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218 | // Copyright (C) 2018-2021 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <util/watched_thread.h>
#include <gtest/gtest.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <atomic><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <functional><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <signal.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <unistd.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
using namespace std;
using namespace isc;
using namespace isc::util;
namespace {
/// @brief Test Fixture for testing @c isc::util::WatchedThread
class WatchedThreadTest : public ::testing::Test {
public:
/// @brief Maximum number of passes allowed in worker event loop
static const int WORKER_MAX_PASSES;
/// @brief Constructor.
WatchedThreadTest() {}
/// @brief Destructor.
~WatchedThreadTest() {
}
/// @brief Sleeps for a given number of event periods sleep
/// Each period is 50 ms.
void nap(int periods) {
usleep(periods * 50 * 1000);
};
/// @brief Worker function to be used by the WatchedThread's thread
///
/// The function runs 10 passes through an "event" loop.
/// On each pass:
/// - check terminate command
/// - instigate the desired event (second pass only)
/// - naps for 1 period (50ms)
///
/// @param watch_type type of event that should occur
void worker(WatchedThread::WatchType watch_type) {
sigset_t nsset;
pthread_sigmask(SIG_SETMASK, 0, &nsset);
EXPECT_EQ(1, sigismember(&nsset, SIGCHLD));
EXPECT_EQ(1, sigismember(&nsset, SIGINT));
EXPECT_EQ(1, sigismember(&nsset, SIGHUP));
EXPECT_EQ(1, sigismember(&nsset, SIGTERM));
for (passes_ = 1; passes_ < WORKER_MAX_PASSES; ++passes_) {
// Stop if we're told to do it.
if (wthread_->shouldTerminate()) {
return;
}
// On the second pass, set the event.
if (passes_ == 2) {
switch (watch_type) {
case WatchedThread::ERROR:
wthread_->setError("we have an error");
break;
case WatchedThread::READY:
wthread_->markReady(watch_type);
break;
case WatchedThread::TERMINATE:
default:
// Do nothing, we're waiting to be told to stop.
break;
}
}
// Take a nap.
nap(1);
}
// Indicate why we stopped.
wthread_->setError("thread expired");
}
/// @brief Current WatchedThread instance.
WatchedThreadPtr wthread_;
/// @brief Counter used to track the number of passes made
/// within the thread worker function.
std::atomic<int> passes_;
};
const int WatchedThreadTest::WORKER_MAX_PASSES = 10;
/// Verifies the basic operation of the WatchedThread class.
/// It checks that a WatchedThread can be created, can be stopped,
/// and that in set and clear sockets.
TEST_F(WatchedThreadTest, watchedThreadClassBasics) {<--- syntax error
/// We'll create a WatchedThread and let it run until it expires. (Note this is more
/// of a test of WatchedThreadTest itself and ensures that the assumptions made in
/// our other tests as to why threads have finished are sound.
wthread_.reset(new WatchedThread());
ASSERT_FALSE(wthread_->isRunning());
wthread_->start(std::bind(&WatchedThreadTest::worker, this, WatchedThread::TERMINATE));
ASSERT_TRUE(wthread_->isRunning());
// Wait more long enough (we hope) for the thread to expire.
nap(WORKER_MAX_PASSES * 4);
// It should have done the maximum number of passes.
EXPECT_EQ(passes_, WORKER_MAX_PASSES);
// Error should be ready and error text should be "thread expired".
ASSERT_TRUE(wthread_->isReady(WatchedThread::ERROR));
ASSERT_FALSE(wthread_->isReady(WatchedThread::READY));
ASSERT_FALSE(wthread_->isReady(WatchedThread::TERMINATE));
EXPECT_EQ("thread expired", wthread_->getLastError());
// Thread is technically still running, so let's stop it.
EXPECT_TRUE(wthread_->isRunning());
ASSERT_NO_THROW(wthread_->stop());
ASSERT_FALSE(wthread_->isRunning());
/// Now we'll test stopping a thread.
/// Start the WatchedThread, let it run a little and then tell it to stop.
wthread_->start(std::bind(&WatchedThreadTest::worker, this, WatchedThread::TERMINATE));
ASSERT_TRUE(wthread_->isRunning());
// No watches should be ready.
ASSERT_FALSE(wthread_->isReady(WatchedThread::ERROR));
ASSERT_FALSE(wthread_->isReady(WatchedThread::READY));
ASSERT_FALSE(wthread_->isReady(WatchedThread::TERMINATE));
// Wait a little while.
nap(3);
// Tell it to stop.
wthread_->stop();
ASSERT_FALSE(wthread_->isRunning());
// It should have done less than the maximum number of passes.
EXPECT_LT(passes_, WORKER_MAX_PASSES);
// No watches should be ready. Error text should be "thread stopped".
ASSERT_FALSE(wthread_->isReady(WatchedThread::ERROR));
ASSERT_FALSE(wthread_->isReady(WatchedThread::READY));
ASSERT_FALSE(wthread_->isReady(WatchedThread::TERMINATE));
EXPECT_EQ("thread stopped", wthread_->getLastError());
// Next we'll test error notification.
// Start the WatchedThread with a thread that sets an error on the second pass.
wthread_->start(std::bind(&WatchedThreadTest::worker, this, WatchedThread::ERROR));
ASSERT_TRUE(wthread_->isRunning());
// No watches should be ready.
ASSERT_FALSE(wthread_->isReady(WatchedThread::ERROR));
ASSERT_FALSE(wthread_->isReady(WatchedThread::READY));
ASSERT_FALSE(wthread_->isReady(WatchedThread::TERMINATE));
// Wait a little while.
nap(6);
// It should now indicate an error.
ASSERT_TRUE(wthread_->isReady(WatchedThread::ERROR));
EXPECT_EQ("we have an error", wthread_->getLastError());
// Tell it to stop.
wthread_->stop();
ASSERT_FALSE(wthread_->isRunning());
// It should have done less than the maximum number of passes.
EXPECT_LT(passes_, WORKER_MAX_PASSES);
// No watches should be ready. Error text should be "thread stopped".
ASSERT_FALSE(wthread_->isReady(WatchedThread::ERROR));
ASSERT_FALSE(wthread_->isReady(WatchedThread::READY));
ASSERT_FALSE(wthread_->isReady(WatchedThread::TERMINATE));
EXPECT_EQ("thread stopped", wthread_->getLastError());
// Finally, we'll test data ready notification.
// We'll start the WatchedThread with a thread that indicates data ready on its second pass.
wthread_->start(std::bind(&WatchedThreadTest::worker, this, WatchedThread::READY));
ASSERT_TRUE(wthread_->isRunning());
// No watches should be ready.
ASSERT_FALSE(wthread_->isReady(WatchedThread::ERROR));
ASSERT_FALSE(wthread_->isReady(WatchedThread::READY));
ASSERT_FALSE(wthread_->isReady(WatchedThread::TERMINATE));
// Wait a little while.
nap(6);
// It should now indicate data ready.
ASSERT_TRUE(wthread_->isReady(WatchedThread::READY));
// Tell it to stop.
wthread_->stop();
ASSERT_FALSE(wthread_->isRunning());
// It should have done less than the maximum number of passes.
EXPECT_LT(passes_, WORKER_MAX_PASSES);
// No watches should be ready. Error text should be "thread stopped".
ASSERT_FALSE(wthread_->isReady(WatchedThread::ERROR));
ASSERT_FALSE(wthread_->isReady(WatchedThread::READY));
ASSERT_FALSE(wthread_->isReady(WatchedThread::TERMINATE));
EXPECT_EQ("thread stopped", wthread_->getLastError());
}
}
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