public virtual async Task forkchoiceUpdatedV1_should_communicate_with_boost_relay_through_http()
    {
        MergeConfig mergeConfig = new() { Enabled = true, SecondsPerSlot = 1, TerminalTotalDifficulty = "0" };

        using MergeTestBlockchain chain = await CreateBlockChain(mergeConfig);

        IJsonSerializer serializer = chain.JsonSerializer;

        UInt256           timestamp         = Timestamper.UnixTime.Seconds;
        PayloadAttributes payloadAttributes = new() { Timestamp = timestamp, SuggestedFeeRecipient = Address.Zero, PrevRandao = Keccak.Zero };

        string relayUrl = "http://localhost";
        MockHttpMessageHandler mockHttp = new();

        mockHttp.Expect(HttpMethod.Post, relayUrl + BoostRelay.GetPayloadAttributesPath)
        .WithContent("{\"timestamp\":\"0x3e8\",\"prevRandao\":\"0x0000000000000000000000000000000000000000000000000000000000000000\",\"suggestedFeeRecipient\":\"0x0000000000000000000000000000000000000000\"}")
        .Respond("application/json", "{\"timestamp\":\"0x3e9\",\"prevRandao\":\"0x03783fac2efed8fbc9ad443e592ee30e61d65f471140c10ca155e937b435b760\",\"suggestedFeeRecipient\":\"0xb7705ae4c6f81b66cdb323c65f4e8133690fc099\"}");

        mockHttp.Expect(HttpMethod.Post, relayUrl + BoostRelay.SendPayloadPath)
        .WithContent("{\"block\":{\"parentHash\":\"0x1c53bdbf457025f80c6971a9cf50986974eed02f0a9acaeeb49cafef10efd133\",\"feeRecipient\":\"0xb7705ae4c6f81b66cdb323c65f4e8133690fc099\",\"stateRoot\":\"0x1ef7300d8961797263939a3d29bbba4ccf1702fabf02d8ad7a20b454edb6fd2f\",\"receiptsRoot\":\"0x56e81f171bcc55a6ff8345e692c0f86e5b48e01b996cadc001622fb5e363b421\",\"logsBloom\":\"0x00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000\",\"prevRandao\":\"0x03783fac2efed8fbc9ad443e592ee30e61d65f471140c10ca155e937b435b760\",\"blockNumber\":\"0x1\",\"gasLimit\":\"0x3d0900\",\"gasUsed\":\"0x0\",\"timestamp\":\"0x3e9\",\"extraData\":\"0x\",\"baseFeePerGas\":\"0x0\",\"blockHash\":\"0xb519d89363b891216dbf9bd046f226cae9348a90ba0db00e7ade437fff7a1510\",\"transactions\":[]},\"profit\":\"0x0\"}");

        DefaultHttpClient defaultHttpClient = new(mockHttp.ToHttpClient(), serializer, chain.LogManager, 1, 100);
        BoostRelay        boostRelay        = new(defaultHttpClient, relayUrl);
        BoostBlockImprovementContextFactory improvementContextFactory = new(chain.BlockProductionTrigger, TimeSpan.FromSeconds(5000), boostRelay, chain.StateReader);
        TimeSpan timePerSlot = TimeSpan.FromSeconds(1000);

        chain.PayloadPreparationService = new PayloadPreparationService(
            chain.PostMergeBlockProducer !,
            improvementContextFactory,
            TimerFactory.Default,
            chain.LogManager,
            timePerSlot);

        IEngineRpcModule rpc          = CreateEngineModule(chain);
        Keccak           startingHead = chain.BlockTree.HeadHash;

        ManualResetEvent wait = new(false);

        chain.PayloadPreparationService.BlockImproved += (_, _) => wait.Set();

        string payloadId = rpc.engine_forkchoiceUpdatedV1(new ForkchoiceStateV1(startingHead, Keccak.Zero, startingHead),
                                                          payloadAttributes).Result.Data
                           .PayloadId !;

        await wait.WaitOneAsync(100, CancellationToken.None);

        ResultWrapper <ExecutionPayloadV1?> response = await rpc.engine_getPayloadV1(Bytes.FromHexString(payloadId));

        ExecutionPayloadV1 executionPayloadV1 = response.Data !;

        executionPayloadV1.FeeRecipient.Should().Be(TestItem.AddressA);
        executionPayloadV1.PrevRandao.Should().Be(TestItem.KeccakA);

        mockHttp.VerifyNoOutstandingExpectation();
    }

    [Test]
        private (UInt256, UInt256) AddTransactions(MergeTestBlockchain chain, ExecutionPayloadV1 executePayloadRequest,
                                                   PrivateKey from, Address to, uint count, int value, out BlockHeader parentHeader)
        {
            Transaction[] transactions = BuildTransactions(chain, executePayloadRequest.ParentHash, from, to, count, value,
                                                           out Account accountFrom, out parentHeader);
            executePayloadRequest.SetTransactions(transactions);
            UInt256 totalValue = ((int)(count * value)).GWei();

            return(accountFrom.Balance - totalValue,
                   chain.StateReader.GetBalance(parentHeader.StateRoot !, to) + totalValue);
        }
    public async Task forkchoiceUpdatedV1_should_ignore_gas_limit([Values(false, true)] bool relay)
    {
        MergeConfig mergeConfig = new() { Enabled = true, SecondsPerSlot = 1, TerminalTotalDifficulty = "0" };

        using MergeTestBlockchain chain = await CreateBlockChain(mergeConfig);

