//------------------------------------------------------------------------------ /* This file is part of rippled: https://github.com/ripple/rippled Copyright (c) 2023 Ripple Labs Inc. Permission to use, copy, modify, and/or 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 namespace ripple { namespace test { namespace jtx { namespace oracle { struct Oracle_test : public beast::unit_test::suite { private: void testInvalidSet() { testcase("Invalid Set"); using namespace jtx; Account const owner("owner"); { // Invalid account Env env(*this); Account const bad("bad"); env.memoize(bad); Oracle oracle( env, {.owner = bad, .seq = seq(1), .fee = static_cast(env.current()->fees().base.drops()), .err = ter(terNO_ACCOUNT)}); } // Insufficient reserve { Env env(*this); env.fund(env.current()->fees().accountReserve(0), owner); Oracle oracle( env, {.owner = owner, .fee = static_cast(env.current()->fees().base.drops()), .err = ter(tecINSUFFICIENT_RESERVE)}); } // Insufficient reserve if the data series extends to greater than 5 { Env env(*this); env.fund( env.current()->fees().accountReserve(1) + env.current()->fees().base * 2, owner); Oracle oracle( env, {.owner = owner, .fee = static_cast(env.current()->fees().base.drops())}); BEAST_EXPECT(oracle.exists()); oracle.set(UpdateArg{ .series = { {"XRP", "EUR", 740, 1}, {"XRP", "GBP", 740, 1}, {"XRP", "CNY", 740, 1}, {"XRP", "CAD", 740, 1}, {"XRP", "AUD", 740, 1}, }, .fee = static_cast(env.current()->fees().base.drops()), .err = ter(tecINSUFFICIENT_RESERVE)}); } { Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}, false); // Invalid flag oracle.set(CreateArg{ .flags = tfSellNFToken, .fee = baseFee, .err = ter(temINVALID_FLAG)}); // Duplicate token pair oracle.set(CreateArg{ .series = {{"XRP", "USD", 740, 1}, {"XRP", "USD", 750, 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); // Price is not included oracle.set(CreateArg{ .series = {{"XRP", "USD", 740, 1}, {"XRP", "EUR", std::nullopt, 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); // Token pair is in update and delete oracle.set(CreateArg{ .series = {{"XRP", "USD", 740, 1}, {"XRP", "USD", std::nullopt, 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); // Token pair is in add and delete oracle.set(CreateArg{ .series = {{"XRP", "EUR", 740, 1}, {"XRP", "EUR", std::nullopt, 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); // Array of token pair is 0 or exceeds 10 oracle.set(CreateArg{ .series = {{"XRP", "US1", 740, 1}, {"XRP", "US2", 750, 1}, {"XRP", "US3", 740, 1}, {"XRP", "US4", 750, 1}, {"XRP", "US5", 740, 1}, {"XRP", "US6", 750, 1}, {"XRP", "US7", 740, 1}, {"XRP", "US8", 750, 1}, {"XRP", "US9", 740, 1}, {"XRP", "U10", 750, 1}, {"XRP", "U11", 740, 1}}, .fee = baseFee, .err = ter(temARRAY_TOO_LARGE)}); oracle.set(CreateArg{ .series = {}, .fee = baseFee, .err = ter(temARRAY_EMPTY)}); } // Array of token pair exceeds 10 after update { Env env{*this}; auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle( env, CreateArg{ .owner = owner, .series = {{{"XRP", "USD", 740, 1}}}, .fee = baseFee}); oracle.set(UpdateArg{ .series = { {"XRP", "US1", 740, 1}, {"XRP", "US2", 750, 1}, {"XRP", "US3", 740, 1}, {"XRP", "US4", 750, 1}, {"XRP", "US5", 740, 1}, {"XRP", "US6", 750, 1}, {"XRP", "US7", 740, 1}, {"XRP", "US8", 750, 1}, {"XRP", "US9", 740, 1}, {"XRP", "U10", 750, 1}, }, .fee = baseFee, .err = ter(tecARRAY_TOO_LARGE)}); } { Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}, false); // Asset class or provider not included on create oracle.set(CreateArg{ .assetClass = std::nullopt, .provider = "provider", .fee = baseFee, .err = ter(temMALFORMED)}); oracle.set(CreateArg{ .assetClass = "currency", .provider = std::nullopt, .uri = "URI", .fee = baseFee, .err = ter(temMALFORMED)}); // Asset class