//------------------------------------------------------------------------------ /* This file is part of clio: https://github.com/XRPLF/clio Copyright (c) 2024, the clio developers. Permission to use, copy, modify, and distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ //============================================================================== #include "util/Profiler.hpp" #include "util/async/Operation.hpp" #include "util/async/context/BasicExecutionContext.hpp" #include "util/async/context/SyncExecutionContext.hpp" #include #include #include #include #include #include #include #include using namespace util::async; using ::testing::Types; using ExecutionContextTypes = Types; template struct ExecutionContextTests : public ::testing::Test { using ExecutionContextType = T; ExecutionContextType ctx{2}; ~ExecutionContextTests() override { ctx.stop(); ctx.join(); } }; TYPED_TEST_CASE(ExecutionContextTests, ExecutionContextTypes); TYPED_TEST(ExecutionContextTests, move) { auto mineNow = std::move(this->ctx); EXPECT_TRUE(mineNow.execute([] { return true; }).get().value()); } TYPED_TEST(ExecutionContextTests, execute) { auto res = this->ctx.execute([]() { return 42; }); EXPECT_EQ(res.get().value(), 42); } TYPED_TEST(ExecutionContextTests, executeVoid) { auto value = 0; auto res = this->ctx.execute([&value]() { value = 42; }); res.wait(); ASSERT_EQ(value, 42); } TYPED_TEST(ExecutionContextTests, executeStdException) { auto res = this->ctx.execute([]() { throw std::runtime_error("test"); }); auto const err = res.get().error(); EXPECT_TRUE(err.message.ends_with("test")); EXPECT_TRUE(std::string{err}.ends_with("test")); } TYPED_TEST(ExecutionContextTests, executeUnknownException) { auto res = this->ctx.execute([]() { throw 0; }); auto const err = res.get().error(); EXPECT_TRUE(err.message.ends_with("unknown")); EXPECT_TRUE(std::string{err}.ends_with("unknown")); } // note: this fails on pool context with 1 thread TYPED_TEST(ExecutionContextTests, executeWithTimeout) { auto res = this->ctx.execute( [](auto stopRequested) { while (not stopRequested) ; return 42; }, std::chrono::milliseconds{1} ); EXPECT_EQ(res.get().value(), 42); } TYPED_TEST(ExecutionContextTests, timer) { auto res = this->ctx.scheduleAfter(std::chrono::milliseconds(1), []([[maybe_unused]] auto stopRequested, auto cancelled) { if (not cancelled) return 42; return 0; }); EXPECT_EQ(res.get().value(), 42); } TYPED_TEST(ExecutionContextTests, timerWithStopToken) { auto res = this->ctx.scheduleAfter(std::chrono::milliseconds(1), [](auto stopRequested) { while (not stopRequested) ; return 42; }); res.requestStop(); EXPECT_EQ(res.get().value(), 42); } TYPED_TEST(ExecutionContextTests, timerCancel) { auto value = 0; std::binary_semaphore sem{0}; auto res = this->ctx.scheduleAfter( std::chrono::milliseconds(10), [&value, &sem]([[maybe_unused]] auto stopRequested, auto cancelled) { if (cancelled) value = 42; sem.release(); } ); res.cancel(); sem.acquire(); EXPECT_EQ(value, 42); } TYPED_TEST(ExecutionContextTests, timerStdException) { auto res = this->ctx.scheduleAfter(std::chrono::milliseconds(1), []([[maybe_unused]] auto stopRequested, auto cancelled) { if (not cancelled) throw std::runtime_error("test"); return 0; }); auto const err = res.get().error(); EXPECT_TRUE(err.message.ends_with("test")); EXPECT_TRUE(std::string{err}.ends_with("test")); } TYPED_TEST(ExecutionContextTests, timerUnknownException) { auto