//------------------------------------------------------------------------------ /* This file is part of rippled: https://github.com/ripple/rippled Copyright (c) 2012, 2013 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 #include #include #include #include #include #include #include #include #include namespace ripple { namespace test { class View_test : public beast::unit_test::suite { // Convert a small integer to a key static Keylet k (std::uint64_t id) { return Keylet{ ltACCOUNT_ROOT, uint256(id)}; } // Create SLE with key and payload static std::shared_ptr sle (std::uint64_t id, std::uint32_t seq = 1) { auto const le = std::make_shared(k(id)); le->setFieldU32(sfSequence, seq); return le; } // Return payload for SLE template static std::uint32_t seq (std::shared_ptr const& le) { return le->getFieldU32(sfSequence); } // Set payload on SLE static void seq (std::shared_ptr const& le, std::uint32_t seq) { le->setFieldU32(sfSequence, seq); } // Erase all state items static void wipe (OpenLedger& openLedger) { openLedger.modify( [](OpenView& view, beast::Journal) { // HACK! boost::optional next; next.emplace(0); for(;;) { next = view.succ(*next); if (! next) break; view.rawErase(std::make_shared( *view.read(keylet::unchecked(*next)))); } return true; }); } static void wipe (Ledger& ledger) { // HACK! boost::optional next; next.emplace(0); for(;;) { next = ledger.succ(*next); if (! next) break; ledger.rawErase(std::make_shared( *ledger.read(keylet::unchecked(*next)))); } } // Test succ correctness void succ (ReadView const& v, std::uint32_t id, boost::optional< std::uint32_t> answer) { auto const next = v.succ(k(id).key); if (answer) { if (BEAST_EXPECT(next)) BEAST_EXPECT(*next == k(*answer).key); } else { BEAST_EXPECT( ! next); } } template static std::shared_ptr< std::remove_const_t> copy (std::shared_ptr const& sp) { return std::make_shared< std::remove_const_t>(*sp); } // Exercise Ledger implementation of ApplyView void testLedger() { using namespace jtx; Env env(*this); Config config; std::shared_ptr const genesis = std::make_shared( create_genesis, config, std::vector{}, env.app().family()); auto const ledger = std::make_shared( *genesis, env.app().timeKeeper().closeTime()); wipe(*ledger); ReadView& v = *ledger; succ(v, 0, boost::none); ledger->rawInsert(sle(1, 1)); BEAST_EXPECT(v.exists(k(1))); BEAST_EXPECT(seq(v.read(k(1))) == 1); succ(v, 0, 1); succ(v, 1, boost::none); ledger->rawInsert(sle(2, 2)); BEAST_EXPECT(seq(v.read(k(2))) == 2); ledger->rawInsert(sle(3, 3)); BEAST_EXPECT(seq(v.read(k(3))) == 3); auto s = copy(v.read(k(2))); seq(s, 4); ledger->rawReplace(std::move(s)); BEAST_EXPECT(seq(v.read(k(2))) == 4); ledger->rawErase(sle(2)); BEAST_EXPECT(! v.exists(k(2))); BEAST_EXPECT(v.exists(k(1))); BEAST_EXPECT(v.exists(k(3))); } void testMeta() { using namespace jtx; Env env(*this); wipe(env.app().openLedger()); auto const open = env.current(); ApplyViewImpl v(&*open, tapNONE); succ(v, 0, boost::none); v.insert(sle(1)); BEAST_EXPECT(v.exists(k(1))); BEAST_EXPECT(seq(v.read(k(1))) == 1); BEAST_EXPECT(seq(v.peek(k(1))) == 1); succ(v, 0, 1); succ(v, 1, boost::none); v.insert(sle(2, 