/* * This file is open source software, licensed to you under the terms * of the Apache License, Version 2.0 (the "License"). See the NOTICE file * distributed with this work for additional information regarding copyright * ownership. You may not use this file except in compliance with the License. * * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ /* * Copyright (C) 2017 ScyllaDB */ #include #include #include #include #include #include using namespace seastar; using namespace std::chrono_literals; SEASTAR_TEST_CASE(test_abort_source_notifies_subscriber) { bool signalled = false; auto as = abort_source(); auto st_opt = as.subscribe([&signalled] () noexcept { signalled = true; }); BOOST_REQUIRE_EQUAL(true, bool(st_opt)); as.request_abort(); BOOST_REQUIRE_EQUAL(true, signalled); BOOST_REQUIRE_EQUAL(false, bool(st_opt)); BOOST_REQUIRE_THROW(as.check(), abort_requested_exception); return make_ready_future<>(); } SEASTAR_TEST_CASE(test_abort_source_subscription_unregister) { bool signalled = false; auto as = abort_source(); auto st_opt = as.subscribe([&signalled] () noexcept { signalled = true; }); BOOST_REQUIRE_EQUAL(true, bool(st_opt)); st_opt = { }; as.request_abort(); BOOST_REQUIRE_EQUAL(false, signalled); return make_ready_future<>(); } SEASTAR_TEST_CASE(test_abort_source_rejects_subscription) { auto as = abort_source(); as.request_abort(); auto st_opt = as.subscribe([] () noexcept { }); BOOST_REQUIRE_EQUAL(false, bool(st_opt)); return make_ready_future<>(); } SEASTAR_TEST_CASE(test_sleep_abortable) { auto as = std::make_unique(); auto f = sleep_abortable(100s, *as).then_wrapped([] (auto&& f) { try { f.get(); BOOST_FAIL("should have failed"); } catch (const sleep_aborted& e) { // expected } catch (...) { BOOST_FAIL("unexpected exception"); } }); as->request_abort(); return f.finally([as = std::move(as)] { }); } SEASTAR_TEST_CASE(test_sleep_abortable_no_abort) { auto as = std::make_unique(); // Check that the sleep completes as usual if the // abort source doesn't fire. auto f = sleep_abortable(100s, *as); manual_clock::advance(99s); BOOST_REQUIRE(!f.available()); manual_clock::advance(101s); return f.finally([as = std::move(as)] { }); } // Verify that negative sleep does not sleep forever. It should not sleep // at all. SEASTAR_TEST_CASE(test_negative_sleep_abortable) { return do_with(abort_source(), [] (abort_source& as) { return sleep_abortable(-10s, as); }); } SEASTAR_TEST_CASE(test_request_abort_with_exception) { abort_source as; optimized_optional st_opt; std::optional aborted_ex; auto expected_message = "expected"; auto make_abort_source = [&] () { as = abort_source(); st_opt = as.subscribe([&aborted_ex] (const std::optional& opt_ex) noexcept { aborted_ex = opt_ex; }); aborted_ex = std::nullopt; }; make_abort_source(); auto ex = make_exception_ptr(std::runtime_error(expected_message)); as.request_abort_ex(ex); BOOST_REQUIRE(aborted_ex.has_value()); bool caught_exception = false; try { std::rethrow_exception(*aborted_ex); } catch (const std::runtime_error& e) { BOOST_REQUIRE_EQUAL(e.what(), expected_message); caught_exception = true; } BOOST_REQUIRE(caught_exception); BOOST_REQUIRE_THROW(as.check(), std::runtime_error); make_abort_source(); as.request_abort_ex(make_exception_ptr(std::runtime_error(expected_message))); BOOST_REQUIRE(aborted_ex.has_value()); caught_exception = false; try { std::rethrow_exception(*aborted_ex); } catch (const std::runtime_error& e) { BOOST_REQUIRE_EQUAL(e.what(), expected_message); caught_exception = true; } BOOST_REQUIRE(caught_exception); BOOST_REQUIRE_THROW(as.check(), std::runtime_error); make_abort_source(); as.request_abort_ex(std::runtime_error(expected_message)); BOOST_REQUIRE(aborted_ex.has_value()); caught_exception = false; try { std::rethrow_exception(*aborted_ex); } catch (const std::runtime_error& e) { BOOST_REQUIRE_EQUAL(e.what(), expected_message); caught_exception = true; } BOOST_REQUIRE(caught_exception); BOOST_REQUIRE_THROW(as.check(), std::runtime_error); return make_ready_future<>(); } SEASTAR_THREAD_TEST_CASE(test_sleep_abortable_with_exception) { abort_source as; auto f = sleep_abortable(10s, as); auto expected_message = "expected"; as.request_abort_ex(std::runtime_error(expected_message)); bool caught_exception = false; try { f.get(); } catch (const std::runtime_error& e) { BOOST_REQUIRE_EQUAL(e.what(), expected_message); caught_exception = true; } BOOST_REQUIRE(caught_exception); } SEASTAR_THREAD_TEST_CASE(test_destroy_with_moved_subscriptions) { auto as = std::make_unique(); int aborted = 0; auto sub1 = as->subscribe([&] () noexcept { ++aborted; }); auto sub2 = std::move(sub1); optimized_optional sub3; sub3 = std::move(sub2); auto sub4 = as->subscribe([&] () noexcept { ++aborted; }); sub4 = std::move(sub3); as.reset(); BOOST_REQUIRE_EQUAL(aborted, 0); } SEASTAR_THREAD_TEST_CASE(test_request_abort_twice) { abort_source as; as.request_abort_ex(std::runtime_error("")); as.request_abort(); BOOST_REQUIRE_THROW(as.check(), std::runtime_error); } SEASTAR_THREAD_TEST_CASE(test_on_abort_call_after_abort) { std::exception_ptr signalled_ex; auto as = abort_source(); auto sub = as.subscribe([&] (const std::optional& ex) noexcept { BOOST_REQUIRE(!signalled_ex); signalled_ex = *ex; }); BOOST_REQUIRE_EQUAL(bool(sub), true); BOOST_REQUIRE(signalled_ex == nullptr); // on_abort should trigger the subscribed callback as.request_abort_ex(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE_EQUAL(bool(sub), false); BOOST_REQUIRE(signalled_ex != nullptr); BOOST_REQUIRE_THROW(std::rethrow_exception(signalled_ex), std::runtime_error); // on_abort is single-shot signalled_ex = nullptr; sub->on_abort(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE(signalled_ex == nullptr); } SEASTAR_THREAD_TEST_CASE(test_on_abort_call_before_abort) { std::exception_ptr signalled_ex; auto as = abort_source(); auto sub = as.subscribe([&] (const std::optional& ex) noexcept { BOOST_REQUIRE(!signalled_ex); signalled_ex = *ex; }); BOOST_REQUIRE_EQUAL(bool(sub), true); BOOST_REQUIRE(signalled_ex == nullptr); // on_abort should trigger the subscribed callback sub->on_abort(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE_EQUAL(bool(sub), false); BOOST_REQUIRE(signalled_ex != nullptr); BOOST_REQUIRE_THROW(std::rethrow_exception(signalled_ex), std::runtime_error); // subscription is single-shot signalled_ex = nullptr; as.request_abort_ex(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE(signalled_ex == nullptr); } SEASTAR_THREAD_TEST_CASE(test_subscribe_aborted_source) { std::exception_ptr signalled_ex; auto as = abort_source(); as.request_abort(); auto sub = as.subscribe([&] (const std::optional& ex) noexcept { BOOST_REQUIRE(!signalled_ex); signalled_ex = *ex; }); // subscription is expected to evaluate to false // if abort_source was already aborted BOOST_REQUIRE_EQUAL(bool(sub), false); BOOST_REQUIRE(signalled_ex == nullptr); // on_abort should trigger the subscribed callback // if abort_source was already aborted sub->on_abort(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE(signalled_ex != nullptr); BOOST_REQUIRE_THROW(std::rethrow_exception(signalled_ex), std::runtime_error); // on_abort is single-shot signalled_ex = nullptr; sub->on_abort(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE(signalled_ex == nullptr); } SEASTAR_THREAD_TEST_CASE(test_subscription_callback_lifetime) { // The subscription callback function needs to be destroyed // only when the subscription is destroyed. bool callback_destroyed = false; int callback_called = 0; auto when_destroyed = deferred_action([&callback_destroyed] () noexcept { callback_destroyed = true; }); auto as = abort_source(); auto sub = std::make_unique>(as.subscribe([&, when_destroyed = std::move(when_destroyed)] (const std::optional& ex) noexcept { callback_called++; })); BOOST_REQUIRE_EQUAL(bool(sub), true); BOOST_REQUIRE_EQUAL(bool(*sub), true); BOOST_REQUIRE_EQUAL(callback_destroyed, false); BOOST_REQUIRE_EQUAL(callback_called, 0); // on_abort should trigger the subscribed callback as.request_abort_ex(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE_EQUAL(bool(*sub), false); BOOST_REQUIRE_EQUAL(callback_destroyed, false); BOOST_REQUIRE_EQUAL(callback_called, 1); // on_abort is single-shot (*sub)->on_abort(std::make_exception_ptr(std::runtime_error("signaled"))); BOOST_REQUIRE_EQUAL(callback_destroyed, false); BOOST_REQUIRE_EQUAL(callback_called, 1); sub.reset(); BOOST_REQUIRE_EQUAL(callback_destroyed, true); BOOST_REQUIRE_EQUAL(callback_called, 1); }