//------------------------------------------------------------------------------ /* 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 "data/DBHelpers.hpp" #include "etl/ETLHelpers.hpp" #include "etl/impl/GrpcSource.hpp" #include "etlng/InitialLoadObserverInterface.hpp" #include "etlng/LoadBalancerInterface.hpp" #include "etlng/Models.hpp" #include "etlng/impl/GrpcSource.hpp" #include "util/AsioContextTestFixture.hpp" #include "util/Assert.hpp" #include "util/MockXrpLedgerAPIService.hpp" #include "util/Mutex.hpp" #include "util/TestObject.hpp" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace etlng::model; namespace { struct MockLoadObserver : etlng::InitialLoadObserverInterface { MOCK_METHOD( void, onInitialLoadGotMoreObjects, (uint32_t, std::vector const&, std::optional), (override) ); }; struct GrpcSourceNgTests : virtual public ::testing::Test, tests::util::WithMockXrpLedgerAPIService { GrpcSourceNgTests() : WithMockXrpLedgerAPIService("localhost:0"), grpcSource_("localhost", std::to_string(getXRPLMockPort())) { } class KeyStore { std::vector keys_; using Store = std::map, std::greater<>>; util::Mutex store_; public: KeyStore(std::size_t totalKeys, std::size_t numMarkers) : keys_(etl::getMarkers(totalKeys)) { auto const totalPerMarker = totalKeys / numMarkers; auto const markers = etl::getMarkers(numMarkers); auto store = store_.lock(); for (auto mi = 0uz; mi < markers.size(); ++mi) { for (auto i = 0uz; i < totalPerMarker; ++i) { auto const mapKey = ripple::strHex(markers.at(mi)).substr(0, 2); store->operator[](mapKey).push(keys_.at((mi * totalPerMarker) + i)); } } } std::optional next(std::string const& marker) { auto store = store_.lock(); auto const mapKey = ripple::strHex(marker).substr(0, 2); auto it = store->lower_bound(mapKey); ASSERT(it != store->end(), "Lower bound not found for '{}'", mapKey); auto& queue = it->second; if (queue.empty()) return std::nullopt; auto data = queue.front(); queue.pop(); return std::make_optional(uint256ToString(data)); }; std::optional peek(std::string const& marker) { auto store = store_.lock(); auto const mapKey = ripple::strHex(marker).substr(0, 2); auto it = store->lower_bound(mapKey); ASSERT(it != store->end(), "Lower bound not found for '{}'", mapKey); auto& queue = it->second; if (queue.empty()) return std::nullopt; auto data = queue.front(); return std::make_optional(uint256ToString(data)); }; }; protected: testing::StrictMock observer_; etlng::impl::GrpcSource grpcSource_; }; struct GrpcSourceNgLoadInitialLedgerTests : GrpcSourceNgTests { protected: uint32_t const sequence_ = 123u; uint32_t const numMarkers_ = 4u; bool const cacheOnly_ = false; }; } // namespace TEST_F(GrpcSourceNgTests, BasicFetchLedger) { uint32_t const sequence = 123u; bool const getObjects = true; bool const getObjectNeighbors = false; EXPECT_CALL(mockXrpLedgerAPIService, GetLedger) .WillOnce([&](grpc::ServerContext* /*context*/, org::xrpl::rpc::v1::GetLedgerRequest const* request, org::xrpl::rpc::v1::GetLedgerResponse* response) { EXPECT_EQ(request->ledger().sequence(), sequence); EXPECT_TRUE(request->transactions()); EXPECT_TRUE(request->expand()); EXPECT_EQ(request->get_objects(), getObjects); EXPECT_EQ(request->get_object_neighbors(), getObjectNeighbors); EXPECT_EQ(request->user(), "ETL"); response->set_validated(true); response->set_is_unlimited(false); response->set_object_neighbors_included(false); return grpc::Status{}; }); auto const [status, response] = grpcSource_.fetchLedger(sequence, getObjects, getObjectNeighbors); ASSERT_TRUE(status.ok()); EXPECT_TRUE(response.validated()); EXPECT_FALSE(response.is_unlimited()); EXPECT_FALSE(response.object_neighbors_included()); } TEST_F(GrpcSourceNgLoadInitialLedgerTests, GetLedgerDataNotFound) { EXPECT_CALL(mockXrpLedgerAPIService, GetLedgerData) .Times(numMarkers_) .WillRepeatedly([&](grpc::ServerContext* /*context*/, org::xrpl::rpc::v1::GetLedgerDataRequest const* request, org::xrpl::rpc::v1::GetLedgerDataResponse* /*response*/) { EXPECT_EQ(request->ledger().sequence(), sequence_); EXPECT_EQ(request->user(), "ETL"); return grpc::Status{grpc::StatusCode::NOT_FOUND, "Not found"}; }); auto const res = grpcSource_.loadInitialLedger(sequence_, numMarkers_, observer_); EXPECT_FALSE(res.has_value()); } TEST_F(GrpcSourceNgLoadInitialLedgerTests, ObserverCalledCorrectly) { auto const key = ripple::uint256{4}; auto const keyStr = uint256ToString(key); auto const object = createTicketLedgerObject("rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", sequence_); auto const objectData = object.getSerializer().peekData(); EXPECT_CALL(mockXrpLedgerAPIService, GetLedgerData) .Times(numMarkers_) .WillRepeatedly([&](grpc::ServerContext* /*context*/, org::xrpl::rpc::v1::GetLedgerDataRequest const* request, org::xrpl::rpc::v1::GetLedgerDataResponse* response) { EXPECT_EQ(request->ledger().sequence(), sequence_); EXPECT_EQ(request->user(), "ETL"); response->set_is_unlimited(true); auto newObject = response->mutable_ledger_objects()->add_objects(); newObject->set_key(uint256ToString(key)); newObject->set_data(objectData.data(), objectData.size()); return grpc::Status{}; }); EXPECT_CALL(observer_, onInitialLoadGotMoreObjects) .Times(numMarkers_) .WillRepeatedly([&](uint32_t, std::vector const& data, std::optional lastKey) { EXPECT_FALSE(lastKey.has_value()); EXPECT_EQ(data.size(), 1); }); auto const res = grpcSource_.loadInitialLedger(sequence_, numMarkers_, observer_); EXPECT_TRUE(res.has_value()); EXPECT_EQ(res.value().size(), numMarkers_); EXPECT_EQ(res.value(), std::vector(4, keyStr)); } TEST_F(GrpcSourceNgLoadInitialLedgerTests, DataTransferredAndObserverCalledCorrectly) { auto const totalKeys = 256uz; auto const totalPerMarker = totalKeys / numMarkers_; auto const batchSize = totalPerMarker / 4uz; auto const batchesPerMarker = totalPerMarker / batchSize; auto keyStore = KeyStore(totalKeys, numMarkers_); auto const object = createTicketLedgerObject("rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", sequence_); auto const objectData = object.getSerializer().peekData(); EXPECT_CALL(mockXrpLedgerAPIService, GetLedgerData) .Times(numMarkers_ * batchesPerMarker) .WillRepeatedly([&](grpc::ServerContext* /*context*/, org::xrpl::rpc::v1::GetLedgerDataRequest const* request, org::xrpl::rpc::v1::GetLedgerDataResponse* response) { EXPECT_EQ(request->ledger().sequence(), sequence_); EXPECT_EQ(request->user(), "ETL"); response->set_is_unlimited(true); auto next = request->marker().empty() ? std::string("00") : request->marker(); for (auto i = 0uz; i < batchSize; ++i) { if (auto maybeLastKey = keyStore.next(next); maybeLastKey.has_value()) { next = *maybeLastKey; auto newObject = response->mutable_ledger_objects()->add_objects(); newObject->set_key(next); newObject->set_data(objectData.data(), objectData.size()); } } if (auto maybeNext = keyStore.peek(next); maybeNext.has_value()) response->set_marker(*maybeNext); return