res = this->ctx.scheduleAfter(std::chrono::milliseconds(1), []([[maybe_unused]] auto stopRequested, auto cancelled) { if (not cancelled) throw 0; return 0; }); auto const err = res.get().error(); EXPECT_TRUE(err.message.ends_with("unknown")); EXPECT_TRUE(std::string{err}.ends_with("unknown")); } TYPED_TEST(ExecutionContextTests, repeatingOperation) { auto const repeatDelay = std::chrono::milliseconds{1}; auto const timeout = std::chrono::milliseconds{15}; auto callCount = 0uz; auto res = this->ctx.executeRepeatedly(repeatDelay, [&] { ++callCount; }); auto timeSpent = util::timed([timeout] { std::this_thread::sleep_for(timeout); }); // calculate actual time spent res.abort(); // outside of the above stopwatch because it blocks and can take arbitrary time auto const expectedPureCalls = timeout.count() / repeatDelay.count(); auto const expectedActualCount = timeSpent / repeatDelay.count(); EXPECT_GE(callCount, expectedPureCalls / 2u); // expect at least half of the scheduled calls EXPECT_LE(callCount, expectedActualCount); // never should be called more times than possible before timeout } TYPED_TEST(ExecutionContextTests, strandMove) { auto strand = this->ctx.makeStrand(); auto yoink = std::move(strand); auto res = yoink.execute([] { return 42; }); EXPECT_EQ(res.get().value(), 42); } TYPED_TEST(ExecutionContextTests, strand) { auto strand = this->ctx.makeStrand(); auto res = strand.execute([] { return 42; }); EXPECT_EQ(res.get().value(), 42); } TYPED_TEST(ExecutionContextTests, strandStdException) { auto strand = this->ctx.makeStrand(); auto res = strand.execute([]() { throw std::runtime_error("test"); }); auto const err = res.get().error(); EXPECT_TRUE(err.message.ends_with("test")); EXPECT_TRUE(std::string{err}.ends_with("test")); } TYPED_TEST(ExecutionContextTests, strandUnknownException) { auto strand = this->ctx.makeStrand(); auto res = strand.execute([]() { throw 0; }); auto const err = res.get().error(); EXPECT_TRUE(err.message.ends_with("unknown")); EXPECT_TRUE(std::string{err}.ends_with("unknown")); } // note: this fails on pool context with 1 thread TYPED_TEST(ExecutionContextTests, strandWithTimeout) { auto strand = this->ctx.makeStrand(); auto res = strand.execute( [](auto stopRequested) { while (not stopRequested) ; return 42; }, std::chrono::milliseconds{1} ); EXPECT_EQ(res.get().value(), 42); } using NoErrorHandlerSyncExecutionContext = BasicExecutionContext< impl::SameThreadContext, impl::BasicStopSource, impl::SyncDispatchStrategy, impl::SelfContextProvider, impl::NoErrorHandler>; TEST(NoErrorHandlerSyncExecutionContextTests, executeStdException) { auto ctx = NoErrorHandlerSyncExecutionContext{}; EXPECT_THROW(ctx.execute([] { throw std::runtime_error("test"); }).wait(), std::runtime_error); } TEST(NoErrorHandlerSyncExecutionContextTests, executeUnknownException) { auto ctx = NoErrorHandlerSyncExecutionContext{}; EXPECT_ANY_THROW(ctx.execute([] { throw 0; }).wait()); } TEST(NoErrorHandlerSyncExecutionContextTests, executeStdExceptionInStrand) { auto ctx = NoErrorHandlerSyncExecutionContext{}; auto strand = ctx.makeStrand(); EXPECT_THROW(strand.execute([] { throw std::runtime_error("test"); }).wait(), std::runtime_error); } TEST(NoErrorHandlerSyncExecutionContextTests, executeUnknownExceptionInStrand) { auto ctx = NoErrorHandlerSyncExecutionContext{}; auto strand = ctx.makeStrand(); EXPECT_ANY_THROW(strand.execute([] { throw 0; }).wait()); }