or provider are included on update // and don't match the current values oracle.set(CreateArg{ .fee = static_cast(env.current()->fees().base.drops())}); BEAST_EXPECT(oracle.exists()); oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .provider = "provider1", .fee = baseFee, .err = ter(temMALFORMED)}); oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .assetClass = "currency1", .fee = baseFee, .err = ter(temMALFORMED)}); } { Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}, false); // Fields too long // Asset class std::string assetClass(17, '0'); oracle.set(CreateArg{ .assetClass = assetClass, .fee = baseFee, .err = ter(temMALFORMED)}); // provider std::string const large(257, '0'); oracle.set(CreateArg{ .provider = large, .fee = baseFee, .err = ter(temMALFORMED)}); // URI oracle.set(CreateArg{ .uri = large, .fee = baseFee, .err = ter(temMALFORMED)}); // Empty field // Asset class oracle.set(CreateArg{ .assetClass = "", .fee = baseFee, .err = ter(temMALFORMED)}); // provider oracle.set(CreateArg{ .provider = "", .fee = baseFee, .err = ter(temMALFORMED)}); // URI oracle.set( CreateArg{.uri = "", .fee = baseFee, .err = ter(temMALFORMED)}); } { // Different owner creates a new object and fails because // of missing fields currency/provider Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); Account const some("some"); env.fund(XRP(1'000), owner); env.fund(XRP(1'000), some); Oracle oracle(env, {.owner = owner, .fee = baseFee}); BEAST_EXPECT(oracle.exists()); oracle.set(UpdateArg{ .owner = some, .series = {{"XRP", "USD", 740, 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); } { // Invalid update time using namespace std::chrono; Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); auto closeTime = [&]() { return duration_cast( env.current()->info().closeTime.time_since_epoch() - 10'000s) .count(); }; env.fund(XRP(1'000), owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}); BEAST_EXPECT(oracle.exists()); env.close(seconds(400)); // Less than the last close time - 300s oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .lastUpdateTime = static_cast(closeTime() - 301), .fee = baseFee, .err = ter(tecINVALID_UPDATE_TIME)}); // Greater than last close time + 300s oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .lastUpdateTime = static_cast(closeTime() + 311), .fee = baseFee, .err = ter(tecINVALID_UPDATE_TIME)}); oracle.set( UpdateArg{.series = {{"XRP", "USD", 740, 1}}, .fee = baseFee}); BEAST_EXPECT(oracle.expectLastUpdateTime( static_cast(testStartTime.count() + 450))); // Less than the previous lastUpdateTime oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .lastUpdateTime = static_cast(449), .fee = baseFee, .err = ter(tecINVALID_UPDATE_TIME)}); // Less than the epoch time oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .lastUpdateTime = static_cast(epoch_offset.count() - 1), .fee = baseFee, .err = ter(tecINVALID_UPDATE_TIME)}); } { // delete token pair that doesn't exist Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}); BEAST_EXPECT(oracle.exists()); oracle.set(UpdateArg{ .series = {{"XRP", "EUR", std::nullopt, std::nullopt}}, .fee = baseFee, .err = ter(tecTOKEN_PAIR_NOT_FOUND)}); // delete all token pairs oracle.set(UpdateArg{ .series = {{"XRP", "USD", std::nullopt, std::nullopt}}, .fee = baseFee, .err = ter(tecARRAY_EMPTY)}); } { // same BaseAsset and QuoteAsset Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle( env, {.owner = owner, .series = {{"USD", "USD", 740, 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); } { // Scale is greater than maxPriceScale Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle( env, {.owner = owner, .series = {{"USD", "BTC", 740, maxPriceScale + 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); } { // Updating