Run();
Neil Balch229001a2018-01-07 18:22:52 -0800[diff] [blame]817
818 EXPECT_EQ(iteration_list.size(), 3);
819}
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]820
Austin Schuh54cf95f2019-11-29 13:14:18 -0800[diff] [blame]821// Verifies that the event loop implementations detect when Channel is not a
822// pointer into confguration()
823TEST_P(AbstractEventLoopDeathTest, InvalidChannel) {
824 auto loop = MakePrimary();
825
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]826 const Channel *channel = configuration::GetChannel(
827 loop->configuration(), "/test", "aos.TestMessage", "", nullptr);
Austin Schuh54cf95f2019-11-29 13:14:18 -0800[diff] [blame]828
829 FlatbufferDetachedBuffer<Channel> channel_copy = CopyFlatBuffer(channel);
830
831 EXPECT_DEATH(
832 { loop->MakeRawSender(&channel_copy.message()); },
833 "Channel pointer not found in configuration\\(\\)->channels\\(\\)");
834
835 EXPECT_DEATH(
836 { loop->MakeRawFetcher(&channel_copy.message()); },
837 "Channel pointer not found in configuration\\(\\)->channels\\(\\)");
838
839 EXPECT_DEATH(
840 {
841 loop->MakeRawWatcher(&channel_copy.message(),
842 [](const Context, const void *) {});
843 },
844 "Channel pointer not found in configuration\\(\\)->channels\\(\\)");
845}
846
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]847// Verify that the send time on a message is roughly right when using a watcher.
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]848TEST_P(AbstractEventLoopTest, MessageSendTime) {
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]849 auto loop1 = MakePrimary();
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]850 auto loop2 = Make();
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]851 auto sender = loop2->MakeSender<TestMessage>("/test");
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]852 auto fetcher = loop2->MakeFetcher<TestMessage>("/test");
853
854 auto test_timer = loop1->AddTimer([&sender]() {
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]855 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
856 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
857 builder.add_value(200);
858 ASSERT_TRUE(msg.Send(builder.Finish()));
859 });
860
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]861 bool triggered = false;
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]862 loop1->MakeWatcher("/test", [&](const TestMessage &msg) {
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]863 // Confirm that the data pointer makes sense from a watcher, and all the
864 // timestamps look right.
865 EXPECT_GT(&msg, loop1->context().data);
866 EXPECT_EQ(loop1->context().monotonic_remote_time,
867 loop1->context().monotonic_event_time);
868 EXPECT_EQ(loop1->context().realtime_remote_time,
869 loop1->context().realtime_event_time);
870
871 const aos::monotonic_clock::time_point monotonic_now =
872 loop1->monotonic_now();
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]873 const aos::realtime_clock::time_point realtime_now = loop1->realtime_now();
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]874
875 EXPECT_LE(loop1->context().monotonic_event_time, monotonic_now);
876 EXPECT_LE(loop1->context().realtime_event_time, realtime_now);
877 EXPECT_GE(loop1->context().monotonic_event_time + chrono::milliseconds(500),
878 monotonic_now);
879 EXPECT_GE(loop1->context().realtime_event_time + chrono::milliseconds(500),
880 realtime_now);
881
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]882 EXPECT_LT(&msg, reinterpret_cast<void *>(
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]883 reinterpret_cast<char *>(loop1->context().data) +
884 loop1->context().size));
885 triggered = true;
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]886 });
887
888 test_timer->Setup(loop1->monotonic_now() + ::std::chrono::seconds(1));
889
890 EndEventLoop(loop1.get(), ::std::chrono::seconds(2));
Austin Schuh44019f92019-05-19 19:58:27 -0700[diff] [blame]891 Run();
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]892
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]893 EXPECT_TRUE(triggered);
894
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]895 ASSERT_TRUE(fetcher.Fetch());
896
897 monotonic_clock::duration monotonic_time_offset =
898 fetcher.context().monotonic_event_time -
899 (loop1->monotonic_now() - ::std::chrono::seconds(1));
900 realtime_clock::duration realtime_time_offset =
901 fetcher.context().realtime_event_time -
902 (loop1->realtime_now() - ::std::chrono::seconds(1));
903
904 EXPECT_EQ(fetcher.context().realtime_event_time,
905 fetcher.context().realtime_remote_time);
906 EXPECT_EQ(fetcher.context().monotonic_event_time,
907 fetcher.context().monotonic_remote_time);
908
909 EXPECT_TRUE(monotonic_time_offset > ::std::chrono::milliseconds(-500))
910 << ": Got "
911 << fetcher.context().monotonic_event_time.time_since_epoch().count()
912 << " expected " << loop1->monotonic_now().time_since_epoch().count();
913 // Confirm that the data pointer makes sense.