2)); BEAST_EXPECT(seq(v.read(k(2))) == 2); v.insert(sle(3, 3)); auto s = v.peek(k(3)); BEAST_EXPECT(seq(s) == 3); s = v.peek(k(2)); seq(s, 4); v.update(s); BEAST_EXPECT(seq(v.read(k(2))) == 4); v.erase(s); BEAST_EXPECT(! v.exists(k(2))); BEAST_EXPECT(v.exists(k(1))); BEAST_EXPECT(v.exists(k(3))); } // Exercise all succ paths void testMetaSucc() { using namespace jtx; Env env(*this); wipe(env.app().openLedger()); auto const open = env.current(); ApplyViewImpl v0(&*open, tapNONE); v0.insert(sle(1)); v0.insert(sle(2)); v0.insert(sle(4)); v0.insert(sle(7)); { Sandbox v1(&v0); v1.insert(sle(3)); v1.insert(sle(5)); v1.insert(sle(6)); // v0: 12-4--7 // v1: --3-56- succ(v0, 0, 1); succ(v0, 1, 2); succ(v0, 2, 4); succ(v0, 3, 4); succ(v0, 4, 7); succ(v0, 5, 7); succ(v0, 6, 7); succ(v0, 7, boost::none); succ(v1, 0, 1); succ(v1, 1, 2); succ(v1, 2, 3); succ(v1, 3, 4); succ(v1, 4, 5); succ(v1, 5, 6); succ(v1, 6, 7); succ(v1, 7, boost::none); v1.erase(v1.peek(k(4))); succ(v1, 3, 5); v1.erase(v1.peek(k(6))); succ(v1, 5, 7); succ(v1, 6, 7); // v0: 12----7 // v1: --3-5-- v1.apply(v0); } // v0: 123-5-7 succ(v0, 0, 1); succ(v0, 1, 2); succ(v0, 2, 3); succ(v0, 3, 5); succ(v0, 4, 5); succ(v0, 5, 7); succ(v0, 6, 7); succ(v0, 7, boost::none); } void testStacked() { using namespace jtx; Env env(*this); wipe(env.app().openLedger()); auto const open = env.current(); ApplyViewImpl v0 (&*open, tapNONE); v0.rawInsert(sle(1, 1)); v0.rawInsert(sle(2, 2)); v0.rawInsert(sle(4, 4)); { Sandbox v1(&v0); v1.erase(v1.peek(k(2))); v1.insert(sle(3, 3)); auto s = v1.peek(k(4)); seq(s, 5); v1.update(s); BEAST_EXPECT(seq(v1.read(k(1))) == 1); BEAST_EXPECT(! v1.exists(k(2))); BEAST_EXPECT(seq(v1.read(k(3))) == 3); BEAST_EXPECT(seq(v1.read(k(4))) == 5); { Sandbox v2(&v1); auto s = v2.peek(k(3)); seq(s, 6); v2.update(s); v2.erase(v2.peek(k(4))); BEAST_EXPECT(seq(v2.read(k(1))) == 1); BEAST_EXPECT(! v2.exists(k(2))); BEAST_EXPECT(seq(v2.read(k(3))) == 6); BEAST_EXPECT(! v2.exists(k(4))); // discard v2 } BEAST_EXPECT(seq(v1.read(k(1))) == 1); BEAST_EXPECT(! v1.exists(k(2))); BEAST_EXPECT(seq(v1.read(k(3))) == 3); BEAST_EXPECT(seq(v1.read(k(4))) == 5); { Sandbox v2(&v1); auto s = v2.peek(k(3)); seq(s, 6); v2.update(s); v2.erase(v2.peek(k(4))); BEAST_EXPECT(seq(v2.read(k(1))) == 1); BEAST_EXPECT(! v2.exists(k(2))); BEAST_EXPECT(seq(v2.read(k(3))) == 6); BEAST_EXPECT(! v2.exists(k(4))); v2.apply(v1); } BEAST_EXPECT(seq(v1.read(k(1))) == 1); BEAST_EXPECT(! v1.exists(k(2))); BEAST_EXPECT(seq(v1.read(k(3))) == 6); BEAST_EXPECT(! v1.exists(k(4))); v1.apply(v0); } BEAST_EXPECT(seq(v0.read(k(1))) == 1); BEAST_EXPECT(! v0.exists(k(2))); BEAST_EXPECT(seq(v0.read(k(3))) == 6); BEAST_EXPECT(! v0.exists(k(4))); } // Verify contextual information void testContext() { using namespace jtx; using namespace std::chrono; { Env env(*this); wipe(env.app().openLedger()); auto const open = env.current(); OpenView v0(open.get()); BEAST_EXPECT(v0.seq() != 98); BEAST_EXPECT(v0.seq() == open->seq()); BEAST_EXPECT(v0.parentCloseTime() != NetClock::time_point{99s}); BEAST_EXPECT(v0.parentCloseTime() == open->parentCloseTime()); { // shallow copy OpenView