mirror of
https://github.com/transmission/transmission
synced 2024-12-22 15:54:57 +00:00
367 lines
10 KiB
C++
367 lines
10 KiB
C++
// This file Copyright (C) 2022 Mnemosyne LLC.
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// It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only),
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// or any future license endorsed by Mnemosyne LLC.
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// License text can be found in the licenses/ folder.
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#include <libtransmission/transmission.h>
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#include <libtransmission/timer-ev.h>
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#include <libtransmission/utils-ev.h>
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#include "test-fixtures.h"
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using namespace std::literals;
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namespace libtransmission::test
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{
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class TimerTest : public ::testing::Test
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{
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protected:
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// setup + teardown to manage an event_base
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void SetUp() override
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{
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::testing::Test::SetUp();
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evbase_.reset(event_base_new());
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}
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void TearDown() override
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{
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evbase_.reset();
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::testing::Test::TearDown();
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}
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static auto constexpr AsMSec = [](auto val)
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{
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return std::chrono::duration_cast<std::chrono::milliseconds>(val);
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};
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void sleepMsec(std::chrono::milliseconds msec)
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{
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EXPECT_FALSE(waitFor(
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evbase_.get(),
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[]() { return false; },
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msec));
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}
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static void expectTime(
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std::chrono::milliseconds expected,
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std::chrono::milliseconds actual,
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std::chrono::milliseconds allowed_deviation)
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{
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auto const lower_bound = expected - allowed_deviation;
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EXPECT_LT(lower_bound, actual) << "lower_bound:" << lower_bound.count() << " actual:" << actual.count();
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auto const upper_bound = expected + allowed_deviation;
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EXPECT_LT(actual, upper_bound) << "actual:" << actual.count() << " upper_bound:" << upper_bound.count();
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}
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// This checks that `actual` is in the bounds of [expected/2 ... expected*1.5]
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// to confirm that the timer didn't kick too close to the previous or next interval.
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static void expectInterval(std::chrono::milliseconds expected, std::chrono::milliseconds actual)
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{
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expectTime(expected, actual, expected / 2);
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}
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[[nodiscard]] static auto currentTime()
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{
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return std::chrono::steady_clock::now();
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}
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evhelpers::evbase_unique_ptr evbase_;
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};
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TEST_F(TimerTest, canInstantiate)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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}
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TEST_F(TimerTest, singleShotCallsCallback)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto called = false;
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auto callback = [&called]()
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{
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called = true;
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};
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timer->set_callback(callback);
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static auto constexpr Interval = 100ms;
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timer->start_single_shot(Interval);
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waitFor(evbase_.get(), [&called] { return called; });
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EXPECT_TRUE(called);
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}
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TEST_F(TimerTest, repeatingCallsCallback)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto called = false;
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auto callback = [&called]()
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{
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called = true;
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};
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timer->set_callback(callback);
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static auto constexpr Interval = 100ms;
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timer->start_repeating(Interval);
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waitFor(evbase_.get(), [&called] { return called; });
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EXPECT_TRUE(called);
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}
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TEST_F(TimerTest, singleShotHonorsInterval)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto called = false;
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auto callback = [&called]()
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{
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called = true;
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};
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timer->set_callback(callback);
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// run a single-shot timer
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auto const begin_time = currentTime();
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static auto constexpr Interval = 100ms;
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timer->start_single_shot(Interval);
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EXPECT_FALSE(timer->is_repeating());
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EXPECT_EQ(Interval, timer->interval());
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waitFor(evbase_.get(), [&called] { return called; });
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auto const end_time = currentTime();
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// confirm that it kicked at the right interval
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EXPECT_TRUE(called);
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expectInterval(Interval, AsMSec(end_time - begin_time));
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}
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TEST_F(TimerTest, repeatingHonorsInterval)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto n_calls = size_t{ 0U };
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auto callback = [&n_calls]()
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{
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++n_calls;
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};
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timer->set_callback(callback);
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// start a repeating timer
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auto const begin_time = currentTime();
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static auto constexpr Interval = 100ms;
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static auto constexpr DesiredLoops = 3;
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timer->start_repeating(Interval);
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EXPECT_TRUE(timer->is_repeating());
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EXPECT_EQ(Interval, timer->interval());
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waitFor(evbase_.get(), [&n_calls] { return n_calls >= DesiredLoops; });
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auto const end_time = currentTime();
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// confirm that it kicked the right number of times
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expectInterval(Interval * DesiredLoops, AsMSec(end_time - begin_time));
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EXPECT_EQ(DesiredLoops, n_calls);
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}
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TEST_F(TimerTest, restartWithDifferentInterval)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto n_calls = size_t{ 0U };
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auto callback = [&n_calls]()
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{
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++n_calls;
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};
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timer->set_callback(callback);
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auto const test = [this, &n_calls, &timer](auto interval)
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{