914 EXPECT_GT(fetcher.get(), fetcher.context().data);
915 EXPECT_LT(fetcher.get(),
916 reinterpret_cast<void *>(
917 reinterpret_cast<char *>(fetcher.context().data) +
918 fetcher.context().size));
919 EXPECT_TRUE(monotonic_time_offset < ::std::chrono::milliseconds(500))
920 << ": Got "
921 << fetcher.context().monotonic_event_time.time_since_epoch().count()
922 << " expected " << loop1->monotonic_now().time_since_epoch().count();
923
924 EXPECT_TRUE(realtime_time_offset > ::std::chrono::milliseconds(-500))
925 << ": Got "
926 << fetcher.context().realtime_event_time.time_since_epoch().count()
927 << " expected " << loop1->realtime_now().time_since_epoch().count();
928 EXPECT_TRUE(realtime_time_offset < ::std::chrono::milliseconds(500))
929 << ": Got "
930 << fetcher.context().realtime_event_time.time_since_epoch().count()
931 << " expected " << loop1->realtime_now().time_since_epoch().count();
932}
933
934// Verify that the send time on a message is roughly right when using a no-arg
935// watcher. To get a message, we need to use a fetcher to actually access the
936// message. This is also the main use case for no-arg fetchers.
937TEST_P(AbstractEventLoopTest, MessageSendTimeNoArg) {
938 auto loop1 = MakePrimary();
939 auto loop2 = Make();
940 auto sender = loop2->MakeSender<TestMessage>("/test");
941 auto fetcher = loop1->MakeFetcher<TestMessage>("/test");
942
943 auto test_timer = loop1->AddTimer([&sender]() {
944 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
945 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
946 builder.add_value(200);
947 ASSERT_TRUE(msg.Send(builder.Finish()));
948 });
949
950 bool triggered = false;
951 loop1->MakeNoArgWatcher<TestMessage>("/test", [&]() {
952 // Confirm that we can indeed use a fetcher on this channel from this
953 // context, and it results in a sane data pointer and timestamps.
954 ASSERT_TRUE(fetcher.Fetch());
955
956 EXPECT_EQ(loop1->context().monotonic_remote_time,
957 loop1->context().monotonic_event_time);
958 EXPECT_EQ(loop1->context().realtime_remote_time,
959 loop1->context().realtime_event_time);
960
961 const aos::monotonic_clock::time_point monotonic_now =
962 loop1->monotonic_now();
963 const aos::realtime_clock::time_point realtime_now = loop1->realtime_now();
964
965 EXPECT_LE(loop1->context().monotonic_event_time, monotonic_now);
966 EXPECT_LE(loop1->context().realtime_event_time, realtime_now);
967 EXPECT_GE(loop1->context().monotonic_event_time + chrono::milliseconds(500),
968 monotonic_now);
969 EXPECT_GE(loop1->context().realtime_event_time + chrono::milliseconds(500),
970 realtime_now);
971
972 triggered = true;
973 });
974
975 test_timer->Setup(loop1->monotonic_now() + ::std::chrono::seconds(1));
976
977 EndEventLoop(loop1.get(), ::std::chrono::seconds(2));
978 Run();
979
980 ASSERT_TRUE(triggered);
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]981
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]982 monotonic_clock::duration monotonic_time_offset =
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]983 fetcher.context().monotonic_event_time -
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]984 (loop1->monotonic_now() - ::std::chrono::seconds(1));
985 realtime_clock::duration realtime_time_offset =
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]986 fetcher.context().realtime_event_time -
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]987 (loop1->realtime_now() - ::std::chrono::seconds(1));
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]988
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]989 EXPECT_EQ(fetcher.context().realtime_event_time,
990 fetcher.context().realtime_remote_time);
991 EXPECT_EQ(fetcher.context().monotonic_event_time,
992 fetcher.context().monotonic_remote_time);
993
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]994 EXPECT_TRUE(monotonic_time_offset > ::std::chrono::milliseconds(-500))
995 << ": Got "
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]996 << fetcher.context().monotonic_event_time.time_since_epoch().count()
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]997 << " expected " << loop1->monotonic_now().time_since_epoch().count();
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]998 // Confirm that the data pointer makes sense.
999 EXPECT_GT(fetcher.get(), fetcher.context().data);
1000 EXPECT_LT(fetcher.get(),
1001 reinterpret_cast<void *>(
1002 reinterpret_cast<char *>(fetcher.context().data) +
1003 fetcher.context().size));
1004 EXPECT_TRUE(monotonic_time_offset < ::std::chrono::milliseconds(500))
1005 << ": Got "
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1006 << fetcher.context().monotonic_event_time.time_since_epoch().count()
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]1007 << " expected " << loop1->monotonic_now().time_since_epoch().count();
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]1008
1009 EXPECT_TRUE(realtime_time_offset > ::std::chrono::milliseconds(-500))
1010 << ": Got "
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1011 << fetcher.context().realtime_event_time.time_since_epoch().count()
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]1012 << " expected " << loop1->realtime_now().time_since_epoch().count();
1013 EXPECT_TRUE(realtime_time_offset < ::std::chrono::milliseconds(500))
1014 << ": Got "
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1015 << fetcher.context().realtime_event_time.time_since_epoch().count()
Alex Perrycb7da4b2019-08-28 19:35:56 -0700[diff] [blame]1016 << " expected " << loop1->realtime_now().time_since_epoch().count();
Austin Schuh7267c532019-05-19 19:55:53 -0700[diff] [blame]1017}
1018
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1019// Tests that a couple phased loops run in a row result in the correct offset
1020// and period.
