// Copyright 2021 gRPC authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // 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. #include "src/core/lib/promise/pipe.h" #include #include #include #include "absl/functional/function_ref.h" #include "absl/status/status.h" #include "gmock/gmock.h" #include "gtest/gtest.h" #include #include #include "src/core/lib/gprpp/crash.h" #include "src/core/lib/gprpp/ref_counted_ptr.h" #include "src/core/lib/promise/activity.h" #include "src/core/lib/promise/join.h" #include "src/core/lib/promise/map.h" #include "src/core/lib/promise/seq.h" #include "src/core/lib/resource_quota/memory_quota.h" #include "src/core/lib/resource_quota/resource_quota.h" #include "test/core/promise/test_wakeup_schedulers.h" using testing::MockFunction; using testing::StrictMock; namespace grpc_core { class PipeTest : public ::testing::Test { protected: MemoryAllocator memory_allocator_ = MemoryAllocator( ResourceQuota::Default()->memory_quota()->CreateMemoryAllocator("test")); }; TEST_F(PipeTest, CanSendAndReceive) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); return Seq( // Concurrently: send 42 into the pipe, and receive from the pipe. Join(pipe->sender.Push(42), Map(pipe->receiver.Next(), [](NextResult r) { return r.value(); })), // Once complete, verify successful sending and the received value // is 42. [](std::tuple result) { EXPECT_TRUE(std::get<0>(result)); EXPECT_EQ(42, std::get<1>(result)); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanInterceptAndMapAtSender) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); pipe->sender.InterceptAndMap([](int value) { return value / 2; }); return Seq( // Concurrently: send 42 into the pipe, and receive from the pipe. Join(pipe->sender.Push(42), Map(pipe->receiver.Next(), [](NextResult r) { return r.value(); })), // Once complete, verify successful sending and the received value // is 21. [](std::tuple result) { EXPECT_TRUE(std::get<0>(result)); EXPECT_EQ(21, std::get<1>(result)); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanInterceptAndMapAtReceiver) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); pipe->receiver.InterceptAndMap([](int value) { return value / 2; }); return Seq( // Concurrently: send 42 into the pipe, and receive from the pipe. Join(pipe->sender.Push(42), Map(pipe->receiver.Next(), [](NextResult r) { return r.value(); })), // Once complete, verify successful sending and the received value // is 21. [](std::tuple result) { EXPECT_TRUE(std::get<0>(result)); EXPECT_EQ(21, std::get<1>(result)); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, InterceptionOrderingIsCorrect) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); auto appender = [](char c) { return [c](std::string value) { value += c; return value; }; }; // Interception get added outwardly from the center, and run from sender // to receiver, so the following should result in append "abcd". pipe->receiver.InterceptAndMap(appender('c')); pipe->sender.InterceptAndMap(appender('b')); pipe->receiver.InterceptAndMap(appender('d')); pipe->sender.InterceptAndMap(appender('a')); return Seq( // Concurrently: send "" into the pipe, and receive from the pipe. Join(pipe->sender.Push(""), Map(pipe->receiver.Next(), [](NextResult r) { return r.value(); })), // Once complete, verify successful sending and the received value // is 21. [](std::tuple result) { EXPECT_TRUE(std::get<0>(result)); EXPECT_EQ("abcd", std::get<1>(result)); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanReceiveAndSend) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); return Seq( // Concurrently: receive from the pipe, and send 42 into the pipe. Join(Map(pipe->receiver.Next(), [](NextResult r) { return r.value(); }), pipe->sender.Push(42)), // Once complete, verify the received value is 42 and successful // sending. [](std::tuple result) { EXPECT_EQ(std::get<0>(result), 42); EXPECT_TRUE(std::get<1>(result)); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanSeeClosedOnSend) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { Pipe pipe; auto sender = std::move(pipe.sender); auto receiver = std::make_shared>>( std::make_unique>(std::move(pipe.receiver))); return Seq( // Concurrently: // - push 43 into the sender, which will stall because there is no // reader // - and close the receiver, which will fail the pending send. Join(sender.Push(43), [receiver] { receiver->reset(); return absl::OkStatus(); }), // Verify both that the send failed and that we executed the close. [](const std::tuple& result) { EXPECT_EQ(result, std::make_tuple(false, absl::OkStatus())); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanSeeClosedOnReceive) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { Pipe pipe; auto sender = std::make_shared>>( std::make_unique>(std::move(pipe.sender))); auto receiver = std::move(pipe.receiver); return Seq( // Concurrently: // - wait for a received value (will stall forever since we push // nothing into the queue) // - close the sender, which will signal the receiver to return an // end-of-stream. Join(receiver.Next(), [sender] { sender->reset(); return absl::OkStatus(); }), // Verify we received end-of-stream and closed the sender. [](std::tuple, absl::Status> result) { EXPECT_FALSE(std::get<0>(result).has_value()); EXPECT_EQ(std::get<1>(result), absl::OkStatus()); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanCloseSend) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); return Seq( // Concurrently: // - wait for a received value (will stall forever since we push // nothing into the queue) // - close the sender, which will signal the receiver to return an // end-of-stream. Join(pipe->receiver.Next(), [pipe]() mutable { pipe->sender.Close(); return absl::OkStatus(); }), // Verify we received end-of-stream and closed the