token pair to add and delete Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}); oracle.set(UpdateArg{ .series = {{"XRP", "EUR", std::nullopt, std::nullopt}, {"XRP", "EUR", 740, 1}}, .fee = baseFee, .err = ter(temMALFORMED)}); // Delete token pair that doesn't exist in this oracle oracle.set(UpdateArg{ .series = {{"XRP", "EUR", std::nullopt, std::nullopt}}, .fee = baseFee, .err = ter(tecTOKEN_PAIR_NOT_FOUND)}); // Delete token pair in oracle, which is not in the ledger oracle.set(UpdateArg{ .documentID = 10, .series = {{"XRP", "EUR", std::nullopt, std::nullopt}}, .fee = baseFee, .err = ter(temMALFORMED)}); } { // Bad fee Env env(*this); env.fund(XRP(1'000), owner); Oracle oracle( env, {.owner = owner, .fee = -1, .err = ter(temBAD_FEE)}); Oracle oracle1( env, {.owner = owner, .fee = static_cast(env.current()->fees().base.drops())}); oracle.set( UpdateArg{.owner = owner, .fee = -1, .err = ter(temBAD_FEE)}); } } void testCreate() { testcase("Create"); using namespace jtx; Account const owner("owner"); auto test = [&](Env& env, DataSeries const& series, std::uint16_t adj) { auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); auto const count = ownerCount(env, owner); Oracle oracle( env, {.owner = owner, .series = series, .fee = baseFee}); BEAST_EXPECT(oracle.exists()); BEAST_EXPECT(ownerCount(env, owner) == (count + adj)); BEAST_EXPECT(oracle.expectLastUpdateTime(946694810)); }; { // owner count is adjusted by 1 Env env(*this); test(env, {{"XRP", "USD", 740, 1}}, 1); } { // owner count is adjusted by 2 Env env(*this); test( env, {{"XRP", "USD", 740, 1}, {"BTC", "USD", 740, 1}, {"ETH", "USD", 740, 1}, {"CAN", "USD", 740, 1}, {"YAN", "USD", 740, 1}, {"GBP", "USD", 740, 1}}, 2); } { // Different owner creates a new object Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); Account const some("some"); env.fund(XRP(1'000), owner); env.fund(XRP(1'000), some); Oracle oracle(env, {.owner = owner, .fee = baseFee}); BEAST_EXPECT(oracle.exists()); oracle.set(CreateArg{ .owner = some, .series = {{"912810RR9", "USD", 740, 1}}, .fee = baseFee}); BEAST_EXPECT(Oracle::exists(env, some, oracle.documentID())); } } void testInvalidDelete() { testcase("Invalid Delete"); using namespace jtx; Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); Account const owner("owner"); env.fund(XRP(1'000), owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}); BEAST_EXPECT(oracle.exists()); { // Invalid account Account const bad("bad"); env.memoize(bad); oracle.remove( {.owner = bad, .seq = seq(1), .fee = baseFee, .err = ter(terNO_ACCOUNT)}); } // Invalid DocumentID oracle.remove( {.documentID = 2, .fee = baseFee, .err = ter(tecNO_ENTRY)}); // Invalid owner Account const invalid("invalid"); env.fund(XRP(1'000), invalid); oracle.remove( {.owner = invalid, .fee = baseFee, .err = ter(tecNO_ENTRY)}); // Invalid flags oracle.remove( {.flags = tfSellNFToken, .fee = baseFee, .err = ter(temINVALID_FLAG)}); // Bad fee oracle.remove({.fee = -1, .err = ter(temBAD_FEE)}); } void testDelete() { testcase("Delete"); using namespace jtx; Account const owner("owner"); auto test = [&](Env& env, DataSeries const& series, std::uint16_t adj) { auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); Oracle oracle( env, {.owner = owner, .series = series, .fee = baseFee}); auto const count = ownerCount(env, owner); BEAST_EXPECT(oracle.exists()); oracle.remove({.fee = baseFee}); BEAST_EXPECT(!oracle.exists()); BEAST_EXPECT(ownerCount(env, owner) == (count - adj)); }; { // owner count is adjusted by 1 Env env(*this); test(env, {{"XRP", "USD", 740, 1}}, 1); } { // owner count is adjusted by 2 Env env(*this); test( env, { {"XRP", "USD", 740, 1}, {"BTC", "USD", 740, 1}, {"ETH", "USD", 740, 1}, {"CAN", "USD", 740, 1}, {"YAN", "USD", 740, 