1021TEST_P(AbstractEventLoopTest, PhasedLoopTest) {
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1022 // Force a slower rate so we are guarenteed to have reports for our phased
1023 // loop.
1024 FLAGS_timing_report_ms = 2000;
1025
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1026 const chrono::milliseconds kOffset = chrono::milliseconds(400);
1027 const int kCount = 5;
1028
1029 auto loop1 = MakePrimary();
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1030 auto loop2 = Make();
1031
1032 Fetcher<timing::Report> report_fetcher =
1033 loop2->MakeFetcher<timing::Report>("/aos");
1034 EXPECT_FALSE(report_fetcher.Fetch());
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1035
1036 // Collect up a couple of samples.
1037 ::std::vector<::aos::monotonic_clock::time_point> times;
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]1038 ::std::vector<::aos::monotonic_clock::time_point> expected_times;
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1039
1040 // Run kCount iterations.
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1041 loop1
1042 ->AddPhasedLoop(
1043 [&times, &expected_times, &loop1, this](int count) {
1044 EXPECT_EQ(count, 1);
1045 times.push_back(loop1->monotonic_now());
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1046 expected_times.push_back(loop1->context().monotonic_event_time);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1047
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1048 EXPECT_EQ(loop1->context().monotonic_remote_time,
1049 monotonic_clock::min_time);
1050 EXPECT_EQ(loop1->context().realtime_event_time,
1051 realtime_clock::min_time);
1052 EXPECT_EQ(loop1->context().realtime_remote_time,
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1053 realtime_clock::min_time);
1054 EXPECT_EQ(loop1->context().queue_index, 0xffffffffu);
1055 EXPECT_EQ(loop1->context().size, 0u);
1056 EXPECT_EQ(loop1->context().data, nullptr);
1057
1058 if (times.size() == kCount) {
1059 LOG(INFO) << "Exiting";
1060 this->Exit();
1061 }
1062 },
1063 chrono::seconds(1), kOffset)
1064 ->set_name("Test loop");
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1065
1066 // Add a delay to make sure that delay during startup doesn't result in a
1067 // "missed cycle".
1068 SleepFor(chrono::seconds(2));
1069
1070 Run();
1071
1072 // Confirm that we got both the right number of samples, and it's odd.
1073 EXPECT_EQ(times.size(), static_cast<size_t>(kCount));
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]1074 EXPECT_EQ(times.size(), expected_times.size());
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1075 EXPECT_EQ((times.size() % 2), 1);
1076
1077 // Grab the middle sample.
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]1078 ::aos::monotonic_clock::time_point average_time = times[times.size() / 2];
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1079
1080 // Add up all the delays of all the times.
1081 ::aos::monotonic_clock::duration sum = chrono::seconds(0);
1082 for (const ::aos::monotonic_clock::time_point time : times) {
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]1083 sum += time - average_time;
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1084 }
1085
1086 // Average and add to the middle to find the average time.
1087 sum /= times.size();
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]1088 average_time += sum;
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1089
1090 // Compute the offset from the start of the second of the average time. This
1091 // should be pretty close to the offset.
1092 const ::aos::monotonic_clock::duration remainder =
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]1093 average_time.time_since_epoch() -
1094 chrono::duration_cast<chrono::seconds>(average_time.time_since_epoch());
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1095
1096 const chrono::milliseconds kEpsilon(100);
1097 EXPECT_LT(remainder, kOffset + kEpsilon);
1098 EXPECT_GT(remainder, kOffset - kEpsilon);
1099
1100 // Make sure that the average duration is close to 1 second.
1101 EXPECT_NEAR(chrono::duration_cast<chrono::duration<double>>(times.back() -
1102 times.front())
1103 .count() /
1104 static_cast<double>(times.size() - 1),
1105 1.0, 0.1);
Austin Schuhde8a8ff2019-11-30 15:25:36 -0800[diff] [blame]1106
1107 // Confirm that the ideal wakeup times increment correctly.
1108 for (size_t i = 1; i < expected_times.size(); ++i) {
1109 EXPECT_EQ(expected_times[i], expected_times[i - 1] + chrono::seconds(1));
1110 }
1111
1112 for (size_t i = 0; i < expected_times.size(); ++i) {
1113 EXPECT_EQ(expected_times[i].time_since_epoch() % chrono::seconds(1),
1114 kOffset);
1115 }
1116
1117 EXPECT_LT(expected_times[expected_times.size() / 2], average_time + kEpsilon);
1118 EXPECT_GT(expected_times[expected_times.size() / 2], average_time - kEpsilon);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1119
1120 // And, since we are here, check that the timing report makes sense.