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auto const next = n_calls + 1;
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auto const begin_time = currentTime();
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timer->start_single_shot(interval);
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waitFor(evbase_.get(), [&n_calls, next]() { return n_calls >= next; });
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auto const end_time = currentTime();
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expectInterval(interval, AsMSec(end_time - begin_time));
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};
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test(200ms);
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test(400ms);
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test(200ms);
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}
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TEST_F(TimerTest, DISABLED_restartWithSameInterval)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto n_calls = size_t{ 0U };
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auto callback = [&n_calls]()
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{
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++n_calls;
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};
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timer->set_callback(callback);
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auto const test = [this, &n_calls, &timer](auto interval)
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{
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auto const next = n_calls + 1;
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auto const begin_time = currentTime();
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timer->start_single_shot(interval);
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waitFor(evbase_.get(), [&n_calls, next]() { return n_calls >= next; });
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auto const end_time = currentTime();
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expectInterval(interval, AsMSec(end_time - begin_time));
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};
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test(timer->interval());
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test(timer->interval());
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test(timer->interval());
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}
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TEST_F(TimerTest, DISABLED_repeatingThenSingleShot)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto n_calls = size_t{ 0U };
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auto callback = [&n_calls]()
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{
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++n_calls;
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};
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timer->set_callback(callback);
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// start a repeating timer and confirm that it's running
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auto begin_time = currentTime();
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static auto constexpr RepeatingInterval = 100ms;
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static auto constexpr DesiredLoops = 2;
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timer->start_repeating(RepeatingInterval);
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EXPECT_EQ(RepeatingInterval, timer->interval());
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EXPECT_TRUE(timer->is_repeating());
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waitFor(evbase_.get(), [&n_calls]() { return n_calls >= DesiredLoops; });
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auto end_time = currentTime();
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expectTime(RepeatingInterval * DesiredLoops, AsMSec(end_time - begin_time), RepeatingInterval / 2);
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// now restart it as a single shot
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auto const baseline = n_calls;
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begin_time = currentTime();
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static auto constexpr SingleShotInterval = 200ms;
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timer->start_single_shot(SingleShotInterval);
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EXPECT_EQ(SingleShotInterval, timer->interval());
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EXPECT_FALSE(timer->is_repeating());
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waitFor(evbase_.get(), [&n_calls]() { return n_calls >= DesiredLoops + 1; });
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end_time = currentTime();
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// confirm that the single shot interval was honored
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expectInterval(SingleShotInterval, AsMSec(end_time - begin_time));
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// confirm that the timer only kicks once, since it was converted into single-shot
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sleepMsec(SingleShotInterval * 3);
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EXPECT_EQ(baseline + 1, n_calls);
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}
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TEST_F(TimerTest, DISABLED_singleShotStop)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto n_calls = size_t{ 0U };
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auto callback = [&n_calls]()
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{
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++n_calls;
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};
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timer->set_callback(callback);
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// start a single-shot timer
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static auto constexpr Interval = 200ms;
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timer->start_single_shot(Interval);
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EXPECT_EQ(Interval, timer->interval());
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EXPECT_FALSE(timer->is_repeating());
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// wait half the interval, then stop the timer
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sleepMsec(Interval / 2);
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EXPECT_EQ(0U, n_calls);
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timer->stop();
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// wait until the timer has gone past.
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// since we stopped it, callback should not have been called.
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sleepMsec(Interval);
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EXPECT_EQ(0U, n_calls);
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}
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TEST_F(TimerTest, repeatingStop)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto n_calls = size_t{ 0U };
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auto callback = [&n_calls]()
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{
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++n_calls;
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};
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timer->set_callback(callback);
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// start a repeating timer
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static auto constexpr Interval = 200ms;
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timer->start_repeating(Interval);
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EXPECT_EQ(Interval, timer->interval());
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EXPECT_TRUE(timer->is_repeating());
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// wait half the interval, then stop the timer
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sleepMsec(Interval / 2);
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EXPECT_EQ(0U, n_calls);
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timer->stop();
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// wait until the timer has gone past.
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// since we stopped it, callback should not have been called.
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sleepMsec(Interval);
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EXPECT_EQ(0U, n_calls);
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}
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TEST_F(TimerTest, destroyedTimersStop)
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{
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auto timer_maker = EvTimerMaker{ evbase_.get() };
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auto timer = timer_maker.create();
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EXPECT_TRUE(timer);
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auto n_calls = size_t{ 0U };
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auto callback = [&n_calls]()
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{
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++n_calls;
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};
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timer->set_callback(callback);
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// start a repeating timer
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static auto constexpr Interval = 200ms;
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timer->start_repeating(Interval);
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EXPECT_EQ(Interval, timer->interval());
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EXPECT_TRUE(timer->is_repeating());
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// wait half the interval, then destroy the timer
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sleepMsec(Interval / 2);
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EXPECT_EQ(0U, n_calls);
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timer.reset();
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// wait until the timer has gone past.
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// since we destroyed it, callback should not have been called.
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sleepMsec(Interval);
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EXPECT_EQ(0U, n_calls);
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}
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} // namespace libtransmission::test
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