Esempio n. 1
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TEST_F(EventBaseThreadTest, example) {
  EventBaseThread ebt;

  Baton<> done;
  ebt.getEventBase()->runInEventBaseThread([&] { done.post(); });
  ASSERT_TRUE(done.timed_wait(seconds(1)));
}
Esempio n. 2
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void run_timed_wait_regular_test() {
  Baton<Atom> b;

  auto thr = DSched::thread([&] {
    // To wait forever we'd like to use time_point<Clock>::max, but
    // std::condition_variable does math to convert the timeout to
    // system_clock without handling overflow.
    auto farFuture = Clock::now() + std::chrono::hours(1000);
    bool rv = b.timed_wait(farFuture);
    if (!std::is_same<Atom<int>, DeterministicAtomic<int>>::value) {
      // DeterministicAtomic ignores actual times, so doesn't guarantee
      // a lack of timeout
      EXPECT_TRUE(rv);
    }
  });

  if (!std::is_same<Atom<int>, DeterministicAtomic<int>>::value) {
    // If we are using std::atomic (or EmulatedFutexAtomic) then
    // a sleep here guarantees to a large extent that 'thr' will
    // execute wait before we post it, thus testing late delivery. For
    // DeterministicAtomic, we just rely on DeterministicSchedule to do
    // the scheduling.  The test won't fail if we lose the race, we just
    // don't get coverage.
    std::this_thread::sleep_for(std::chrono::milliseconds(2));
  }

  b.post();
  DSched::join(thr);
}
Esempio n. 3
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TEST(Interrupt, withinTimedOut) {
  Promise<int> p;
  Baton<> done;
  p.setInterruptHandler([&](const exception_wrapper& /* e */) { done.post(); });
  p.getFuture().within(std::chrono::milliseconds(1));
  // Give it 100ms to time out and call the interrupt handler
  auto t = std::chrono::steady_clock::now() + std::chrono::milliseconds(100);
  EXPECT_TRUE(done.timed_wait(t));
}
Esempio n. 4
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TEST_F(EventBaseThreadTest, self_move) {
  EventBaseThread ebt0;
  auto ebt = std::move(ebt0);

  EXPECT_NE(nullptr, ebt.getEventBase());

  Baton<> done;
  ebt.getEventBase()->runInEventBaseThread([&] { done.post(); });
  ASSERT_TRUE(done.try_wait_for(seconds(1)));
}
Esempio n. 5
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TEST_F(EventBaseThreadTest, example) {
  EventBaseThread ebt(true, nullptr, "monkey");

  Baton<> done;
  ebt.getEventBase()->runInEventBaseThread([&] {
    EXPECT_EQ(getCurrentThreadName().value(), "monkey");
    done.post();
  });
  ASSERT_TRUE(done.try_wait_for(seconds(1)));
}
Esempio n. 6
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TEST_F(FilePollerTest, TestUpdateFileBackwards) {
  createFile();
  Baton<> baton;
  bool updated = false;
  FilePoller poller(tmpFile, std::chrono::milliseconds(1));
  poller.addCallback([&]() {
    updated = true;
    baton.post();
  });
  updateModifiedTime(tmpFile, false);
  ASSERT_TRUE(baton.timed_wait(std::chrono::seconds(5)));
  ASSERT_TRUE(updated);
}
Esempio n. 7
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TEST_F(FilePollerTest, TestDeleteFile) {
  Baton<> baton;
  bool updated = false;
  createFile();
  FilePoller poller(milliseconds(1));
  poller.addFileToTrack(tmpFile, [&]() {
    updated = true;
    baton.post();
  });
  PCHECK(remove(tmpFile.c_str()) == 0);
  ASSERT_FALSE(baton.try_wait_for(seconds(1)));
  ASSERT_FALSE(updated);
}
Esempio n. 8
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TEST_F(EventBaseThreadTest, move) {
  auto ebt0 = EventBaseThread();
  auto ebt1 = std::move(ebt0);
  auto ebt2 = std::move(ebt1);

  EXPECT_EQ(nullptr, ebt0.getEventBase());
  EXPECT_EQ(nullptr, ebt1.getEventBase());
  EXPECT_NE(nullptr, ebt2.getEventBase());

