//------------------------------------------------------------------------------ /* 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 "etl/SystemState.hpp" #include "etlng/Models.hpp" #include "etlng/MonitorInterface.hpp" #include "etlng/impl/Registry.hpp" #include "util/BinaryTestObject.hpp" #include "util/LoggerFixtures.hpp" #include "util/MockPrometheus.hpp" #include "util/TestObject.hpp" #include #include #include #include #include #include #include #include #include using namespace etlng::impl; namespace compiletime::checks { struct Ext1 { static void onLedgerData(etlng::model::LedgerData const&); }; struct Ext2 { static void onInitialObjects(uint32_t, std::vector const&, std::string); }; struct Ext3 { static void onInitialData(etlng::model::LedgerData const&); }; struct Ext4SpecMissing { static void onTransaction(uint32_t, etlng::model::Transaction const&); }; struct Ext4Fixed { using spec = etlng::model::Spec; static void onTransaction(uint32_t, etlng::model::Transaction const&); }; struct Ext5 { static void onInitialObject(uint32_t, etlng::model::Object const&); }; struct Ext6SpecMissing { static void onInitialTransaction(uint32_t, etlng::model::Transaction const&); }; struct Ext6Fixed { using spec = etlng::model::Spec; static void onInitialTransaction(uint32_t, etlng::model::Transaction const&); }; struct ExtRealistic { using spec = etlng::model::Spec< ripple::TxType::ttNFTOKEN_BURN, ripple::TxType::ttNFTOKEN_ACCEPT_OFFER, ripple::TxType::ttNFTOKEN_CREATE_OFFER, ripple::TxType::ttNFTOKEN_CANCEL_OFFER, ripple::TxType::ttNFTOKEN_MINT>; static void onLedgerData(etlng::model::LedgerData const&); static void onInitialObject(uint32_t, etlng::model::Object const&); static void onInitialTransaction(uint32_t, etlng::model::Transaction const&); }; struct ExtCombinesTwoOfKind : Ext2, Ext5 {}; struct ExtEmpty {}; // check all expectations of an extension are met static_assert(not SomeExtension); static_assert(SomeExtension); static_assert(SomeExtension); static_assert(SomeExtension); static_assert(not SomeExtension); static_assert(SomeExtension); static_assert(SomeExtension); static_assert(not SomeExtension); static_assert(SomeExtension); static_assert(SomeExtension); static_assert(not SomeExtension); struct ValidSpec { using spec = etlng::model::Spec; }; // invalid spec does not compile: // struct DuplicatesSpec { // using spec = etlng::model::Spec; // }; static_assert(ContainsSpec); } // namespace compiletime::checks namespace { constinit auto const kLEDGER_HASH = "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652"; constinit auto const kSEQ = 30; struct MockExtLedgerData { MOCK_METHOD(void, onLedgerData, (etlng::model::LedgerData const&), (const)); }; struct MockExtInitialData { MOCK_METHOD(void, onInitialData, (etlng::model::LedgerData const&), (const)); }; struct MockExtOnObject { MOCK_METHOD(void, onObject, (uint32_t, etlng::model::Object const&), (const)); }; struct MockExtTransactionNftBurn { using spec = etlng::model::Spec; MOCK_METHOD(void, onTransaction, (uint32_t, etlng::model::Transaction const&), (const)); }; struct MockExtTransactionNftOffer { using spec = etlng::model::Spec< ripple::TxType::ttNFTOKEN_CREATE_OFFER, ripple::TxType::ttNFTOKEN_CANCEL_OFFER, ripple::TxType::ttNFTOKEN_ACCEPT_OFFER>; MOCK_METHOD(void, onTransaction, (uint32_t, etlng::model::Transaction const&), (const)); }; struct MockExtInitialObject { MOCK_METHOD(void, onInitialObject, (uint32_t, etlng::model::Object const&), (const)); }; struct MockExtInitialObjects { MOCK_METHOD(void, onInitialObjects, (uint32_t, std::vector const&, std::string), (const)); }; struct MockExtNftBurn { using spec = etlng::model::Spec; MOCK_METHOD(void, onInitialTransaction, (uint32_t, etlng::model::Transaction const&), (const)); }; struct MockExtNftOffer { using spec = etlng::model::Spec< ripple::TxType::ttNFTOKEN_CREATE_OFFER, ripple::TxType::ttNFTOKEN_CANCEL_OFFER, ripple::TxType::ttNFTOKEN_ACCEPT_OFFER>; MOCK_METHOD(void, onInitialTransaction, (uint32_t, etlng::model::Transaction const&), (const)); }; // Mock extensions with allowInReadonly struct MockExtLedgerDataReadonly { MOCK_METHOD(void, onLedgerData, (etlng::model::LedgerData const&), (const)); static bool allowInReadonly() { return true; } }; struct MockExtInitialDataReadonly { MOCK_METHOD(void, onInitialData, (etlng::model::LedgerData const&), (const)); static