//------------------------------------------------------------------------------ /* This file is part of clio: https://github.com/XRPLF/clio Copyright (c) 2023, 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/Types.hpp" #include "rpc/Errors.hpp" #include "rpc/common/AnyHandler.hpp" #include "rpc/common/Types.hpp" #include "rpc/handlers/NFTHistory.hpp" #include "util/HandlerBaseTestFixture.hpp" #include "util/NameGenerator.hpp" #include "util/TestObject.hpp" #include #include #include #include #include #include #include #include #include #include using namespace rpc; using namespace data; namespace json = boost::json; using namespace testing; namespace { constexpr auto kMIN_SEQ = 10; constexpr auto kMAX_SEQ = 30; constexpr auto kACCOUNT = "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn"; constexpr auto kACCOUNT2 = "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun"; constexpr auto kLEDGER_HASH = "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652"; constexpr auto kNFT_ID = "00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004"; } // namespace struct RPCNFTHistoryHandlerTest : HandlerBaseTest { RPCNFTHistoryHandlerTest() { backend_->setRange(kMIN_SEQ, kMAX_SEQ); } }; struct NFTHistoryParamTestCaseBundle { std::string testName; std::string testJson; std::string expectedError; std::string expectedErrorMessage; }; // parameterized test cases for parameters check struct NFTHistoryParameterTest : public RPCNFTHistoryHandlerTest, public WithParamInterface {}; static auto generateTestValuesForParametersTest() { return std::vector{ NFTHistoryParamTestCaseBundle{ .testName = "MissingNFTID", .testJson = R"({})", .expectedError = "invalidParams", .expectedErrorMessage = "Required field 'nft_id' missing" }, NFTHistoryParamTestCaseBundle{ .testName = "BinaryNotBool", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "binary": 1})", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "ForwardNotBool", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "forward": 1})", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "ledger_index_minNotInt", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_min": "x"})", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "ledger_index_maxNotInt", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_max": "x"})", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "ledger_indexInvalid", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index": "x"})", .expectedError = "invalidParams", .expectedErrorMessage = "ledgerIndexMalformed" }, NFTHistoryParamTestCaseBundle{ .testName = "ledger_hashInvalid", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_hash": "x"})", .expectedError = "invalidParams", .expectedErrorMessage = "ledger_hashMalformed" }, NFTHistoryParamTestCaseBundle{ .testName = "ledger_hashNotString", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_hash": 123})", .expectedError = "invalidParams", .expectedErrorMessage = "ledger_hashNotString" }, NFTHistoryParamTestCaseBundle{ .testName = "limitNotInt", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "limit": "123"})", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "limitNagetive", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "limit": -1})", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "limitZero", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "limit": 0})", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "MarkerNotObject", .testJson = R"({"nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "marker": 101})", .expectedError = "invalidParams", .expectedErrorMessage = "invalidMarker" }, NFTHistoryParamTestCaseBundle{ .testName = "MarkerMissingSeq", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "marker": {"ledger": 123} })", .expectedError = "invalidParams", .expectedErrorMessage = "Required field 'seq' missing" }, NFTHistoryParamTestCaseBundle{ .testName = "MarkerMissingLedger", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "marker":{"seq": 123} })", .expectedError = "invalidParams", .expectedErrorMessage = "Required field 'ledger' missing" }, NFTHistoryParamTestCaseBundle{ .testName = "MarkerLedgerNotInt", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "marker": { "seq": "string", "ledger": 1 } })", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "MarkerSeqNotInt", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "marker": { "ledger": "string", "seq": 1 } })", .expectedError = "invalidParams", .expectedErrorMessage = "Invalid parameters." }, NFTHistoryParamTestCaseBundle{ .testName = "LedgerIndexMinLessThanMinSeq", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_min": 9 })", .expectedError = "lgrIdxMalformed", .expectedErrorMessage = "ledgerSeqMinOutOfRange" }, NFTHistoryParamTestCaseBundle{ .testName = "LedgerIndexMaxLargeThanMaxSeq", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_max": 31 })", .expectedError = "lgrIdxMalformed", .expectedErrorMessage = "ledgerSeqMaxOutOfRange" }, NFTHistoryParamTestCaseBundle{ .testName = "LedgerIndexMaxLessThanLedgerIndexMin", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_max": 11, "ledger_index_min": 20 })", .expectedError = "lgrIdxsInvalid", .expectedErrorMessage = "Ledger indexes invalid." }, NFTHistoryParamTestCaseBundle{ .testName = "LedgerIndexMaxMinAndLedgerIndex", .testJson = R"({ "nft_id":"00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_max": 20, "ledger_index_min": 11, "ledger_index": 10 })", .expectedError = "invalidParams", .expectedErrorMessage = "containsLedgerSpecifierAndRange" }, }; } INSTANTIATE_TEST_CASE_P( RPCNFTHistoryGroup1, NFTHistoryParameterTest, ValuesIn(generateTestValuesForParametersTest()), tests::util::kNAME_GENERATOR ); TEST_P(NFTHistoryParameterTest, InvalidParams) { auto const testBundle = GetParam(); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto const req = json::parse(testBundle.testJson); auto const output = handler.process(req, Context{yield}); ASSERT_FALSE(output); auto const err = rpc::makeError(output.result.error()); EXPECT_EQ(err.at("error").as_string(), testBundle.expectedError); EXPECT_EQ(err.at("error_message").as_string(), testBundle.expectedErrorMessage); }); } static std::vector genTransactions(uint32_t seq1, uint32_t seq2) { auto transactions = std::vector{}; auto trans1 = TransactionAndMetadata(); ripple::STObject const obj = createPaymentTransactionObject(kACCOUNT, kACCOUNT2, 1, 1, 32); trans1.transaction = obj.getSerializer().peekData(); trans1.ledgerSequence = seq1; ripple::STObject const metaObj = createPaymentTransactionMetaObject(kACCOUNT, kACCOUNT2, 22, 23); trans1.metadata = metaObj.getSerializer().peekData(); trans1.date = 1; transactions.push_back(trans1); auto trans2 = TransactionAndMetadata(); ripple::STObject const obj2 = createPaymentTransactionObject(kACCOUNT, kACCOUNT2, 1, 1, 32); trans2.transaction = obj.getSerializer().peekData(); trans2.ledgerSequence = seq2; ripple::STObject const metaObj2 = createPaymentTransactionMetaObject(kACCOUNT, kACCOUNT2, 22, 23); trans2.metadata = metaObj2.getSerializer().peekData(); trans2.date = 2; transactions.push_back(trans2); return transactions; } TEST_F(RPCNFTHistoryHandlerTest, IndexSpecificForwardTrue) { auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, true, testing::Optional(testing::Eq(TransactionsCursor{kMIN_SEQ + 1, 0})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": true }})", kNFT_ID, kMIN_SEQ + 1, kMAX_SEQ - 1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ + 1); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ - 1); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 2); EXPECT_FALSE(output.result->as_object().contains("limit")); }); } TEST_F(RPCNFTHistoryHandlerTest, IndexSpecificForwardFalseV1) { constexpr auto kOUTPUT = R"({ "nft_id": "00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_min": 11, "ledger_index_max": 29, "transactions": [ { "meta": { "AffectedNodes": [ { "ModifiedNode":{ "FinalFields":{ "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Balance": "22" }, "LedgerEntryType": "AccountRoot" } }, { "ModifiedNode":{ "FinalFields":{ "Account": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Balance": "23" }, "LedgerEntryType": "AccountRoot" } } ], "TransactionIndex": 0, "TransactionResult": "tesSUCCESS", "delivered_amount": "unavailable" }, "tx": { "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Amount": "1", "Destination": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Fee": "1", "Sequence": 