1121 // Start by looking for our event loop's timing.
1122 FlatbufferDetachedBuffer<timing::Report> report =
1123 FlatbufferDetachedBuffer<timing::Report>::Empty();
1124 while (report_fetcher.FetchNext()) {
1125 if (report_fetcher->name()->string_view() == "primary") {
1126 report = CopyFlatBuffer(report_fetcher.get());
1127 }
1128 }
1129
1130 VLOG(1) << FlatbufferToJson(report, true);
1131
1132 EXPECT_EQ(report.message().name()->string_view(), "primary");
1133
1134 ASSERT_NE(report.message().senders(), nullptr);
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1135 EXPECT_EQ(report.message().senders()->size(), 2);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1136
1137 ASSERT_NE(report.message().timers(), nullptr);
1138 EXPECT_EQ(report.message().timers()->size(), 1);
1139
1140 // Make sure there is a single phased loop report with our report in it.
1141 ASSERT_NE(report.message().phased_loops(), nullptr);
1142 ASSERT_EQ(report.message().phased_loops()->size(), 1);
1143 EXPECT_EQ(report.message().phased_loops()->Get(0)->name()->string_view(),
1144 "Test loop");
1145 EXPECT_GE(report.message().phased_loops()->Get(0)->count(), 1);
1146}
1147
1148// Tests that senders count correctly in the timing report.
1149TEST_P(AbstractEventLoopTest, SenderTimingReport) {
1150 FLAGS_timing_report_ms = 1000;
1151 auto loop1 = MakePrimary();
1152
1153 auto loop2 = Make("watcher_loop");
1154 loop2->MakeWatcher("/test", [](const TestMessage &) {});
1155
1156 auto loop3 = Make();
1157
1158 Fetcher<timing::Report> report_fetcher =
1159 loop3->MakeFetcher<timing::Report>("/aos");
1160 EXPECT_FALSE(report_fetcher.Fetch());
1161
1162 auto sender = loop1->MakeSender<TestMessage>("/test");
1163
1164 // Add a timer to actually quit.
1165 auto test_timer = loop1->AddTimer([&sender]() {
1166 for (int i = 0; i < 10; ++i) {
1167 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
1168 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
1169 builder.add_value(200 + i);
1170 ASSERT_TRUE(msg.Send(builder.Finish()));
1171 }
1172 });
1173
1174 // Quit after 1 timing report, mid way through the next cycle.
1175 EndEventLoop(loop1.get(), chrono::milliseconds(2500));
1176
1177 loop1->OnRun([&test_timer, &loop1]() {
1178 test_timer->Setup(loop1->monotonic_now() + chrono::milliseconds(1500));
1179 });
1180
1181 Run();
1182
1183 // And, since we are here, check that the timing report makes sense.
1184 // Start by looking for our event loop's timing.
1185 FlatbufferDetachedBuffer<timing::Report> primary_report =
1186 FlatbufferDetachedBuffer<timing::Report>::Empty();
1187 while (report_fetcher.FetchNext()) {
1188 LOG(INFO) << "Report " << FlatbufferToJson(report_fetcher.get());
1189 if (report_fetcher->name()->string_view() == "primary") {
1190 primary_report = CopyFlatBuffer(report_fetcher.get());
1191 }
1192 }
1193
1194 LOG(INFO) << FlatbufferToJson(primary_report, true);
1195
1196 EXPECT_EQ(primary_report.message().name()->string_view(), "primary");
1197
1198 ASSERT_NE(primary_report.message().senders(), nullptr);
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1199 EXPECT_EQ(primary_report.message().senders()->size(), 3);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1200
1201 // Confirm that the sender looks sane.
1202 EXPECT_EQ(
1203 loop1->configuration()
1204 ->channels()
1205 ->Get(primary_report.message().senders()->Get(0)->channel_index())
1206 ->name()
1207 ->string_view(),
1208 "/test");
1209 EXPECT_EQ(primary_report.message().senders()->Get(0)->count(), 10);
1210
1211 // Confirm that the timing primary_report sender looks sane.
1212 EXPECT_EQ(
1213 loop1->configuration()
1214 ->channels()
1215 ->Get(primary_report.message().senders()->Get(1)->channel_index())
1216 ->name()
1217 ->string_view(),
1218 "/aos");
1219 EXPECT_EQ(primary_report.message().senders()->Get(1)->count(), 1);
1220
1221 ASSERT_NE(primary_report.message().timers(), nullptr);
1222 EXPECT_EQ(primary_report.message().timers()->size(), 3);
1223
1224 // Make sure there are no phased loops or watchers.