bool allowInReadonly() { return true; } }; struct MockExtOnObjectReadonly { MOCK_METHOD(void, onObject, (uint32_t, etlng::model::Object const&), (const)); static bool allowInReadonly() { return true; } }; struct MockExtTransactionNftBurnReadonly { using spec = etlng::model::Spec; MOCK_METHOD(void, onTransaction, (uint32_t, etlng::model::Transaction const&), (const)); static bool allowInReadonly() { return true; } }; struct MockExtInitialObjectReadonly { MOCK_METHOD(void, onInitialObject, (uint32_t, etlng::model::Object const&), (const)); static bool allowInReadonly() { return true; } }; struct MockExtInitialObjectsReadonly { MOCK_METHOD(void, onInitialObjects, (uint32_t, std::vector const&, std::string), (const)); static bool allowInReadonly() { return true; } }; struct MockExtNftBurnReadonly { using spec = etlng::model::Spec; MOCK_METHOD(void, onInitialTransaction, (uint32_t, etlng::model::Transaction const&), (const)); static bool allowInReadonly() { return true; } }; struct RegistryTest : NoLoggerFixture, util::prometheus::WithPrometheus { RegistryTest() { state_.isWriting = true; } protected: etl::SystemState state_{}; }; } // namespace TEST_F(RegistryTest, FilteringOfTxWorksCorrectlyForInitialTransaction) { auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_CREATE_OFFER), }; auto extBurn = MockExtNftBurn{}; auto extOffer = MockExtNftOffer{}; EXPECT_CALL(extBurn, onInitialTransaction(testing::_, testing::_)).Times(2); // 2 burn txs EXPECT_CALL(extOffer, onInitialTransaction(testing::_, testing::_)); // 1 create offer auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extBurn, extOffer); reg.dispatchInitialData(etlng::model::LedgerData{ .transactions = transactions, .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ, }); } TEST_F(RegistryTest, FilteringOfTxWorksCorrectlyForTransaction) { auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_CREATE_OFFER), }; auto extBurn = MockExtTransactionNftBurn{}; auto extOffer = MockExtTransactionNftOffer{}; EXPECT_CALL(extBurn, onTransaction(testing::_, testing::_)).Times(2); // 2 burn txs EXPECT_CALL(extOffer, onTransaction(testing::_, testing::_)); // 1 create offer auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extBurn, extOffer); reg.dispatch(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, InitialObjectsEmpty) { auto extObj = MockExtInitialObject{}; auto extObjs = MockExtInitialObjects{}; EXPECT_CALL(extObj, onInitialObject(testing::_, testing::_)).Times(0); // 0 empty objects sent EXPECT_CALL(extObjs, onInitialObjects(testing::_, testing::_, testing::_)); // 1 vector passed as is auto reg = Registry(state_, extObj, extObjs); reg.dispatchInitialObjects(kSEQ, {}, {}); } TEST_F(RegistryTest, InitialObjectsDispatched) { auto extObj = MockExtInitialObject{}; auto extObjs = MockExtInitialObjects{}; EXPECT_CALL(extObj, onInitialObject(testing::_, testing::_)).Times(3); // 3 objects sent EXPECT_CALL(extObjs, onInitialObjects(testing::_, testing::_, testing::_)); // 1 vector passed as is auto reg = Registry(state_, extObj, extObjs); reg.dispatchInitialObjects(kSEQ, {util::createObject(), util::createObject(), util::createObject()}, {}); } TEST_F(RegistryTest, ObjectsDispatched) { auto extObj = MockExtOnObject{}; EXPECT_CALL(extObj, onObject(testing::_, testing::_)).Times(3); // 3 objects sent auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extObj); reg.dispatch(etlng::model::LedgerData{ .transactions = {}, .objects = {util::createObject(), util::createObject(), util::createObject()}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, OnLedgerDataForBatch) { auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_CREATE_OFFER), }; auto ext = MockExtLedgerData{}; EXPECT_CALL(ext, onLedgerData(testing::_)); // 1 batch (dispatch call) auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, ext); reg.dispatch(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, InitialObjectsCorrectOrderOfHookCalls) { auto extObjs = MockExtInitialObjects{}; auto extObj = MockExtInitialObject{}; testing::InSequence const seqGuard; EXPECT_CALL(extObjs, onInitialObjects); EXPECT_CALL(extObj, onInitialObject).Times(3); auto reg = Registry(state_, extObj, extObjs); reg.dispatchInitialObjects(kSEQ, {util::createObject(), util::createObject(), util::createObject()}, {}); } TEST_F(RegistryTest, InitialDataCorrectOrderOfHookCalls) { auto