32, "SigningPubKey": "74657374", "TransactionType": "Payment", "hash": "51D2AAA6B8E4E16EF22F6424854283D8391B56875858A711B8CE4D5B9A422CC2", "DeliverMax": "1", "ledger_index": 11, "date": 1 }, "validated": true }, { "meta": { "AffectedNodes": [ { "ModifiedNode":{ "FinalFields":{ "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Balance": "22" }, "LedgerEntryType": "AccountRoot" } }, { "ModifiedNode":{ "FinalFields":{ "Account": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Balance": "23" }, "LedgerEntryType": "AccountRoot" } } ], "TransactionIndex": 0, "TransactionResult": "tesSUCCESS", "delivered_amount": "unavailable" }, "tx": { "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Amount": "1", "Destination": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Fee": "1", "Sequence": 32, "SigningPubKey": "74657374", "TransactionType": "Payment", "hash": "51D2AAA6B8E4E16EF22F6424854283D8391B56875858A711B8CE4D5B9A422CC2", "DeliverMax": "1", "ledger_index": 29, "date": 2 }, "validated": true } ], "validated": true, "marker": { "ledger": 12, "seq": 34 } })"; auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ - 1, INT32_MAX})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": false }})", kNFT_ID, kMIN_SEQ + 1, kMAX_SEQ - 1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result.value(), boost::json::parse(kOUTPUT)); }); } TEST_F(RPCNFTHistoryHandlerTest, IndexSpecificForwardFalseV2) { constexpr auto kOUTPUT = R"({ "nft_id": "00010000A7CAD27B688D14BA1A9FA5366554D6ADCF9CE0875B974D9F00000004", "ledger_index_min": 11, "ledger_index_max": 29, "transactions": [ { "meta": { "AffectedNodes": [ { "ModifiedNode": { "FinalFields": { "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Balance": "22" }, "LedgerEntryType": "AccountRoot" } }, { "ModifiedNode": { "FinalFields": { "Account": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Balance": "23" }, "LedgerEntryType": "AccountRoot" } } ], "TransactionIndex": 0, "TransactionResult": "tesSUCCESS", "delivered_amount": "unavailable" }, "tx_json": { "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Destination": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Fee": "1", "Sequence": 32, "SigningPubKey": "74657374", "TransactionType": "Payment", "DeliverMax": "1", "ledger_index": 11, "date": 1 }, "hash": "51D2AAA6B8E4E16EF22F6424854283D8391B56875858A711B8CE4D5B9A422CC2", "ledger_index": 11, "close_time_iso": "2000-01-01T00:00:00Z", "ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652", "validated": true }, { "meta": { "AffectedNodes": [ { "ModifiedNode": { "FinalFields": { "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Balance": "22" }, "LedgerEntryType": "AccountRoot" } }, { "ModifiedNode": { "FinalFields": { "Account": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Balance": "23" }, "LedgerEntryType": "AccountRoot" } } ], "TransactionIndex": 0, "TransactionResult": "tesSUCCESS", "delivered_amount": "unavailable" }, "tx_json": { "Account": "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn", "Destination": "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun", "Fee": "1", "Sequence": 32, "SigningPubKey": "74657374", "TransactionType": "Payment", "DeliverMax": "1", "ledger_index": 29, "date": 2 }, "hash": "51D2AAA6B8E4E16EF22F6424854283D8391B56875858A711B8CE4D5B9A422CC2", "ledger_index": 29, "close_time_iso": "2000-01-01T00:00:00Z", "ledger_hash": "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652", "validated": true } ], "validated": true, "marker": { "ledger": 12, "seq": 34 } })"; auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ - 1, INT32_MAX})), testing::_ ) ) .WillOnce(Return(transCursor)); auto const ledgerHeader = createLedgerHeader(kLEDGER_HASH, kMAX_SEQ); ON_CALL(*backend_, fetchLedgerBySequence).WillByDefault(Return(ledgerHeader)); EXPECT_CALL(*backend_, fetchLedgerBySequence).Times(2); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": false }})", kNFT_ID, kMIN_SEQ + 1, kMAX_SEQ - 1 )); auto const output = handler.process(kINPUT, Context{.yield = yield, .apiVersion = 2u}); ASSERT_TRUE(output); EXPECT_EQ(output.result.value(), boost::json::parse(kOUTPUT)); }); } TEST_F(RPCNFTHistoryHandlerTest, IndexNotSpecificForwardTrue) { auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, true, testing::Optional(testing::Eq(TransactionsCursor{kMIN_SEQ, 