1}, {"GBP", "USD", 740, 1}, }, 2); } { // deleting the account deletes the oracles Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); auto const alice = Account("alice"); auto const acctDelFee{drops(env.current()->fees().increment)}; env.fund(XRP(1'000), owner); env.fund(XRP(1'000), alice); Oracle oracle( env, {.owner = owner, .series = {{"XRP", "USD", 740, 1}}, .fee = baseFee}); Oracle oracle1( env, {.owner = owner, .documentID = 2, .series = {{"XRP", "EUR", 740, 1}}, .fee = baseFee}); BEAST_EXPECT(ownerCount(env, owner) == 2); BEAST_EXPECT(oracle.exists()); BEAST_EXPECT(oracle1.exists()); auto const index = env.closed()->seq(); auto const hash = env.closed()->info().hash; for (int i = 0; i < 256; ++i) env.close(); env(acctdelete(owner, alice), fee(acctDelFee)); env.close(); BEAST_EXPECT(!oracle.exists()); BEAST_EXPECT(!oracle1.exists()); // can still get the oracles via the ledger index or hash auto verifyLedgerData = [&](auto const& field, auto const& value) { Json::Value jvParams; jvParams[field] = value; jvParams[jss::binary] = false; jvParams[jss::type] = jss::oracle; Json::Value jrr = env.rpc( "json", "ledger_data", boost::lexical_cast(jvParams)); BEAST_EXPECT(jrr[jss::result][jss::state].size() == 2); }; verifyLedgerData(jss::ledger_index, index); verifyLedgerData(jss::ledger_hash, to_string(hash)); } } void testUpdate() { testcase("Update"); using namespace jtx; Account const owner("owner"); { Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); auto count = ownerCount(env, owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}); BEAST_EXPECT(oracle.exists()); // update existing pair oracle.set( UpdateArg{.series = {{"XRP", "USD", 740, 2}}, .fee = baseFee}); BEAST_EXPECT(oracle.expectPrice({{"XRP", "USD", 740, 2}})); // owner count is increased by 1 since the oracle object is added // with one token pair count += 1; BEAST_EXPECT(ownerCount(env, owner) == count); // add new pairs, not-included pair is reset oracle.set( UpdateArg{.series = {{"XRP", "EUR", 700, 2}}, .fee = baseFee}); BEAST_EXPECT(oracle.expectPrice( {{"XRP", "USD", 0, 0}, {"XRP", "EUR", 700, 2}})); // owner count is not changed since the number of pairs is 2 BEAST_EXPECT(ownerCount(env, owner) == count); // update both pairs oracle.set(UpdateArg{ .series = {{"XRP", "USD", 741, 2}, {"XRP", "EUR", 710, 2}}, .fee = baseFee}); BEAST_EXPECT(oracle.expectPrice( {{"XRP", "USD", 741, 2}, {"XRP", "EUR", 710, 2}})); // owner count is not changed since the number of pairs is 2 BEAST_EXPECT(ownerCount(env, owner) == count); // owner count is increased by 1 since the number of pairs is 6 oracle.set(UpdateArg{ .series = { {"BTC", "USD", 741, 2}, {"ETH", "EUR", 710, 2}, {"YAN", "EUR", 710, 2}, {"CAN", "EUR", 710, 2}, }, .fee = baseFee}); count += 1; BEAST_EXPECT(ownerCount(env, owner) == count); // update two pairs and delete four oracle.set(UpdateArg{ .series = {{"BTC", "USD", std::nullopt, std::nullopt}}, .fee = baseFee}); oracle.set(UpdateArg{ .series = {{"XRP", "USD", 742, 2}, {"XRP", "EUR", 711, 2}, {"ETH", "EUR", std::nullopt, std::nullopt}, {"YAN", "EUR", std::nullopt, std::nullopt}, {"CAN", "EUR", std::nullopt, std::nullopt}}, .fee = baseFee}); BEAST_EXPECT(oracle.expectPrice( {{"XRP", "USD", 742, 2}, {"XRP", "EUR", 711, 2}})); // owner count is decreased by 1 since the number of pairs is 2 count -= 1; BEAST_EXPECT(ownerCount(env, owner) == count); } // Min reserve to create and update { Env env(*this); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund( env.current()->fees().accountReserve(1) + env.current()->fees().base * 2, owner); Oracle oracle(env, {.owner = owner, .fee = baseFee}); oracle.set( UpdateArg{.series = {{"XRP", "USD", 742, 2}}, .fee = baseFee}); } } void testMultisig(FeatureBitset features) { testcase("Multisig"); using