extInitialData = MockExtInitialData{}; auto extInitialTransaction = MockExtNftBurn{}; auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_CREATE_OFFER), }; testing::InSequence const seqGuard; EXPECT_CALL(extInitialData, onInitialData); EXPECT_CALL(extInitialTransaction, onInitialTransaction).Times(2); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extInitialTransaction, extInitialData); reg.dispatchInitialData(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, LedgerDataCorrectOrderOfHookCalls) { auto extLedgerData = MockExtLedgerData{}; auto extOnTransaction = MockExtTransactionNftBurn{}; auto extOnObject = MockExtOnObject{}; auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_CREATE_OFFER), }; auto objects = std::vector{ util::createObject(), util::createObject(), util::createObject(), }; // testing::Sequence seq; testing::InSequence const seqGuard; EXPECT_CALL(extLedgerData, onLedgerData); EXPECT_CALL(extOnTransaction, onTransaction).Times(2); EXPECT_CALL(extOnObject, onObject).Times(3); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry( state_, extOnObject, extOnTransaction, extLedgerData ); reg.dispatch(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = std::move(objects), .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, ReadonlyModeLedgerDataAllowed) { auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), }; auto ext = MockExtLedgerDataReadonly{}; state_.isWriting = false; EXPECT_CALL(ext, onLedgerData(testing::_)); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, ext); reg.dispatch(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, ReadonlyModeTransactionAllowed) { auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), }; auto extTx = MockExtTransactionNftBurnReadonly{}; state_.isWriting = false; EXPECT_CALL(extTx, onTransaction(testing::_, testing::_)).Times(2); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extTx); reg.dispatch(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, ReadonlyModeObjectAllowed) { auto objects = std::vector{ util::createObject(), util::createObject(), util::createObject(), }; auto extObj = MockExtOnObjectReadonly{}; state_.isWriting = false; EXPECT_CALL(extObj, onObject(testing::_, testing::_)).Times(3); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extObj); reg.dispatch(etlng::model::LedgerData{ .transactions = {}, .objects = std::move(objects), .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, ReadonlyModeInitialDataAllowed) { auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), }; auto extInitialData = MockExtInitialDataReadonly{}; state_.isWriting = false; EXPECT_CALL(extInitialData, onInitialData(testing::_)); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extInitialData); reg.dispatchInitialData(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, ReadonlyModeInitialTransactionAllowed) { auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), }; auto extTx = MockExtNftBurnReadonly{}; state_.isWriting = false; EXPECT_CALL(extTx, onInitialTransaction(testing::_, testing::_)).Times(2); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extTx); reg.dispatchInitialData(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, ReadonlyModeInitialObjectAllowed) { auto extObj = MockExtInitialObjectReadonly{}; state_.isWriting = false; EXPECT_CALL(extObj, onInitialObject(testing::_, testing::_)).Times(3); auto reg = Registry(state_, extObj); reg.dispatchInitialObjects(kSEQ, {util::createObject(), util::createObject(), util::createObject()}, {}); } TEST_F(RegistryTest, ReadonlyModeInitialObjectsAllowed) { auto extObjs = MockExtInitialObjectsReadonly{}; state_.isWriting = false; EXPECT_CALL(extObjs, onInitialObjects(testing::_, testing::_, testing::_)); auto reg = Registry(state_, extObjs); reg.dispatchInitialObjects(kSEQ, {util::createObject(), util::createObject(), util::createObject()}, {}); } TEST_F(RegistryTest, ReadonlyModeRegularExtensionsNotCalled) { auto extLedgerData = MockExtLedgerData{}; // No allowInReadonly method auto objects = std::vector{ util::createObject(), util::createObject(), util::createObject(), }; state_.isWriting = false; EXPECT_CALL(extLedgerData, onLedgerData(testing::_)).Times(0); // Should NOT be called in readonly mode auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extLedgerData); reg.dispatch(etlng::model::LedgerData{ .transactions = {}, .objects = std::move(objects), .