v1(v0); BEAST_EXPECT(v1.seq() == v0.seq()); BEAST_EXPECT(v1.parentCloseTime() == v1.parentCloseTime()); ApplyViewImpl v2(&v1, tapNO_CHECK_SIGN); BEAST_EXPECT(v2.parentCloseTime() == v1.parentCloseTime()); BEAST_EXPECT(v2.seq() == v1.seq()); BEAST_EXPECT(v2.flags() == tapNO_CHECK_SIGN); Sandbox v3(&v2); BEAST_EXPECT(v3.seq() == v2.seq()); BEAST_EXPECT(v3.parentCloseTime() == v2.parentCloseTime()); BEAST_EXPECT(v3.flags() == tapNO_CHECK_SIGN); } { ApplyViewImpl v1(&v0, tapNO_CHECK_SIGN); PaymentSandbox v2(&v1); BEAST_EXPECT(v2.seq() == v0.seq()); BEAST_EXPECT(v2.parentCloseTime() == v0.parentCloseTime()); BEAST_EXPECT(v2.flags() == tapNO_CHECK_SIGN); PaymentSandbox v3(&v2); BEAST_EXPECT(v3.seq() == v2.seq()); BEAST_EXPECT(v3.parentCloseTime() == v2.parentCloseTime()); BEAST_EXPECT(v3.flags() == v2.flags()); } } } // Return a list of keys found via sles static std::vector sles (ReadView const& ledger) { std::vector v; v.reserve (32); for(auto const& sle : ledger.sles) v.push_back(sle->key()); return v; } template static std::vector list (Args... args) { return std::vector ({uint256(args)...}); } void testSles() { using namespace jtx; Env env(*this); Config config; std::shared_ptr const genesis = std::make_shared ( create_genesis, config, std::vector{}, env.app().family()); auto const ledger = std::make_shared( *genesis, env.app().timeKeeper().closeTime()); auto setup123 = [&ledger, this]() { // erase middle element wipe (*ledger); ledger->rawInsert (sle (1)); ledger->rawInsert (sle (2)); ledger->rawInsert (sle (3)); BEAST_EXPECT(sles (*ledger) == list (1, 2, 3)); }; { setup123 (); OpenView view (ledger.get ()); view.rawErase (sle (1)); view.rawInsert (sle (4)); view.rawInsert (sle (5)); BEAST_EXPECT(sles (view) == list (2, 3, 4, 5)); auto b = view.sles.begin(); BEAST_EXPECT(view.sles.upper_bound(uint256(1)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(2)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(3)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(4)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(5)) == b); } { setup123 (); OpenView view (ledger.get ()); view.rawErase (sle (1)); view.rawErase (sle (2)); view.rawInsert (sle (4)); view.rawInsert (sle (5)); BEAST_EXPECT(sles (view) == list (3, 4, 5)); auto b = view.sles.begin(); BEAST_EXPECT(view.sles.upper_bound(uint256(1)) == b); BEAST_EXPECT(view.sles.upper_bound(uint256(2)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(3)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(4)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(5)) == b); } { setup123 (); OpenView view (ledger.get ()); view.rawErase (sle (1)); view.rawErase (sle (2)); view.rawErase (sle (3)); view.rawInsert (sle (4)); view.rawInsert (sle (5)); BEAST_EXPECT(sles (view) == list (4, 5)); auto b = view.sles.begin(); BEAST_EXPECT(view.sles.upper_bound(uint256(1)) == b); BEAST_EXPECT(view.sles.upper_bound(uint256(2)) == b); BEAST_EXPECT(view.sles.upper_bound(uint256(3)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(4)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(5)) == b); } { setup123 (); OpenView view (ledger.get ()); view.rawErase (sle (3)); view.rawInsert (sle (4)); view.rawInsert (sle (5)); BEAST_EXPECT(sles (view) == list (1, 2, 4, 5)); auto b = view.sles.begin(); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(1)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(2)) == b); BEAST_EXPECT(view.sles.upper_bound(uint256(3)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(4)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(5)) == b); } { setup123 (); OpenView view (ledger.get ()); view.rawReplace (sle (1, 10)); view.rawReplace (sle (3, 30)); BEAST_EXPECT(sles (view) == list (1, 2, 3)); BEAST_EXPECT(seq (view.read(k (1))) == 10); BEAST_EXPECT(seq (view.read(k (2))) == 1); BEAST_EXPECT(seq (view.read(k (3))) == 30); view.rawErase (sle (3)); BEAST_EXPECT(sles (view) == list (1, 2)); auto b = view.sles.begin(); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(1)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(2)) == b); BEAST_EXPECT(view.sles.upper_bound(uint256(3)) == b); BEAST_EXPECT(view.sles.upper_bound(uint256(4)) == b); BEAST_EXPECT(view.sles.upper_bound(uint256(5)) == b); view.rawInsert (sle (5)); view.rawInsert (sle (4)); view.rawInsert (sle (3)); BEAST_EXPECT(sles (view) == list (1, 2, 3, 4, 5)); b = view.sles.begin(); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(1)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(2)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(3)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(4)) == b); ++b; BEAST_EXPECT(view.sles.upper_bound(uint256(5)) == b); } } void testFlags() { using namespace jtx; Env env(*this); auto const alice = Account("alice"); auto const bob = Account("bob"); auto const carol = Account("carol"); auto const gw = Account("gateway"); auto const USD = gw["USD"]; auto const EUR = gw["EUR"]; env.fund(XRP(10000), alice, bob, carol, gw); env.trust(USD(100), alice, bob, carol); { // Global freezing. env(pay(gw, alice, USD(50))); env(offer(alice, XRP(5), USD(5))); // Now freeze gw. env(fset (gw, asfGlobalFreeze)); env.close(); env(offer(alice, XRP(4), USD(5)), ter(tecFROZEN)); env.close(); // Alice's USD balance should be zero if frozen. BEAST_EXPECT(USD(0) == accountHolds (*env.closed(), alice, USD.currency, gw, fhZERO_IF_FROZEN, env.journal)); // Thaw gw and try again. env(fclear (gw, asfGlobalFreeze)); env.close(); env(offer("alice", XRP(4), USD(5))); } { // Local freezing. env(pay(gw, bob, USD(50))); env.close(); // Now gw freezes bob's USD trust line. env(trust(gw, USD(100), bob, tfSetFreeze)); env.close(); // Bob's balance should be zero if frozen. BEAST_EXPECT(USD(0) == accountHolds (*env.closed(), bob, USD.currency, gw, fhZERO_IF_FROZEN, env.journal)); // gw thaws bob's trust line. bob gets his money back. env(trust(gw, USD(100), bob, tfClearFreeze)); env.close(); BEAST_EXPECT(USD(50) == accountHolds (*env.closed(), bob, USD.currency, gw, fhZERO_IF_FROZEN, env.journal)); } { // accountHolds(). env(pay(gw, carol, USD(50))); env.close(); // carol has no EUR. BEAST_EXPECT(EUR(0) == accountHolds (*env.closed(), carol, EUR.currency, gw, fhZERO_IF_FROZEN, env.journal)); // But carol does have USD. BEAST_EXPECT(USD(50) == accountHolds (*env.closed(), carol, USD.currency, gw, fhZERO_IF_FROZEN, env.journal)); // carol's