1225 ASSERT_EQ(primary_report.message().phased_loops(), nullptr);
1226 ASSERT_EQ(primary_report.message().watchers(), nullptr);
1227}
1228
1229// Tests that senders count correctly in the timing report.
1230TEST_P(AbstractEventLoopTest, WatcherTimingReport) {
1231 FLAGS_timing_report_ms = 1000;
1232 auto loop1 = MakePrimary();
1233 loop1->MakeWatcher("/test", [](const TestMessage &) {});
1234
1235 auto loop2 = Make("sender_loop");
1236
1237 auto loop3 = Make();
1238
1239 Fetcher<timing::Report> report_fetcher =
1240 loop3->MakeFetcher<timing::Report>("/aos");
1241 EXPECT_FALSE(report_fetcher.Fetch());
1242
1243 auto sender = loop2->MakeSender<TestMessage>("/test");
1244
1245 // Add a timer to actually quit.
1246 auto test_timer = loop1->AddTimer([&sender]() {
1247 for (int i = 0; i < 10; ++i) {
1248 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
1249 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
1250 builder.add_value(200 + i);
1251 ASSERT_TRUE(msg.Send(builder.Finish()));
1252 }
1253 });
1254
1255 // Quit after 1 timing report, mid way through the next cycle.
1256 EndEventLoop(loop1.get(), chrono::milliseconds(2500));
1257
1258 loop1->OnRun([&test_timer, &loop1]() {
1259 test_timer->Setup(loop1->monotonic_now() + chrono::milliseconds(1500));
1260 });
1261
1262 Run();
1263
1264 // And, since we are here, check that the timing report makes sense.
1265 // Start by looking for our event loop's timing.
1266 FlatbufferDetachedBuffer<timing::Report> primary_report =
1267 FlatbufferDetachedBuffer<timing::Report>::Empty();
1268 while (report_fetcher.FetchNext()) {
1269 LOG(INFO) << "Report " << FlatbufferToJson(report_fetcher.get());
1270 if (report_fetcher->name()->string_view() == "primary") {
1271 primary_report = CopyFlatBuffer(report_fetcher.get());
1272 }
1273 }
1274
1275 // Check the watcher report.
1276 VLOG(1) << FlatbufferToJson(primary_report, true);
1277
1278 EXPECT_EQ(primary_report.message().name()->string_view(), "primary");
1279
1280 // Just the timing report timer.
1281 ASSERT_NE(primary_report.message().timers(), nullptr);
1282 EXPECT_EQ(primary_report.message().timers()->size(), 3);
1283
1284 // No phased loops
1285 ASSERT_EQ(primary_report.message().phased_loops(), nullptr);
1286
1287 ASSERT_NE(primary_report.message().watchers(), nullptr);
1288 ASSERT_EQ(primary_report.message().watchers()->size(), 1);
1289 EXPECT_EQ(primary_report.message().watchers()->Get(0)->count(), 10);
1290}
1291
1292// Tests that fetchers count correctly in the timing report.
1293TEST_P(AbstractEventLoopTest, FetcherTimingReport) {
1294 FLAGS_timing_report_ms = 1000;
1295 auto loop1 = MakePrimary();
1296 auto loop2 = Make("sender_loop");
1297
1298 auto loop3 = Make();
1299
1300 Fetcher<timing::Report> report_fetcher =
1301 loop3->MakeFetcher<timing::Report>("/aos");
1302 EXPECT_FALSE(report_fetcher.Fetch());
1303
1304 auto sender = loop2->MakeSender<TestMessage>("/test");
1305 auto fetcher1 = loop1->MakeFetcher<TestMessage>("/test");
1306 auto fetcher2 = loop1->MakeFetcher<TestMessage>("/test");
1307 fetcher1.Fetch();
1308 fetcher2.Fetch();
1309
1310 // Add a timer to actually quit.
1311 auto test_timer = loop1->AddTimer([&sender]() {
1312 for (int i = 0; i < 10; ++i) {
1313 aos::Sender<TestMessage>::Builder msg = sender.MakeBuilder();
1314 TestMessage::Builder builder = msg.MakeBuilder<TestMessage>();
1315 builder.add_value(200 + i);
1316 ASSERT_TRUE(msg.Send(builder.Finish()));
1317 }
1318 });
1319
1320 auto test_timer2 = loop1->AddTimer([&fetcher1, &fetcher2]() {
1321 fetcher1.Fetch();
1322 while (fetcher2.FetchNext()) {
1323 }
1324 });
1325
1326 // Quit after 1 timing report, mid way through the next cycle.
1327 EndEventLoop(loop1.get(), chrono::milliseconds(2500));
1328
1329 loop1->OnRun([test_timer, test_timer2, &loop1]() {
1330 test_timer->Setup(loop1->monotonic_now() + chrono::milliseconds(1400));
1331 test_timer2->Setup(loop1->monotonic_now() + chrono::milliseconds(1600));
1332 });
1333
1334 Run();
1335
1336 // And, since we are here, check that the timing report makes sense.