0})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": true }})", kNFT_ID, -1, -1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 2); EXPECT_FALSE(output.result->as_object().contains("limit")); }); } TEST_F(RPCNFTHistoryHandlerTest, IndexNotSpecificForwardFalse) { auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ, INT32_MAX})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": false }})", kNFT_ID, -1, -1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 2); EXPECT_FALSE(output.result->as_object().contains("limit")); }); } TEST_F(RPCNFTHistoryHandlerTest, BinaryTrueV1) { auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ, INT32_MAX})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "binary": true }})", kNFT_ID, -1, -1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 2); EXPECT_EQ( output.result->at("transactions").as_array()[0].as_object().at("meta").as_string(), "201C00000000F8E5110061E762400000000000001681144B4E9C06F24296074F7B" "C48F92A97916C6DC5EA9E1E1E5110061E76240000000000000178114D31252CF90" "2EF8DD8451243869B38667CBD89DF3E1E1F1031000" ); EXPECT_EQ( output.result->at("transactions").as_array()[0].as_object().at("tx_blob").as_string(), "120000240000002061400000000000000168400000000000000173047465737481" "144B4E9C06F24296074F7BC48F92A97916C6DC5EA98314D31252CF902EF8DD8451" "243869B38667CBD89DF3" ); EXPECT_EQ(output.result->at("transactions").as_array()[0].as_object().at("date").as_uint64(), 1); EXPECT_FALSE(output.result->as_object().contains("limit")); }); } TEST_F(RPCNFTHistoryHandlerTest, BinaryTrueV2) { auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ, INT32_MAX})), testing::_ ) ) .WillOnce(Return(transCursor)); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "binary": true }})", kNFT_ID, -1, -1 )); auto const output = handler.process(kINPUT, Context{.yield = yield, .apiVersion = 2u}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 2); EXPECT_EQ( output.result->at("transactions").as_array()[0].as_object().at("meta_blob").as_string(), "201C00000000F8E5110061E762400000000000001681144B4E9C06F24296074F7B" "C48F92A97916C6DC5EA9E1E1E5110061E76240000000000000178114D31252CF90" "2EF8DD8451243869B38667CBD89DF3E1E1F1031000" ); EXPECT_EQ( output.result->at("transactions").as_array()[0].as_object().at("tx_blob").as_string(), "120000240000002061400000000000000168400000000000000173047465737481" "144B4E9C06F24296074F7BC48F92A97916C6DC5EA98314D31252CF902EF8DD8451" "243869B38667CBD89DF3" ); EXPECT_EQ(output.result->at("transactions").as_array()[0].as_object().at("date").as_uint64(), 1); EXPECT_FALSE(output.result->as_object().contains("limit")); }); } TEST_F(RPCNFTHistoryHandlerTest, LimitAndMarker) { auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{10, 11})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "limit": 2, "forward": false, "marker": {{"ledger":10,"seq":11}} }})", kNFT_ID, -1, -1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ); EXPECT_EQ(output.result->at("limit").as_uint64(), 2); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 2); }); } TEST_F(RPCNFTHistoryHandlerTest, SpecificLedgerIndex) { // adjust the order for forward->false auto const transactions = genTransactions(kMAX_SEQ - 1, kMIN_SEQ + 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ - 1, INT32_MAX})), testing::_ ) ) .Times(1); auto const ledgerHeader = createLedgerHeader(kLEDGER_HASH, kMAX_SEQ - 1); EXPECT_CALL(*backend_, fetchLedgerBySequence).Times(1); ON_CALL(*backend_, fetchLedgerBySequence(kMAX_SEQ - 1, _)).WillByDefault(Return(ledgerHeader)); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index":{} }})", kNFT_ID, kMAX_SEQ - 1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMAX_SEQ - 1); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ - 1); EXPECT_FALSE(output.result->as_object().contains("limit")); EXPECT_FALSE(output.result->as_object().contains("marker")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 1); }); } TEST_F(RPCNFTHistoryHandlerTest, SpecificNonexistLedgerIntIndex) { EXPECT_CALL(*backend_, fetchLedgerBySequence).Times(1); ON_CALL(*backend_, fetchLedgerBySequence(kMAX_SEQ - 1, _)).WillByDefault(Return(std::nullopt)); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index":{} }})", kNFT_ID, kMAX_SEQ - 