        IBlockImprovementContextFactory improvementContextFactory;

        if (relay)
        {
            IBoostRelay boostRelay = Substitute.For <IBoostRelay>();
            boostRelay.GetPayloadAttributes(Arg.Any <PayloadAttributes>(), Arg.Any <CancellationToken>())
            .Returns(c => c.Arg <PayloadAttributes>());

            improvementContextFactory = new BoostBlockImprovementContextFactory(chain.BlockProductionTrigger, TimeSpan.FromSeconds(5), boostRelay, chain.StateReader);
        }
        else
        {
            improvementContextFactory = new BlockImprovementContextFactory(chain.BlockProductionTrigger, TimeSpan.FromSeconds(5));
        }

        TimeSpan timePerSlot = TimeSpan.FromSeconds(10);

        chain.PayloadPreparationService = new PayloadPreparationService(
            chain.PostMergeBlockProducer !,
            improvementContextFactory,
            TimerFactory.Default,
            chain.LogManager,
            timePerSlot);

        IEngineRpcModule rpc          = CreateEngineModule(chain);
        Keccak           startingHead = chain.BlockTree.HeadHash;
        UInt256          timestamp    = Timestamper.UnixTime.Seconds;
        Keccak           random       = Keccak.Zero;
        Address          feeRecipient = Address.Zero;

        string payloadId = rpc.engine_forkchoiceUpdatedV1(new ForkchoiceStateV1(startingHead, Keccak.Zero, startingHead),
                                                          new PayloadAttributes {
            Timestamp = timestamp, SuggestedFeeRecipient = feeRecipient, PrevRandao = random, GasLimit = 10_000_000L
        }).Result.Data
                           .PayloadId !;

        ResultWrapper <ExecutionPayloadV1?> response = await rpc.engine_getPayloadV1(Bytes.FromHexString(payloadId));

        ExecutionPayloadV1 executionPayloadV1 = response.Data !;

        executionPayloadV1.GasLimit.Should().Be(4_000_000L);
    }
    public async Task forkchoiceUpdatedV1_should_communicate_with_boost_relay()
    {
        MergeConfig mergeConfig = new() { Enabled = true, SecondsPerSlot = 1, TerminalTotalDifficulty = "0" };

        using MergeTestBlockchain chain = await CreateBlockChain(mergeConfig);

        IBoostRelay boostRelay = Substitute.For <IBoostRelay>();

        boostRelay.GetPayloadAttributes(Arg.Any <PayloadAttributes>(), Arg.Any <CancellationToken>())
        .Returns(c =>
        {
            PayloadAttributes payloadAttributes     = c.Arg <PayloadAttributes>();
            payloadAttributes.SuggestedFeeRecipient = TestItem.AddressA;
            payloadAttributes.PrevRandao            = TestItem.KeccakA;
            payloadAttributes.Timestamp            += 1;
            payloadAttributes.GasLimit = 10_000_000L;
            return(payloadAttributes);
        });

        BoostBlockImprovementContextFactory improvementContextFactory = new(chain.BlockProductionTrigger, TimeSpan.FromSeconds(5), boostRelay, chain.StateReader);
        TimeSpan timePerSlot = TimeSpan.FromSeconds(10);

        chain.PayloadPreparationService = new PayloadPreparationService(
            chain.PostMergeBlockProducer !,
            improvementContextFactory,
            TimerFactory.Default,
            chain.LogManager,
            timePerSlot);

        IEngineRpcModule rpc          = CreateEngineModule(chain);
        Keccak           startingHead = chain.BlockTree.HeadHash;
        UInt256          timestamp    = Timestamper.UnixTime.Seconds;
        Keccak           random       = Keccak.Zero;
        Address          feeRecipient = Address.Zero;

        BoostExecutionPayloadV1?sentItem = null;

        boostRelay.When(b => b.SendPayload(Arg.Any <BoostExecutionPayloadV1>(), Arg.Any <CancellationToken>()))
        .Do(c => sentItem = c.Arg <BoostExecutionPayloadV1>());

        ManualResetEvent wait = new(false);

        chain.PayloadPreparationService.BlockImproved += (_, _) => wait.Set();

        string payloadId = rpc.engine_forkchoiceUpdatedV1(new ForkchoiceStateV1(startingHead, Keccak.Zero, startingHead),
                                                          new PayloadAttributes {
            Timestamp = timestamp, SuggestedFeeRecipient = feeRecipient, PrevRandao = random
        }).Result.Data
                           .PayloadId !;

        await wait.WaitOneAsync(100, CancellationToken.None);

        ResultWrapper <ExecutionPayloadV1?> response = await rpc.engine_getPayloadV1(Bytes.FromHexString(payloadId));

        ExecutionPayloadV1 executionPayloadV1 = response.Data !;

        executionPayloadV1.FeeRecipient.Should().Be(TestItem.AddressA);
        executionPayloadV1.PrevRandao.Should().Be(TestItem.KeccakA);
        executionPayloadV1.GasLimit.Should().Be(10_000_000L);
        executionPayloadV1.Should().BeEquivalentTo(sentItem !.Block);
        sentItem.Profit.Should().Be(0);
    }