1337 // Start by looking for our event loop's timing.
1338 FlatbufferDetachedBuffer<timing::Report> primary_report =
1339 FlatbufferDetachedBuffer<timing::Report>::Empty();
1340 while (report_fetcher.FetchNext()) {
1341 if (report_fetcher->name()->string_view() == "primary") {
1342 primary_report = CopyFlatBuffer(report_fetcher.get());
1343 }
1344 }
1345
1346 VLOG(1) << FlatbufferToJson(primary_report, true);
1347
1348 EXPECT_EQ(primary_report.message().name()->string_view(), "primary");
1349
1350 ASSERT_NE(primary_report.message().senders(), nullptr);
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1351 EXPECT_EQ(primary_report.message().senders()->size(), 2);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1352
1353 ASSERT_NE(primary_report.message().timers(), nullptr);
1354 EXPECT_EQ(primary_report.message().timers()->size(), 4);
1355
1356 // Make sure there are no phased loops or watchers.
1357 ASSERT_EQ(primary_report.message().phased_loops(), nullptr);
1358 ASSERT_EQ(primary_report.message().watchers(), nullptr);
1359
1360 // Now look at the fetchrs.
1361 ASSERT_NE(primary_report.message().fetchers(), nullptr);
1362 ASSERT_EQ(primary_report.message().fetchers()->size(), 2);
1363
1364 EXPECT_EQ(primary_report.message().fetchers()->Get(0)->count(), 1);
1365 EXPECT_GE(primary_report.message().fetchers()->Get(0)->latency()->average(),
1366 0.1);
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1367 EXPECT_GE(primary_report.message().fetchers()->Get(0)->latency()->min(), 0.1);
1368 EXPECT_GE(primary_report.message().fetchers()->Get(0)->latency()->max(), 0.1);
Austin Schuh39788ff2019-12-01 18:22:57 -0800[diff] [blame]1369 EXPECT_EQ(primary_report.message()
1370 .fetchers()
1371 ->Get(0)
1372 ->latency()
1373 ->standard_deviation(),
1374 0.0);
1375
1376 EXPECT_EQ(primary_report.message().fetchers()->Get(1)->count(), 10);
Austin Schuh52d325c2019-06-23 18:59:06 -0700[diff] [blame]1377}
1378
Austin Schuh67420a42019-12-21 21:55:04 -0800[diff] [blame]1379// Tests that a raw watcher and raw fetcher can receive messages from a raw
1380// sender without messing up offsets.
1381TEST_P(AbstractEventLoopTest, RawBasic) {
1382 auto loop1 = Make();
1383 auto loop2 = MakePrimary();
1384 auto loop3 = Make();
1385
1386 const std::string kData("971 is the best");
1387
1388 std::unique_ptr<aos::RawSender> sender =
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1389 loop1->MakeRawSender(configuration::GetChannel(
1390 loop1->configuration(), "/test", "aos.TestMessage", "", nullptr));
Austin Schuh67420a42019-12-21 21:55:04 -0800[diff] [blame]1391
1392 std::unique_ptr<aos::RawFetcher> fetcher =
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1393 loop3->MakeRawFetcher(configuration::GetChannel(
1394 loop3->configuration(), "/test", "aos.TestMessage", "", nullptr));
Austin Schuh67420a42019-12-21 21:55:04 -0800[diff] [blame]1395
1396 loop2->OnRun(
1397 [&]() { EXPECT_TRUE(sender->Send(kData.data(), kData.size())); });
1398
1399 bool happened = false;
1400 loop2->MakeRawWatcher(
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1401 configuration::GetChannel(loop2->configuration(), "/test",
1402 "aos.TestMessage", "", nullptr),
Austin Schuh67420a42019-12-21 21:55:04 -0800[diff] [blame]1403 [this, &kData, &fetcher, &happened](const Context &context,
1404 const void *message) {
1405 happened = true;
1406 EXPECT_EQ(std::string_view(kData),
1407 std::string_view(reinterpret_cast<const char *>(message),
1408 context.size));
1409 EXPECT_EQ(std::string_view(kData),
1410 std::string_view(reinterpret_cast<const char *>(context.data),
1411 context.size));
1412
1413 ASSERT_TRUE(fetcher->Fetch());
1414
1415 EXPECT_EQ(std::string_view(kData),
1416 std::string_view(
1417 reinterpret_cast<const char *>(fetcher->context().data),
1418 fetcher->context().size));
1419
1420 this->Exit();
1421 });
1422
1423 EXPECT_FALSE(happened);
1424 Run();
1425 EXPECT_TRUE(happened);
1426}
1427
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1428// Tests that a raw watcher and raw fetcher can receive messages from a raw
1429// sender with remote times filled out.