namespace jtx; Oracle::setFee(100'000); Env env(*this, features); auto const baseFee = static_cast(env.current()->fees().base.drops()); Account const alice{"alice", KeyType::secp256k1}; Account const bogie{"bogie", KeyType::secp256k1}; Account const ed{"ed", KeyType::secp256k1}; Account const becky{"becky", KeyType::ed25519}; Account const zelda{"zelda", KeyType::secp256k1}; Account const bob{"bob", KeyType::secp256k1}; env.fund(XRP(10'000), alice, becky, zelda, ed, bob); // alice uses a regular key with the master disabled. Account const alie{"alie", KeyType::secp256k1}; env(regkey(alice, alie)); env(fset(alice, asfDisableMaster), sig(alice)); // Attach signers to alice. env(signers(alice, 2, {{becky, 1}, {bogie, 1}, {ed, 2}}), sig(alie)); env.close(); // if multiSignReserve disabled then its 2 + 1 per signer int const signerListOwners{features[featureMultiSignReserve] ? 1 : 5}; env.require(owners(alice, signerListOwners)); // Create // Force close (true) and time advancement because the close time // is no longer 0. Oracle oracle( env, CreateArg{.owner = alice, .fee = baseFee, .close = true}, false); oracle.set(CreateArg{ .msig = msig(becky), .fee = baseFee, .err = ter(tefBAD_QUORUM)}); oracle.set(CreateArg{ .msig = msig(zelda), .fee = baseFee, .err = ter(tefBAD_SIGNATURE)}); oracle.set(CreateArg{.msig = msig(becky, bogie), .fee = baseFee}); BEAST_EXPECT(oracle.exists()); // Update oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .msig = msig(becky), .fee = baseFee, .err = ter(tefBAD_QUORUM)}); oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .msig = msig(zelda), .fee = baseFee, .err = ter(tefBAD_SIGNATURE)}); oracle.set(UpdateArg{ .series = {{"XRP", "USD", 741, 1}}, .msig = msig(becky, bogie), .fee = baseFee}); BEAST_EXPECT(oracle.expectPrice({{"XRP", "USD", 741, 1}})); // remove the signer list env(signers(alice, jtx::none), sig(alie)); env.close(); env.require(owners(alice, 1)); // create new signer list env(signers(alice, 2, {{zelda, 1}, {bob, 1}, {ed, 2}}), sig(alie)); env.close(); // old list fails oracle.set(UpdateArg{ .series = {{"XRP", "USD", 740, 1}}, .msig = msig(becky, bogie), .fee = baseFee, .err = ter(tefBAD_SIGNATURE)}); // updated list succeeds oracle.set(UpdateArg{ .series = {{"XRP", "USD", 7412, 2}}, .msig = msig(zelda, bob), .fee = baseFee}); BEAST_EXPECT(oracle.expectPrice({{"XRP", "USD", 7412, 2}})); oracle.set(UpdateArg{ .series = {{"XRP", "USD", 74245, 3}}, .msig = msig(ed), .fee = baseFee}); BEAST_EXPECT(oracle.expectPrice({{"XRP", "USD", 74245, 3}})); // Remove oracle.remove( {.msig = msig(bob), .fee = baseFee, .err = ter(tefBAD_QUORUM)}); oracle.remove( {.msig = msig(becky), .fee = baseFee, .err = ter(tefBAD_SIGNATURE)}); oracle.remove({.msig = msig(ed), .fee = baseFee}); BEAST_EXPECT(!oracle.exists()); } void testAmendment() { testcase("Amendment"); using namespace jtx; auto const features = supported_amendments() - featurePriceOracle; Account const owner("owner"); Env env(*this, features); auto const baseFee = static_cast(env.current()->fees().base.drops()); env.fund(XRP(1'000), owner); { Oracle oracle( env, {.owner = owner, .fee = baseFee, .err = ter(temDISABLED)}); } { Oracle oracle(env, {.owner = owner, .fee = baseFee}, false); oracle.remove({.fee = baseFee, .err = ter(temDISABLED)}); } } public: void run() override { using namespace jtx; auto const all = supported_amendments(); testInvalidSet(); testInvalidDelete(); testCreate(); testDelete(); testUpdate(); testAmendment(); for (auto const& features : {all, all - featureMultiSignReserve - featureExpandedSignerList, all - featureExpandedSignerList}) testMultisig(features); } }; BEAST_DEFINE_TESTSUITE(Oracle, app, ripple); } // namespace oracle } // namespace jtx } // namespace test } // namespace ripple