rippled/src/test/app/Transaction_ordering_test.cpp

#include <test/jtx.h>

#include <xrpl/core/JobQueue.h>

namespace xrpl {
namespace test {

struct Transaction_ordering_test : public beast::unit_test::suite
{
    void
    testCorrectOrder()
    {
        using namespace jtx;
        testcase("Correct Order");

        Env env(*this);
        auto const alice = Account("alice");
        env.fund(XRP(1000), noripple(alice));

        auto const aliceSequence = env.seq(alice);

        auto const tx1 = env.jt(noop(alice), seq(aliceSequence));
        auto const tx2 = env.jt(noop(alice), seq(aliceSequence + 1), last_ledger_seq(7));

        env(tx1);
        env.close();
        BEAST_EXPECT(env.seq(alice) == aliceSequence + 1);
        env(tx2);
        env.close();
        BEAST_EXPECT(env.seq(alice) == aliceSequence + 2);

        env.close();

        {
            auto const result = env.rpc("tx", to_string(tx1.stx->getTransactionID()));
            BEAST_EXPECT(result["result"]["meta"]["TransactionResult"] == "tesSUCCESS");
        }
        {
            auto const result = env.rpc("tx", to_string(tx2.stx->getTransactionID()));
            BEAST_EXPECT(result["result"]["meta"]["TransactionResult"] == "tesSUCCESS");
        }
    }

    void
    testIncorrectOrder()
    {
        using namespace jtx;

        testcase("Incorrect order");

        Env env(*this, envconfig([](std::unique_ptr<Config> cfg) {
            cfg->FORCE_MULTI_THREAD = false;
            return cfg;
        }));

        auto const alice = Account("alice");
        env.fund(XRP(1000), noripple(alice));

        auto const aliceSequence = env.seq(alice);

        auto const tx1 = env.jt(noop(alice), seq(aliceSequence));
        auto const tx2 = env.jt(noop(alice), seq(aliceSequence + 1), last_ledger_seq(7));

        env(tx2, ter(terPRE_SEQ));
        BEAST_EXPECT(env.seq(alice) == aliceSequence);
        env(tx1);
        env.app().getJobQueue().rendezvous();
        BEAST_EXPECT(env.seq(alice) == aliceSequence + 2);

        env.close();

        {
            auto const result = env.rpc("tx", to_string(tx1.stx->getTransactionID()));
            BEAST_EXPECT(result["result"]["meta"]["TransactionResult"] == "tesSUCCESS");
        }
        {
            auto const result = env.rpc("tx", to_string(tx2.stx->getTransactionID()));
            BEAST_EXPECT(result["result"]["meta"]["TransactionResult"] == "tesSUCCESS");
        }
    }

    void
    testIncorrectOrderMultipleIntermediaries()
    {
        using namespace jtx;

        testcase("Incorrect order multiple intermediaries");

        Env env(*this, envconfig([](std::unique_ptr<Config> cfg) {
            cfg->FORCE_MULTI_THREAD = true;
            return cfg;
        }));

        auto const alice = Account("alice");
        env.fund(XRP(1000), noripple(alice));

        auto const aliceSequence = env.seq(alice);

        std::vector<JTx> tx;
        for (auto i = 0; i < 5; ++i)
        {
            tx.emplace_back(env.jt(noop(alice), seq(aliceSequence + i), last_ledger_seq(7)));
        }

        for (auto i = 1; i < 5; ++i)
        {
            env(tx[i], ter(terPRE_SEQ));
            BEAST_EXPECT(env.seq(alice) == aliceSequence);
        }

        env(tx[0]);
        env.app().getJobQueue().rendezvous();
        BEAST_EXPECT(env.seq(alice) == aliceSequence + 5);

        env.close();

        for (auto i = 0; i < 5; ++i)
        {
            auto const result = env.rpc("tx", to_string(tx[i].stx->getTransactionID()));
            BEAST_EXPECT(result["result"]["meta"]["TransactionResult"] == "tesSUCCESS");
        }
    }

    void
    run() override
    {
        testCorrectOrder();
        testIncorrectOrder();
        testIncorrectOrderMultipleIntermediaries();
    }
};

BEAST_DEFINE_TESTSUITE(Transaction_ordering, app, xrpl);

}  // namespace test
}  // namespace xrpl