1430TEST_P(AbstractEventLoopTest, RawRemoteTimes) {
1431 auto loop1 = Make();
1432 auto loop2 = MakePrimary();
1433 auto loop3 = Make();
1434
1435 const std::string kData("971 is the best");
1436
1437 const aos::monotonic_clock::time_point monotonic_remote_time =
1438 aos::monotonic_clock::time_point(chrono::seconds(1501));
1439 const aos::realtime_clock::time_point realtime_remote_time =
1440 aos::realtime_clock::time_point(chrono::seconds(3132));
1441
1442 std::unique_ptr<aos::RawSender> sender =
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1443 loop1->MakeRawSender(configuration::GetChannel(
1444 loop1->configuration(), "/test", "aos.TestMessage", "", nullptr));
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1445
1446 std::unique_ptr<aos::RawFetcher> fetcher =
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1447 loop3->MakeRawFetcher(configuration::GetChannel(
1448 loop3->configuration(), "/test", "aos.TestMessage", "", nullptr));
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1449
1450 loop2->OnRun([&]() {
1451 EXPECT_TRUE(sender->Send(kData.data(), kData.size(), monotonic_remote_time,
1452 realtime_remote_time));
1453 });
1454
1455 bool happened = false;
1456 loop2->MakeRawWatcher(
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1457 configuration::GetChannel(loop2->configuration(), "/test",
1458 "aos.TestMessage", "", nullptr),
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1459 [this, monotonic_remote_time, realtime_remote_time, &fetcher, &happened](
1460 const Context &context, const void * /*message*/) {
1461 happened = true;
1462 EXPECT_EQ(monotonic_remote_time, context.monotonic_remote_time);
1463 EXPECT_EQ(realtime_remote_time, context.realtime_remote_time);
1464
1465 ASSERT_TRUE(fetcher->Fetch());
1466 EXPECT_EQ(monotonic_remote_time,
1467 fetcher->context().monotonic_remote_time);
1468 EXPECT_EQ(realtime_remote_time,
1469 fetcher->context().realtime_remote_time);
1470
1471 this->Exit();
1472 });
1473
1474 EXPECT_FALSE(happened);
1475 Run();
1476 EXPECT_TRUE(happened);
1477}
1478
1479// Tests that a raw sender fills out sent data.
1480TEST_P(AbstractEventLoopTest, RawSenderSentData) {
1481 auto loop1 = MakePrimary();
1482
1483 const std::string kData("971 is the best");
1484
1485 std::unique_ptr<aos::RawSender> sender =
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1486 loop1->MakeRawSender(configuration::GetChannel(
1487 loop1->configuration(), "/test", "aos.TestMessage", "", nullptr));
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1488
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1489 const aos::monotonic_clock::time_point monotonic_now = loop1->monotonic_now();
1490 const aos::realtime_clock::time_point realtime_now = loop1->realtime_now();
Austin Schuhad154822019-12-27 15:45:13 -0800[diff] [blame]1491
1492 EXPECT_TRUE(sender->Send(kData.data(), kData.size()));
1493
1494 EXPECT_GE(sender->monotonic_sent_time(), monotonic_now);
1495 EXPECT_LE(sender->monotonic_sent_time(),
1496 monotonic_now + chrono::milliseconds(100));
1497 EXPECT_GE(sender->realtime_sent_time(), realtime_now);
1498 EXPECT_LE(sender->realtime_sent_time(),
1499 realtime_now + chrono::milliseconds(100));
1500 EXPECT_EQ(sender->sent_queue_index(), 0u);
1501
1502 EXPECT_TRUE(sender->Send(kData.data(), kData.size()));
1503
1504 EXPECT_GE(sender->monotonic_sent_time(), monotonic_now);
1505 EXPECT_LE(sender->monotonic_sent_time(),
1506 monotonic_now + chrono::milliseconds(100));
1507 EXPECT_GE(sender->realtime_sent_time(), realtime_now);
1508 EXPECT_LE(sender->realtime_sent_time(),
1509 realtime_now + chrono::milliseconds(100));
1510 EXPECT_EQ(sender->sent_queue_index(), 1u);
1511}
1512
Austin Schuh217a9782019-12-21 23:02:50 -0800[diff] [blame]1513// Tests that not setting up nodes results in no node.
1514TEST_P(AbstractEventLoopTest, NoNode) {
1515 auto loop1 = Make();
1516 auto loop2 = MakePrimary();
1517
1518 EXPECT_EQ(loop1->node(), nullptr);
1519 EXPECT_EQ(loop2->node(), nullptr);
1520}
1521
1522// Tests that setting up nodes results in node being set.
1523TEST_P(AbstractEventLoopTest, Node) {
1524 EnableNodes("me");
1525
1526 auto loop1 = Make();
1527 auto loop2 = MakePrimary();
1528
1529 EXPECT_NE(loop1->node(), nullptr);
1530 EXPECT_NE(loop2->node(), nullptr);
1531}
1532
1533// Tests that watchers work with a node setup.