grpc::Status::OK; }); std::atomic_size_t total = 0uz; std::atomic_size_t totalWithLastKey = 0uz; std::atomic_size_t totalWithoutLastKey = 0uz; EXPECT_CALL(observer_, onInitialLoadGotMoreObjects) .Times(numMarkers_ * batchesPerMarker) .WillRepeatedly([&](uint32_t, std::vector const& data, std::optional lastKey) { EXPECT_LE(data.size(), batchSize); if (lastKey.has_value()) { ++totalWithLastKey; } else { ++totalWithoutLastKey; } total += data.size(); }); auto const res = grpcSource_.loadInitialLedger(sequence_, numMarkers_, observer_); EXPECT_TRUE(res.has_value()); EXPECT_EQ(res.value().size(), numMarkers_); EXPECT_EQ(total, totalKeys); EXPECT_EQ(totalWithLastKey + totalWithoutLastKey, numMarkers_ * batchesPerMarker); EXPECT_EQ(totalWithoutLastKey, numMarkers_); EXPECT_EQ(totalWithLastKey, (numMarkers_ - 1) * batchesPerMarker); } struct GrpcSourceStopTests : GrpcSourceNgTests, SyncAsioContextTest {}; TEST_F(GrpcSourceStopTests, LoadInitialLedgerStopsWhenRequested) { uint32_t const sequence = 123u; uint32_t const numMarkers = 1; std::mutex mtx; std::condition_variable cvGrpcCallActive; std::condition_variable cvStopCalled; bool grpcCallIsActive = false; bool stopHasBeenCalled = false; EXPECT_CALL(mockXrpLedgerAPIService, GetLedgerData) .WillOnce([&](grpc::ServerContext*, org::xrpl::rpc::v1::GetLedgerDataRequest const* request, org::xrpl::rpc::v1::GetLedgerDataResponse* response) { EXPECT_EQ(request->ledger().sequence(), sequence); EXPECT_EQ(request->user(), "ETL"); { std::unique_lock const lk(mtx); grpcCallIsActive = true; } cvGrpcCallActive.notify_one(); { std::unique_lock lk(mtx); cvStopCalled.wait(lk, [&] { return stopHasBeenCalled; }); } response->set_is_unlimited(true); return grpc::Status::OK; }); EXPECT_CALL(observer_, onInitialLoadGotMoreObjects).Times(0); auto loadTask = std::async(std::launch::async, [&]() { return grpcSource_.loadInitialLedger(sequence, numMarkers, observer_); }); { std::unique_lock lk(mtx); cvGrpcCallActive.wait(lk, [&] { return grpcCallIsActive; }); } runSyncOperation([&](boost::asio::yield_context yield) { grpcSource_.stop(yield); { std::unique_lock const lk(mtx); stopHasBeenCalled = true; } cvStopCalled.notify_one(); }); auto const res = loadTask.get(); ASSERT_FALSE(res.has_value()); EXPECT_EQ(res.error(), etlng::InitialLedgerLoadError::Cancelled); } TEST_F(GrpcSourceNgTests, DeadlineIsHandledCorrectly) { static constexpr auto kDEADLINE = std::chrono::milliseconds{5}; uint32_t const sequence = 123u; bool const getObjects = true; bool const getObjectNeighbors = false; std::binary_semaphore sem(0); auto grpcSource = std::make_unique("localhost", std::to_string(getXRPLMockPort()), kDEADLINE); // Note: this may not be called at all if gRPC cancels before it gets a chance to call the stub EXPECT_CALL(mockXrpLedgerAPIService, GetLedger) .Times(testing::AtMost(1)) .WillRepeatedly([&](grpc::ServerContext*, org::xrpl::rpc::v1::GetLedgerRequest const*, org::xrpl::rpc::v1::GetLedgerResponse*) { // wait for main thread to discard us and fail the test if unsuccessful within expected timeframe [&] { ASSERT_TRUE(sem.try_acquire_for(std::chrono::milliseconds{50})); }(); return grpc::Status{}; }); auto const [status, response] = grpcSource->fetchLedger(sequence, getObjects, getObjectNeighbors); ASSERT_FALSE(status.ok()); // timed out after kDEADLINE sem.release(); // we don't need to hold GetLedger thread any longer grpcSource.reset(); shutdown(std::chrono::milliseconds{10}); }