XRP balance should be her holdings minus her reserve. auto const carolsXRP = accountHolds (*env.closed(), carol, xrpCurrency(), xrpAccount(), fhZERO_IF_FROZEN, env.journal); // carol's XRP balance: 10000 // base reserve: -200 // 1 trust line times its reserve: 1 * -50 // ------- // carol's available balance: 9750 BEAST_EXPECT(carolsXRP == XRP(9750)); // carol should be able to spend *more* than her XRP balance on // a fee by eating into her reserve. env(noop(carol), fee(carolsXRP + XRP(10))); env.close(); // carol's XRP balance should now show as zero. BEAST_EXPECT(XRP(0) == accountHolds (*env.closed(), carol, xrpCurrency(), gw, fhZERO_IF_FROZEN, env.journal)); } { // accountFunds(). // Gateways have whatever funds they claim to have. auto const gwUSD = accountFunds( *env.closed(), gw, USD(314159), fhZERO_IF_FROZEN, env.journal); BEAST_EXPECT(gwUSD == USD(314159)); // carol has funds from the gateway. auto carolsUSD = accountFunds( *env.closed(), carol, USD(0), fhZERO_IF_FROZEN, env.journal); BEAST_EXPECT(carolsUSD == USD(50)); // If carol's funds are frozen she has no funds... env(fset (gw, asfGlobalFreeze)); env.close(); carolsUSD = accountFunds( *env.closed(), carol, USD(0), fhZERO_IF_FROZEN, env.journal); BEAST_EXPECT(carolsUSD == USD(0)); // ... unless the query ignores the FROZEN state. carolsUSD = accountFunds( *env.closed(), carol, USD(0), fhIGNORE_FREEZE, env.journal); BEAST_EXPECT(carolsUSD == USD(50)); // Just to be tidy, thaw gw. env(fclear (gw, asfGlobalFreeze)); env.close(); } } void testTransferRate() { using namespace jtx; Env env(*this); auto const gw1 = Account("gw1"); env.fund(XRP(10000), gw1); env.close(); auto rdView = env.closed(); // Test with no rate set on gw1. BEAST_EXPECT(transferRate (*rdView, gw1) == parityRate); env(rate(gw1, 1.02)); env.close(); rdView = env.closed(); BEAST_EXPECT(transferRate (*rdView, gw1) == Rate{ 1020000000 }); } void testAreCompatible() { // This test requires incompatible ledgers. The good news we can // construct and manage two different Env instances at the same // time. So we can use two Env instances to produce mutually // incompatible ledgers. using namespace jtx; auto const alice = Account("alice"); auto const bob = Account("bob"); // The first Env. Env eA(*this); eA.fund(XRP(10000), alice); eA.close(); auto const rdViewA3 = eA.closed(); eA.fund(XRP(10000), bob); eA.close(); auto const rdViewA4 = eA.closed(); // The two Env's can't share the same ports, so modifiy the config // of the second Env to use higher port numbers Env eB {*this, envconfig(port_increment, 3)}; // Make ledgers that are incompatible with the first ledgers. Note // that bob is funded before alice. eB.fund(XRP(10000), bob); eB.close(); auto const rdViewB3 = eB.closed(); eB.fund(XRP(10000), alice); eB.close(); auto const rdViewB4 = eB.closed(); // Check for compatibility. auto jStream = eA.journal.error(); BEAST_EXPECT( areCompatible (*rdViewA3, *rdViewA4, jStream, "")); BEAST_EXPECT( areCompatible (*rdViewA4, *rdViewA3, jStream, "")); BEAST_EXPECT( areCompatible (*rdViewA4, *rdViewA4, jStream, "")); BEAST_EXPECT(! areCompatible (*rdViewA3, *rdViewB4, jStream, "")); BEAST_EXPECT(! areCompatible (*rdViewA4, *rdViewB3, jStream, "")); BEAST_EXPECT(! areCompatible (*rdViewA4, *rdViewB4, jStream, "")); // Try the other interface. // Note that the different interface has different outcomes. auto const& iA3 = rdViewA3->info(); auto const& iA4 = rdViewA4->info(); BEAST_EXPECT( areCompatible (iA3.hash, iA3.seq, *rdViewA4, jStream, "")); BEAST_EXPECT( areCompatible (iA4.hash, iA4.seq, *rdViewA3, jStream, "")); BEAST_EXPECT( areCompatible (iA4.hash, iA4.seq, *rdViewA4, jStream, "")); BEAST_EXPECT(! areCompatible (iA3.hash, iA3.seq, *rdViewB4, jStream, "")); BEAST_EXPECT( areCompatible (iA4.hash, iA4.seq, *rdViewB3, jStream, "")); BEAST_EXPECT(! areCompatible (iA4.hash, iA4.seq, *rdViewB4, jStream, "")); } void testRegressions() { using namespace jtx; // Create a ledger with 1 item, put a // ApplyView on that, then another ApplyView, // erase the item, apply. { Env env(*this); Config config; std::shared_ptr const genesis = std::make_shared( create_genesis, config, std::vector{}, env.app().family()); auto const ledger = std::make_shared( *genesis, env.app().timeKeeper().closeTime()); wipe(*ledger); ledger->rawInsert(sle(1)); ReadView& v0 = *ledger; ApplyViewImpl v1(&v0, tapNONE); { Sandbox v2(&v1); v2.erase(v2.peek(k(1))); v2.apply(v1); } BEAST_EXPECT(! v1.exists(k(1))); } // Make sure OpenLedger::empty works { Env env(*this); BEAST_EXPECT(env.app().openLedger().empty()); env.fund(XRP(10000), Account("test")); BEAST_EXPECT(! env.app().openLedger().empty()); } } void run() { // This had better work, or else BEAST_EXPECT(k(0).key < k(1).key); testLedger(); testMeta(); testMetaSucc(); testStacked(); testContext(); testSles(); testFlags(); testTransferRate(); testAreCompatible(); testRegressions(); } }; class GetAmendments_test : public beast::unit_test::suite { void testGetAmendments() { using namespace jtx; Env env {*this, envconfig(validator, "")}; // Start out with no amendments. auto majorities = getMajorityAmendments (*env.closed()); BEAST_EXPECT(majorities.empty()); // Now close ledgers until the amendments show up. int i = 0; for (i = 0; i <= 256; ++i) { env.close(); majorities = getMajorityAmendments (*env.closed()); if (! majorities.empty()) break; } // There should be at least 5 amendments. Don't do exact comparison // to avoid maintenance as more amendments are added in the future. BEAST_EXPECT(i == 254); BEAST_EXPECT(majorities.size() >= 5); // None of the amendments should be enabled yet. auto enableds = getEnabledAmendments(*env.closed()); BEAST_EXPECT(enableds.empty()); // Now wait 2 weeks modulo 256 ledgers for the amendments to be // enabled. Speed the process by closing ledgers every 80 minutes, // which should get us to just past 2 weeks after 256 ledgers. for (i = 0; i <= 256; ++i) { using namespace std::chrono_literals; env.close(80min); enableds = getEnabledAmendments(*env.closed()); if (! enableds.empty()) break; } BEAST_EXPECT(i == 255); BEAST_EXPECT(enableds.size() >= 5); } void run() override { testGetAmendments(); } }; BEAST_DEFINE_TESTSUITE(View,ledger,ripple); BEAST_DEFINE_TESTSUITE(GetAmendments,ledger,ripple); } // test } // ripple