1534TEST_P(AbstractEventLoopTest, NodeWatcher) {
1535 EnableNodes("me");
1536
1537 auto loop1 = Make();
1538 auto loop2 = Make();
1539 loop1->MakeWatcher("/test", [](const TestMessage &) {});
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1540 loop2->MakeRawWatcher(
1541 configuration::GetChannel(configuration(), "/test", "aos.TestMessage", "",
1542 nullptr),
1543 [](const Context &, const void *) {});
Austin Schuh217a9782019-12-21 23:02:50 -0800[diff] [blame]1544}
1545
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]1546// Tests that no-arg watchers work with a node setup.
1547TEST_P(AbstractEventLoopTest, NodeNoArgWatcher) {
1548 EnableNodes("me");
1549
1550 auto loop1 = Make();
1551 auto loop2 = Make();
1552 loop1->MakeWatcher("/test", [](const TestMessage &) {});
1553 loop2->MakeRawNoArgWatcher(
1554 configuration::GetChannel(configuration(), "/test", "aos.TestMessage", "",
1555 nullptr),
1556 [](const Context &) {});
1557}
1558
Austin Schuh217a9782019-12-21 23:02:50 -0800[diff] [blame]1559// Tests that fetcher work with a node setup.
1560TEST_P(AbstractEventLoopTest, NodeFetcher) {
1561 EnableNodes("me");
1562 auto loop1 = Make();
1563
1564 auto fetcher = loop1->MakeFetcher<TestMessage>("/test");
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1565 auto raw_fetcher = loop1->MakeRawFetcher(configuration::GetChannel(
1566 configuration(), "/test", "aos.TestMessage", "", nullptr));
Austin Schuh217a9782019-12-21 23:02:50 -0800[diff] [blame]1567}
1568
1569// Tests that sender work with a node setup.
1570TEST_P(AbstractEventLoopTest, NodeSender) {
1571 EnableNodes("me");
1572 auto loop1 = Make();
1573
1574 aos::Sender<TestMessage> sender = loop1->MakeSender<TestMessage>("/test");
1575}
1576
1577// Tests that watchers fail when created on the wrong node.
1578TEST_P(AbstractEventLoopDeathTest, NodeWatcher) {
1579 EnableNodes("them");
1580
1581 auto loop1 = Make();
1582 auto loop2 = Make();
1583 EXPECT_DEATH({ loop1->MakeWatcher("/test", [](const TestMessage &) {}); },
1584 "node");
1585 EXPECT_DEATH(
1586 {
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1587 loop2->MakeRawWatcher(
1588 configuration::GetChannel(configuration(), "/test",
1589 "aos.TestMessage", "", nullptr),
1590 [](const Context &, const void *) {});
Austin Schuh217a9782019-12-21 23:02:50 -0800[diff] [blame]1591 },
1592 "node");
Brian Silverman454bc112020-03-05 14:21:25 -0800[diff] [blame]1593 EXPECT_DEATH({ loop1->MakeNoArgWatcher<TestMessage>("/test", []() {}); },
1594 "node");
1595 EXPECT_DEATH(
1596 {
1597 loop2->MakeRawNoArgWatcher(
1598 configuration::GetChannel(configuration(), "/test",
1599 "aos.TestMessage", "", nullptr),
1600 [](const Context &) {});
1601 },
1602 "node");
Austin Schuh217a9782019-12-21 23:02:50 -0800[diff] [blame]1603}
1604
1605// Tests that fetchers fail when created on the wrong node.
1606TEST_P(AbstractEventLoopDeathTest, NodeFetcher) {
1607 EnableNodes("them");
1608 auto loop1 = Make();
1609
1610 EXPECT_DEATH({ auto fetcher = loop1->MakeFetcher<TestMessage>("/test"); },
1611 "node");
1612 EXPECT_DEATH(
1613 {
Tyler Chatow67ddb032020-01-12 14:30:04 -0800[diff] [blame]1614 auto raw_fetcher = loop1->MakeRawFetcher(configuration::GetChannel(
1615 configuration(), "/test", "aos.TestMessage", "", nullptr));
Austin Schuh217a9782019-12-21 23:02:50 -0800[diff] [blame]1616 },
1617 "node");
1618}
1619
1620// Tests that senders fail when created on the wrong node.
1621TEST_P(AbstractEventLoopDeathTest, NodeSender) {
1622 EnableNodes("them");
1623 auto loop1 = Make();
1624
1625 EXPECT_DEATH(
1626 {
1627 aos::Sender<TestMessage> sender =
1628 loop1->MakeSender<TestMessage>("/test");
1629 },
1630 "node");
1631
1632 // Note: Creating raw senders is always supported. Right now, this lets us
1633 // use them to create message_gateway.
1634}
1635
Parker Schuhe4a70d62017-12-27 20:10:20 -0800[diff] [blame]1636} // namespace testing
1637} // namespace aos