sender. [](std::tuple, absl::Status> result) { EXPECT_FALSE(std::get<0>(result).has_value()); EXPECT_FALSE(std::get<0>(result).cancelled()); EXPECT_EQ(std::get<1>(result), absl::OkStatus()); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanCloseWithErrorSend) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); return Seq( // Concurrently: // - wait for a received value (will stall forever since we push // nothing into the queue) // - close the sender, which will signal the receiver to return an // end-of-stream. Join(pipe->receiver.Next(), [pipe]() mutable { pipe->sender.CloseWithError(); return absl::OkStatus(); }), // Verify we received end-of-stream and closed the sender. [](std::tuple, absl::Status> result) { EXPECT_FALSE(std::get<0>(result).has_value()); EXPECT_TRUE(std::get<0>(result).cancelled()); EXPECT_EQ(std::get<1>(result), absl::OkStatus()); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanCloseWithErrorRecv) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); return Seq( // Concurrently: // - wait for a received value (will stall forever since we push // nothing into the queue) // - close the sender, which will signal the receiver to return an // end-of-stream. Join(pipe->receiver.Next(), [pipe]() mutable { pipe->receiver.CloseWithError(); return absl::OkStatus(); }), // Verify we received end-of-stream and closed the sender. [](std::tuple, absl::Status> result) { EXPECT_FALSE(std::get<0>(result).has_value()); EXPECT_TRUE(std::get<0>(result).cancelled()); EXPECT_EQ(std::get<1>(result), absl::OkStatus()); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanCloseSendWithInterceptor) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); pipe->sender.InterceptAndMap([](int value) { return value + 1; }); return Seq( // Concurrently: // - wait for a received value (will stall forever since we push // nothing into the queue) // - close the sender, which will signal the receiver to return an // end-of-stream. Join(pipe->receiver.Next(), [pipe]() mutable { pipe->sender.Close(); return absl::OkStatus(); }), // Verify we received end-of-stream and closed the sender. [](std::tuple, absl::Status> result) { EXPECT_FALSE(std::get<0>(result).has_value()); EXPECT_FALSE(std::get<0>(result).cancelled()); EXPECT_EQ(std::get<1>(result), absl::OkStatus()); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanCancelSendWithInterceptor) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); pipe->sender.InterceptAndMap([](int) { return absl::nullopt; }); return Seq( // Concurrently: // - wait for a received value (will stall forever since we push // nothing into the queue) // - close the sender, which will signal the receiver to return an // end-of-stream. Join(pipe->receiver.Next(), pipe->sender.Push(3)), // Verify we received end-of-stream with cancellation and sent // successfully. [](std::tuple, bool> result) { EXPECT_FALSE(std::get<0>(result).has_value()); EXPECT_TRUE(std::get<0>(result).cancelled()); EXPECT_FALSE(std::get<1>(result)); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } TEST_F(PipeTest, CanFlowControlThroughManyStages) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); auto done = std::make_shared(false); // Push a value through multiple pipes. // Ensure that it's possible to do so and get flow control throughout the // entire pipe: ie that the push down does not complete until the last pipe // completes. MakeActivity( [done] { auto* pipe1 = GetContext()->ManagedNew>(); auto* pipe2 = GetContext()->ManagedNew>(); auto* pipe3 = GetContext()->ManagedNew>(); auto* sender1 = &pipe1->sender; auto* receiver1 = &pipe1->receiver; auto* sender2 = &pipe2->sender; auto* receiver2 = &pipe2->receiver; auto* sender3 = &pipe3->sender; auto* receiver3 = &pipe3->receiver; return Seq(Join(Seq(sender1->Push(1), [done] { *done = true; return 1; }), Seq(receiver1->Next(), [sender2](NextResult r) mutable { return sender2->Push(r.value()); }), Seq(receiver2->Next(), [sender3](NextResult r) mutable { return sender3->Push(r.value()); }), Seq(receiver3->Next(), [done](NextResult r) { EXPECT_EQ(r.value(), 1); EXPECT_FALSE(*done); return 2; })), [](std::tuple result) { EXPECT_EQ(result, std::make_tuple(1, true, true, 2)); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); ASSERT_TRUE(*done); } TEST_F(PipeTest, AwaitClosedWorks) { StrictMock> on_done; EXPECT_CALL(on_done, Call(absl::OkStatus())); MakeActivity( [] { auto* pipe = GetContext()->ManagedNew>(); pipe->sender.InterceptAndMap([](int value) { return value + 1; }); return Seq( // Concurrently: // - wait for closed on both ends // - close the sender, which will signal the receiver to return an // end-of-stream. Join(pipe->receiver.AwaitClosed(), pipe->sender.AwaitClosed(), [pipe]() mutable { pipe->sender.Close(); return absl::OkStatus(); }), // Verify we received end-of-stream and closed the sender. [](std::tuple result) { EXPECT_FALSE(std::get<0>(result)); EXPECT_FALSE(std::get<1>(result)); EXPECT_EQ(std::get<2>(result), absl::OkStatus()); return absl::OkStatus(); }); }, NoWakeupScheduler(), [&on_done](absl::Status status) { on_done.Call(std::move(status)); }, MakeScopedArena(1024, &memory_allocator_)); } class FakeActivity final : public Activity { public: void Orphan() override {} void ForceImmediateRepoll(WakeupMask) override {} Waker MakeOwningWaker() override { Crash("Not implemented"); } Waker MakeNonOwningWaker() override { Crash("Not implemented"); } void Run(absl::FunctionRef f) { ScopedActivity activity(this); f(); } }; TEST_F(PipeTest, PollAckWaitsForReadyClosed) { FakeActivity().Run([]() { pipe_detail::Center c; int i = 1; EXPECT_EQ(c.Push(&i), Poll(true)); c.MarkClosed(); EXPECT_EQ(c.PollAck(), Poll(Pending{})); }); } } // namespace grpc_core int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); grpc_init(); int r = RUN_ALL_TESTS(); grpc_shutdown(); return r; }