1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_FALSE(output); auto const err = rpc::makeError(output.result.error()); EXPECT_EQ(err.at("error").as_string(), "lgrNotFound"); EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound"); }); } TEST_F(RPCNFTHistoryHandlerTest, SpecificNonexistLedgerStringIndex) { EXPECT_CALL(*backend_, fetchLedgerBySequence).Times(1); ON_CALL(*backend_, fetchLedgerBySequence(kMAX_SEQ - 1, _)).WillByDefault(Return(std::nullopt)); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index":"{}" }})", kNFT_ID, kMAX_SEQ - 1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_FALSE(output); auto const err = rpc::makeError(output.result.error()); EXPECT_EQ(err.at("error").as_string(), "lgrNotFound"); EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound"); }); } TEST_F(RPCNFTHistoryHandlerTest, SpecificLedgerHash) { // adjust the order for forward->false auto const transactions = genTransactions(kMAX_SEQ - 1, kMIN_SEQ + 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ - 1, INT32_MAX})), testing::_ ) ) .Times(1); auto const ledgerHeader = createLedgerHeader(kLEDGER_HASH, kMAX_SEQ - 1); EXPECT_CALL(*backend_, fetchLedgerByHash).Times(1); ON_CALL(*backend_, fetchLedgerByHash(ripple::uint256{kLEDGER_HASH}, _)).WillByDefault(Return(ledgerHeader)); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_hash":"{}" }})", kNFT_ID, kLEDGER_HASH )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMAX_SEQ - 1); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ - 1); EXPECT_FALSE(output.result->as_object().contains("limit")); EXPECT_FALSE(output.result->as_object().contains("marker")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 1); }); } TEST_F(RPCNFTHistoryHandlerTest, TxLessThanMinSeq) { auto const transactions = genTransactions(kMAX_SEQ - 1, kMIN_SEQ + 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ - 1, INT32_MAX})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": false }})", kNFT_ID, kMIN_SEQ + 2, kMAX_SEQ - 1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ + 2); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ - 1); EXPECT_EQ(output.result->at("transactions").as_array().size(), 1); EXPECT_FALSE(output.result->as_object().contains("limit")); EXPECT_FALSE(output.result->as_object().contains("marker")); }); } TEST_F(RPCNFTHistoryHandlerTest, TxLargerThanMaxSeq) { auto const transactions = genTransactions(kMAX_SEQ - 1, kMIN_SEQ + 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ - 2, INT32_MAX})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": false }})", kNFT_ID, kMIN_SEQ + 1, kMAX_SEQ - 2 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ + 1); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ - 2); EXPECT_EQ(output.result->at("transactions").as_array().size(), 1); EXPECT_FALSE(output.result->as_object().contains("limit")); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); }); } TEST_F(RPCNFTHistoryHandlerTest, LimitMoreThanMax) { auto const transactions = genTransactions(kMIN_SEQ + 1, kMAX_SEQ - 1); auto const transCursor = TransactionsAndCursor{.txns = transactions, .cursor = TransactionsCursor{12, 34}}; ON_CALL(*backend_, fetchNFTTransactions).WillByDefault(Return(transCursor)); EXPECT_CALL( *backend_, fetchNFTTransactions( testing::_, testing::_, false, testing::Optional(testing::Eq(TransactionsCursor{kMAX_SEQ - 1, INT32_MAX})), testing::_ ) ) .Times(1); runSpawn([&, this](auto yield) { auto const handler = AnyHandler{NFTHistoryHandler{backend_}}; auto static const kINPUT = json::parse(fmt::format( R"({{ "nft_id":"{}", "ledger_index_min": {}, "ledger_index_max": {}, "forward": false, "limit": {} }})", kNFT_ID, kMIN_SEQ + 1, kMAX_SEQ - 1, NFTHistoryHandler::kLIMIT_MAX + 1 )); auto const output = handler.process(kINPUT, Context{yield}); ASSERT_TRUE(output); EXPECT_EQ(output.result->at("nft_id").as_string(), kNFT_ID); EXPECT_EQ(output.result->at("ledger_index_min").as_uint64(), kMIN_SEQ + 1); EXPECT_EQ(output.result->at("ledger_index_max").as_uint64(), kMAX_SEQ - 1); EXPECT_EQ(output.result->at("marker").as_object(), json::parse(R"({"ledger":12,"seq":34})")); EXPECT_EQ(output.result->at("transactions").as_array().size(), 2); EXPECT_EQ(output.result->as_object().at("limit").as_uint64(), NFTHistoryHandler::kLIMIT_MAX); }); }