  Baton<> done;
  ebt2.getEventBase()->runInEventBaseThread([&] { done.post(); });
  ASSERT_TRUE(done.try_wait_for(seconds(1)));
}
Esempio n. 9
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TEST_F(FilePollerTest, TestUpdateFile) {
  createFile();
  Baton<> baton;
  bool updated = false;
  FilePoller poller(milliseconds(1));
  poller.addFileToTrack(tmpFile, [&]() {
    updated = true;
    baton.post();
  });
  updateModifiedTime(tmpFile);
  ASSERT_TRUE(baton.try_wait_for(seconds(5)));
  ASSERT_TRUE(updated);
}
Esempio n. 10
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TEST_F(FilePollerTest, TestDeleteFile) {
  Baton<> baton;
  bool updated = false;
  createFile();
  FilePoller poller(tmpFile, std::chrono::milliseconds(1));
  poller.addCallback([&]() {
    updated = true;
    baton.post();
  });
  remove(tmpFile.c_str());
  ASSERT_TRUE(baton.timed_wait(std::chrono::seconds(5)));
  ASSERT_TRUE(updated);
}
TEST_F(ProcessTicketTest, TestUpdateTicketFile) {
  Baton<> baton;
  TLSTicketProcessor processor(ticketFile);
  bool updated = false;
  processor.addCallback([&](TLSTicketKeySeeds) {
    updated = true;
    baton.post();
  });
  CHECK(writeFile(validTicketData, ticketFile.c_str()));
  updateModifiedTime(ticketFile);
  baton.timed_wait(std::chrono::seconds(30));
  ASSERT_TRUE(updated);
}
Esempio n. 12
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TEST(ThreadPoolExecutorTest, DynamicThreadAddRemoveRace) {
  CPUThreadPoolExecutor e(1);
  e.setThreadDeathTimeout(std::chrono::milliseconds(0));
  std::atomic<uint64_t> count{0};
  for (int i = 0; i < 10000; i++) {
    Baton<> b;
    e.add([&]() {
      count.fetch_add(1, std::memory_order_relaxed);
      b.post();
    });
    b.wait();
  }
  e.join();
  EXPECT_EQ(count, 10000);
}
Esempio n. 13
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bool EventBase::runInEventBaseThreadAndWait(Func fn) {
  if (inRunningEventBaseThread()) {
    LOG(ERROR) << "EventBase " << this << ": Waiting in the event loop is not "
               << "allowed";
    return false;
  }

  Baton<> ready;
  runInEventBaseThread([&ready, fn = std::move(fn)]() mutable {
    SCOPE_EXIT {
      ready.post();
    };
    // A trick to force the stored functor to be executed and then destructed
    // before posting the baton and waking the waiting thread.
    copy(std::move(fn))();
  });
Esempio n. 14
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TEST_F(EventBaseThreadTest, start_stop) {
  EventBaseThread ebt(false);

  for (size_t i = 0; i < 4; ++i) {
    EXPECT_EQ(nullptr, ebt.getEventBase());
    ebt.start();
    EXPECT_NE(nullptr, ebt.getEventBase());

    Baton<> done;
    ebt.getEventBase()->runInEventBaseThread([&] { done.post(); });
    ASSERT_TRUE(done.try_wait_for(seconds(1)));

    EXPECT_NE(nullptr, ebt.getEventBase());
    ebt.stop();
    EXPECT_EQ(nullptr, ebt.getEventBase());
  }
}
Esempio n. 15
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void run_timed_wait_regular_test() {
  Baton<Atom> b;

  auto thr = DSched::thread([&] {
    bool rv = b.timed_wait(
                std::chrono::time_point<std::chrono::system_clock>::max());
    if (std::is_same<Atom<int>, std::atomic<int>>::value) {
      // We can only ensure this for std::atomic
      EXPECT_TRUE(rv);
    }
  });

  if (std::is_same<Atom<int>, std::atomic<int>>::value) {
    // If we are using std::atomic, then a sleep here guarantees to a large
    // extent that 'thr' will execute wait before we post it, thus testing
    // late delivery. For DeterministicAtomic, we just rely on
    // DeterministicSchedule to do the scheduling
    std::this_thread::sleep_for(std::chrono::milliseconds(2));
  }

  b.post();
  DSched::join(thr);
}
Esempio n. 16
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TEST(Baton, basic) {
  Baton<> b;
  b.post();
  b.wait();
}
Esempio n. 17
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void run_try_wait_tests() {
  Baton<Atom> b;
  EXPECT_FALSE(b.try_wait());
  b.post();
  EXPECT_TRUE(b.try_wait());
}
Esempio n. 18
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void run_basic_timed_wait_tests() {
  Baton<Atom> b;
  b.post();
  // tests if early delivery works fine
  EXPECT_TRUE(b.timed_wait(std::chrono::system_clock::now()));
}