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, MixedReadonlyAndRegularExtensions) { auto extReadonly = MockExtLedgerDataReadonly{}; auto extRegular = MockExtLedgerData{}; auto objects = std::vector{ util::createObject(), util::createObject(), util::createObject(), }; state_.isWriting = false; EXPECT_CALL(extReadonly, onLedgerData(testing::_)); EXPECT_CALL(extRegular, onLedgerData(testing::_)).Times(0); // Should NOT be called in readonly mode auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, extReadonly, extRegular); reg.dispatch(etlng::model::LedgerData{ .transactions = {}, .objects = std::move(objects), .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, MonitorInterfaceExecution) { struct MockMonitor : etlng::MonitorInterface { MOCK_METHOD(void, notifyLedgerLoaded, (uint32_t), (override)); MOCK_METHOD(boost::signals2::scoped_connection, subscribe, (SignalType::slot_type const&), (override)); MOCK_METHOD(void, run, (std::chrono::steady_clock::duration), (override)); MOCK_METHOD(void, stop, (), (override)); }; auto monitor = MockMonitor{}; EXPECT_CALL(monitor, notifyLedgerLoaded(kSEQ)).Times(1); monitor.notifyLedgerLoaded(kSEQ); } TEST_F(RegistryTest, ReadonlyModeWithAllowInReadonlyTest) { struct ExtWithAllowInReadonly { MOCK_METHOD(void, onLedgerData, (etlng::model::LedgerData const&), (const)); static bool allowInReadonly() { return true; } }; auto ext = ExtWithAllowInReadonly{}; state_.isWriting = false; EXPECT_CALL(ext, onLedgerData(testing::_)).Times(1); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, ext); reg.dispatch(etlng::model::LedgerData{ .transactions = {}, .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); } TEST_F(RegistryTest, ReadonlyModeExecutePluralHooksIfAllowedPaths) { struct ExtWithBothHooksAndAllowReadonly { MOCK_METHOD(void, onLedgerData, (etlng::model::LedgerData const&), (const)); MOCK_METHOD(void, onInitialData, (etlng::model::LedgerData const&), (const)); MOCK_METHOD(void, onInitialObjects, (uint32_t, std::vector const&, std::string), (const)); static bool allowInReadonly() { return true; } }; auto ext = ExtWithBothHooksAndAllowReadonly{}; state_.isWriting = false; auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), }; auto objects = std::vector{ util::createObject(), }; EXPECT_CALL(ext, onLedgerData(testing::_)).Times(1); EXPECT_CALL(ext, onInitialData(testing::_)).Times(1); EXPECT_CALL(ext, onInitialObjects(testing::_, testing::_, testing::_)).Times(1); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, ext); reg.dispatch(etlng::model::LedgerData{ .transactions = transactions, .objects = objects, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); reg.dispatchInitialData(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); reg.dispatchInitialObjects(kSEQ, objects, {}); } TEST_F(RegistryTest, ReadonlyModeExecuteByOneHooksIfAllowedPaths) { struct ExtWithBothHooksAndAllowReadonly { using spec = etlng::model::Spec; MOCK_METHOD(void, onObject, (uint32_t, etlng::model::Object const&), (const)); MOCK_METHOD(void, onInitialObject, (uint32_t, etlng::model::Object const&), (const)); MOCK_METHOD(void, onTransaction, (uint32_t, etlng::model::Transaction const&), (const)); MOCK_METHOD(void, onInitialTransaction, (uint32_t, etlng::model::Transaction const&), (const)); static bool allowInReadonly() { return true; } }; auto ext = ExtWithBothHooksAndAllowReadonly{}; state_.isWriting = false; auto transactions = std::vector{ util::createTransaction(ripple::TxType::ttNFTOKEN_BURN), }; auto objects = std::vector{ util::createObject(), }; EXPECT_CALL(ext, onTransaction(testing::_, testing::_)).Times(1); EXPECT_CALL(ext, onObject(testing::_, testing::_)).Times(1); EXPECT_CALL(ext, onInitialTransaction(testing::_, testing::_)).Times(1); EXPECT_CALL(ext, onInitialObject(testing::_, testing::_)).Times(1); auto const header = createLedgerHeader(kLEDGER_HASH, kSEQ); auto reg = Registry(state_, ext); reg.dispatch(etlng::model::LedgerData{ .transactions = transactions, .objects = objects, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); reg.dispatchInitialData(etlng::model::LedgerData{ .transactions = std::move(transactions), .objects = {}, .successors = {}, .edgeKeys = {}, .header = header, .rawHeader = {}, .seq = kSEQ }); reg.dispatchInitialObjects(kSEQ, objects, {}); }