//------------------------------------------------------------------------------ /* 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 #include #include #include #include using namespace RPCng; namespace json = boost::json; using namespace testing; constexpr static auto ACCOUNT = "rf1BiGeXwwQoi8Z2ueFYTEXSwuJYfV2Jpn"; constexpr static auto ACCOUNT2 = "rLEsXccBGNR3UPuPu2hUXPjziKC3qKSBun"; constexpr static auto ISSUER = "rK9DrarGKnVEo2nYp5MfVRXRYf5yRX3mwD"; constexpr static auto LEDGERHASH = "4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652"; constexpr static auto INDEX1 = "1B8590C01B0006EDFA9ED60296DD052DC5E90F99659B25014D08E1BC983515BC"; constexpr static auto INDEX2 = "E6DBAFC99223B42257915A63DFC6B0C032D4070F9A574B255AD97466726FC321"; constexpr static auto TXNID = "E3FE6EA3D48F0C2B639448020EA4F03D4F4F8FFDB243A852A0F59177921B4879"; class RPCAccountCurrenciesHandlerTest : public HandlerBaseTest { }; TEST_F(RPCAccountCurrenciesHandlerTest, AccountNotExsit) { auto const rawBackendPtr = static_cast(mockBackendPtr.get()); mockBackendPtr->updateRange(10); // min mockBackendPtr->updateRange(30); // max auto const ledgerinfo = CreateLedgerInfo(LEDGERHASH, 30); EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1); ON_CALL(*rawBackendPtr, fetchLedgerBySequence) .WillByDefault(Return(ledgerinfo)); ON_CALL(*rawBackendPtr, doFetchLedgerObject) .WillByDefault(Return(std::optional{})); EXPECT_CALL(*rawBackendPtr, doFetchLedgerObject).Times(1); auto const static input = boost::json::parse(fmt::format( R"({{ "account":"{}" }})", ACCOUNT)); auto const handler = AnyHandler{AccountCurrenciesHandler{mockBackendPtr}}; runSpawn([&](auto& yield) { auto const output = handler.process(input, Context{std::ref(yield)}); ASSERT_FALSE(output); auto const err = RPC::makeError(output.error()); EXPECT_EQ(err.at("error").as_string(), "actNotFound"); EXPECT_EQ(err.at("error_message").as_string(), "accountNotFound"); }); } TEST_F(RPCAccountCurrenciesHandlerTest, LedgerNonExistViaIntSequence) { auto const rawBackendPtr = static_cast(mockBackendPtr.get()); mockBackendPtr->updateRange(10); // min mockBackendPtr->updateRange(30); // max EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1); // return empty ledgerinfo ON_CALL(*rawBackendPtr, fetchLedgerBySequence(30, _)) .WillByDefault(Return(std::optional{})); auto const static input = boost::json::parse(fmt::format( R"({{ "account":"{}" }})", ACCOUNT)); auto const handler = AnyHandler{AccountCurrenciesHandler{mockBackendPtr}}; runSpawn([&](auto& yield) { auto const output = handler.process(input, Context{std::ref(yield)}); ASSERT_FALSE(output); auto const err = RPC::makeError(output.error()); EXPECT_EQ(err.at("error").as_string(), "lgrNotFound"); EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound"); }); } TEST_F(RPCAccountCurrenciesHandlerTest, LedgerNonExistViaStringSequence) { auto constexpr seq = 12; auto const rawBackendPtr = static_cast(mockBackendPtr.get()); mockBackendPtr->updateRange(10); // min mockBackendPtr->updateRange(30); // max EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1); // return empty ledgerinfo ON_CALL(*rawBackendPtr, fetchLedgerBySequence(12, _)) .WillByDefault(Return(std::optional{})); auto const static input = boost::json::parse(fmt::format( R"({{ "account":"{}", "ledger_index":"{}" }})", ACCOUNT, seq)); auto const handler = AnyHandler{AccountCurrenciesHandler{mockBackendPtr}}; runSpawn([&](auto& yield) { auto const output = handler.process(input, Context{std::ref(yield)}); ASSERT_FALSE(output); auto const err = RPC::makeError(output.error()); EXPECT_EQ(err.at("error").as_string(), "lgrNotFound"); EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound"); }); } TEST_F(RPCAccountCurrenciesHandlerTest, LedgerNonExistViaHash) { auto const rawBackendPtr = static_cast(mockBackendPtr.get()); mockBackendPtr->updateRange(10); // min mockBackendPtr->updateRange(30); // max EXPECT_CALL(*rawBackendPtr, fetchLedgerByHash).Times(1); // return empty ledgerinfo ON_CALL(*rawBackendPtr, fetchLedgerByHash(ripple::uint256{LEDGERHASH}, _)) .WillByDefault(Return(std::optional{})); auto const static input = boost::json::parse(fmt::format( R"({{ "account":"{}", "ledger_hash":"{}" }})", ACCOUNT, LEDGERHASH)); auto const handler = AnyHandler{AccountCurrenciesHandler{mockBackendPtr}}; runSpawn([&](auto& yield) { auto const output = handler.process(input, Context{std::ref(yield)}); ASSERT_FALSE(output); auto const err = RPC::makeError(output.error()); EXPECT_EQ(err.at("error").as_string(), "lgrNotFound"); EXPECT_EQ(err.at("error_message").as_string(), "ledgerNotFound"); }); } TEST_F(RPCAccountCurrenciesHandlerTest, DefaultParameter) { auto constexpr static OUTPUT = R"({ "ledger_hash":"4BC50C9B0D8515D3EAAE1E74B29A95804346C491EE1A95BF25E4AAB854A6A652", "ledger_index":30, "validated":true, "receive_currencies":[ "EUR", "JPY" ], "send_currencies":[ "EUR", "USD" ] })"; auto const rawBackendPtr = static_cast(mockBackendPtr.get()); mockBackendPtr->updateRange(10); // min mockBackendPtr->updateRange(30); // max // return valid ledgerinfo auto const ledgerinfo = CreateLedgerInfo(LEDGERHASH, 30); EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1); ON_CALL(*rawBackendPtr, fetchLedgerBySequence(30, _)) .WillByDefault(Return(ledgerinfo)); // return valid account auto const accountKk = ripple::keylet::account(GetAccountIDWithString(ACCOUNT)).key; ON_CALL(*rawBackendPtr, doFetchLedgerObject(accountKk, 30, _)) .WillByDefault(Return(Blob{'f', 'a', 'k', 'e'})); auto const ownerDir = CreateOwnerDirLedgerObject( {ripple::uint256{INDEX1}, ripple::uint256{INDEX2}, ripple::uint256{INDEX2}}, INDEX1); auto const ownerDirKk = ripple::keylet::ownerDir(GetAccountIDWithString(ACCOUNT)).key; ON_CALL(*rawBackendPtr, doFetchLedgerObject(ownerDirKk, 30, _)) .WillByDefault(Return(ownerDir.getSerializer().peekData())); EXPECT_CALL(*rawBackendPtr, doFetchLedgerObject).Times(2); // ACCOUNT can receive USD 10 from ACCOUNT2 and send USD 20 to ACCOUNT2, now // the balance is 100, ACCOUNT can only send USD to ACCOUNT2 auto const line1 = CreateRippleStateLedgerObject( ACCOUNT, "USD", ISSUER, 100, ACCOUNT, 10, ACCOUNT2, 20, TXNID, 123, 0); // ACCOUNT2 can receive JPY 10 from ACCOUNT and send JPY 20 to ACCOUNT, now // the balance is 100, ACCOUNT2 can only send JPY to ACCOUNT auto const line2 = CreateRippleStateLedgerObject( ACCOUNT, "JPY", ISSUER, 100, ACCOUNT2, 10, ACCOUNT, 20, TXNID, 123, 0); // ACCOUNT can receive EUR 10 from ACCOUNT and send EUR 20 to ACCOUNT2, now // the balance is 8, ACCOUNT can receive/send EUR to/from ACCOUNT2 auto const line3 = CreateRippleStateLedgerObject( ACCOUNT, "EUR", ISSUER, 8, ACCOUNT, 10, ACCOUNT2, 20, TXNID, 123, 0); std::vector bbs; bbs.push_back(line1.getSerializer().peekData()); bbs.push_back(line2.getSerializer().peekData()); bbs.push_back(line3.getSerializer().peekData()); ON_CALL(*rawBackendPtr, doFetchLedgerObjects).WillByDefault(Return(bbs)); EXPECT_CALL(*rawBackendPtr, doFetchLedgerObjects).Times(1); auto const static input = boost::json::parse(fmt::format( R"({{ "account":"{}" }})", ACCOUNT)); auto const handler = AnyHandler{AccountCurrenciesHandler{mockBackendPtr}}; runSpawn([&](auto& yield) { auto const output = handler.process(input, Context{std::ref(yield)}); ASSERT_TRUE(output); EXPECT_EQ(*output, json::parse(OUTPUT)); }); } TEST_F(RPCAccountCurrenciesHandlerTest, RequestViaLegderHash) { auto const rawBackendPtr = static_cast(mockBackendPtr.get()); mockBackendPtr->updateRange(10); // min mockBackendPtr->updateRange(30); // max // return valid ledgerinfo auto const ledgerinfo = CreateLedgerInfo(LEDGERHASH, 30); EXPECT_CALL(*rawBackendPtr, fetchLedgerByHash).Times(1); ON_CALL(*rawBackendPtr, fetchLedgerByHash(ripple::uint256{LEDGERHASH}, _)) .WillByDefault(Return(ledgerinfo)); // return valid account auto const accountKk = ripple::keylet::account(GetAccountIDWithString(ACCOUNT)).key; ON_CALL(*rawBackendPtr, doFetchLedgerObject(accountKk, 30, _)) .WillByDefault(Return(Blob{'f', 'a', 'k', 'e'})); auto const ownerDir = CreateOwnerDirLedgerObject({ripple::uint256{INDEX1}}, INDEX1); auto const ownerDirKk = ripple::keylet::ownerDir(GetAccountIDWithString(ACCOUNT)).key; ON_CALL(*rawBackendPtr, doFetchLedgerObject(ownerDirKk, 30, _)) .WillByDefault(Return(ownerDir.getSerializer().peekData())); EXPECT_CALL(*rawBackendPtr, doFetchLedgerObject).Times(2); std::vector bbs; auto const line1 = CreateRippleStateLedgerObject( ACCOUNT, "USD", ISSUER, 100, ACCOUNT, 10, ACCOUNT2, 20, TXNID, 123, 0); bbs.push_back(line1.getSerializer().peekData()); ON_CALL(*rawBackendPtr, doFetchLedgerObjects).WillByDefault(Return(bbs)); EXPECT_CALL(*rawBackendPtr, doFetchLedgerObjects).Times(1); auto const static input = boost::json::parse(fmt::format( R"({{ "account":"{}", "ledger_hash":"{}" }})", ACCOUNT, LEDGERHASH)); auto const handler = AnyHandler{AccountCurrenciesHandler{mockBackendPtr}}; runSpawn([&](auto& yield) { auto const output = handler.process(input, Context{std::ref(yield)}); ASSERT_TRUE(output); }); } TEST_F(RPCAccountCurrenciesHandlerTest, RequestViaLegderSeq) { auto const rawBackendPtr = static_cast(mockBackendPtr.get()); mockBackendPtr->updateRange(10); // min mockBackendPtr->updateRange(30); // max auto const ledgerSeq = 29; // return valid ledgerinfo auto const ledgerinfo = CreateLedgerInfo(LEDGERHASH, ledgerSeq); EXPECT_CALL(*rawBackendPtr, fetchLedgerBySequence).Times(1); ON_CALL(*rawBackendPtr, fetchLedgerBySequence(ledgerSeq, _)) .WillByDefault(Return(ledgerinfo)); // return valid account auto const accountKk = ripple::keylet::account(GetAccountIDWithString(ACCOUNT)).key; ON_CALL(*rawBackendPtr, doFetchLedgerObject(accountKk, ledgerSeq, _)) .WillByDefault(Return(Blob{'f', 'a', 'k', 'e'})); auto const ownerDir = CreateOwnerDirLedgerObject({ripple::uint256{INDEX1}}, INDEX1); auto const ownerDirKk = ripple::keylet::ownerDir(GetAccountIDWithString(ACCOUNT)).key; ON_CALL(*rawBackendPtr, doFetchLedgerObject(ownerDirKk, ledgerSeq, _)) .WillByDefault(Return(ownerDir.getSerializer().peekData())); EXPECT_CALL(*rawBackendPtr, doFetchLedgerObject).Times(2); std::vector bbs; auto const line1 = CreateRippleStateLedgerObject( ACCOUNT, "USD", ISSUER, 100, ACCOUNT, 10, ACCOUNT2, 20, TXNID, 123, 0); bbs.push_back(line1.getSerializer().peekData()); ON_CALL(*rawBackendPtr, doFetchLedgerObjects).WillByDefault(Return(bbs)); EXPECT_CALL(*rawBackendPtr, doFetchLedgerObjects).Times(1); auto const static input = boost::json::parse(fmt::format( R"({{ "account":"{}", "ledger_index":{} }})", ACCOUNT, ledgerSeq)); auto const handler = AnyHandler{AccountCurrenciesHandler{mockBackendPtr}}; runSpawn([&](auto& yield) { auto const output = handler.process(input, Context{std::ref(yield)}); ASSERT_TRUE(output); EXPECT_EQ( (*output).as_object().at("ledger_index").as_uint64(), ledgerSeq); }); }