Exemplo n.º 1
0
        public static async Task <LocalTestNet> Setup()
        {
            var localTestNet = new LocalTestNet();

            try
            {
                // Bootstrap local testnode
                // TODO: check cmd args for account options
                localTestNet.TestNodeServer = new TestNodeServer();
                localTestNet.TestNodeServer.RpcServer.Start();

                // Setup rpcclient
                // TODO: check cmd args for gas options
                localTestNet.RpcClient = JsonRpcClient.Create(
                    localTestNet.TestNodeServer.RpcServer.ServerAddress,
                    ArbitraryDefaults.DEFAULT_GAS_LIMIT,
                    ArbitraryDefaults.DEFAULT_GAS_PRICE);

                // Enable Meadow debug RPC features.
                await localTestNet.RpcClient.SetTracingEnabled(true);

                // Configure Meadow rpc error formatter.
                localTestNet.RpcClient.ErrorFormatter = GetExecutionTraceException;

                // Get accounts.
                localTestNet.Accounts = await localTestNet.RpcClient.Accounts();
            }
            catch
            {
                localTestNet.Dispose();
                throw;
            }

            return(localTestNet);
        }
Exemplo n.º 2
0
        public RpcServerProxy(Uri targetHost, int?proxyServerPort = null, IPAddress address = null)
        {
            _proxyClient = JsonRpcClient.Create(targetHost, ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);
            _httpServer  = new JsonRpcHttpServer(_proxyClient, ConfigureWebHost, proxyServerPort, address);

            //var undefinedRpcMethods = this.GetUndefinedRpcMethods();
            //Console.WriteLine("Warning: following RPC methods are not defined: \n" + string.Join(", ", undefinedRpcMethods.Select(r => r.Value())));
        }
Exemplo n.º 3
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        public RpcApp()
        {
            Server = new MockServerApp();
            Server.RpcServer.WebHost.Start();
            var port = Server.RpcServer.ServerPort;

            HttpClient      = JsonRpcClient.Create(new Uri($"http://{IPAddress.Loopback}:{port}"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);
            WebSocketClient = JsonRpcClient.Create(new Uri($"ws://{IPAddress.Loopback}:{port}"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);
        }
Exemplo n.º 4
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        /// <summary>
        /// The default constructor, creates a test chain for tests to share.
        /// </summary>
        public TestChainFixture()
        {
            // Create a test node on this port.
            Server = new Meadow.TestNode.TestNodeServer();
            Server.RpcServer.Start();
            int port = Server.RpcServer.ServerPort;

            // Create our client and grab our account list.
            Client = JsonRpcClient.Create(new Uri($"http://{IPAddress.Loopback}:{port}"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);
        }
Exemplo n.º 5
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        static async Task CreateRunIteration()
        {
            using (var server = new TestNodeServer())
            {
                await server.RpcServer.StartAsync();

                int port = server.RpcServer.ServerPort;

                var client = JsonRpcClient.Create(new Uri($"http://{IPAddress.Loopback}:{port}"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);

                await client.SetCoverageEnabled(true);

                var accounts = await client.Accounts();

                var contract = await BasicContract.New($"TestName", true, 34, client, new TransactionParams { From = accounts[0], Gas = 4712388 }, accounts[0]);

                var snapshotID = await client.Snapshot();

                var initialValCounter = await contract.getValCounter().Call();

                await contract.incrementValCounter();

                var valCounter2 = await contract.getValCounter().Call();

                await client.Revert(snapshotID);

                var finalValCounter = await contract.getValCounter().Call();

                Assert.Equal(0, initialValCounter);
                Assert.Equal(2, valCounter2);
                Assert.Equal(0, finalValCounter);

                var snapshotID2 = await client.Snapshot();

                var contract2 = await BasicContract.New($"TestName", true, 34, client, new TransactionParams { From = accounts[0], Gas = 4712388 }, accounts[0]);

                await contract2.incrementValCounter();

                await client.Revert(snapshotID2);

                var coverage = await client.GetCoverageMap(contract.ContractAddress);
            }
        }
Exemplo n.º 6
0
        public async Task ProxyIntegrationTest(string protocol)
        {
            // create test node server
            using (var server = new TestNodeServer())
            {
                await server.RpcServer.StartAsync();

                // create proxy server pointed to test node server
                var httpServerEndPoint = new Uri($"{protocol}://{IPAddress.Loopback}:{server.RpcServer.ServerPort}");
                using (var proxyServer = new RpcServerProxy(httpServerEndPoint))
                {
                    await proxyServer.StartServerAsync();

                    // create rpc client pointed to proxy server
                    var proxyServerUri = new Uri($"{protocol}://{IPAddress.Loopback}:{proxyServer.ProxyServerPort}");
                    using (var client = JsonRpcClient.Create(proxyServerUri, 100, 100))
                    {
                        var version = await client.Version();
                    }
                }
            }
        }
Exemplo n.º 7
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        public void FullEndToEnd()
        {
            // Find the solution directory (start at this assembly directory and move up).
            string solutionDir = Util.FindSolutionDirectory();

            string testAppDir    = Path.Combine(solutionDir, "Meadow.SolCodeGen.TestApp");
            string testProjPath  = Path.Combine(testAppDir, "Meadow.SolCodeGen.TestApp.csproj");
            string solCodeGenDir = Path.Combine(solutionDir, "Meadow.SolCodeGen");

            string outputDir = Path.Combine(Path.GetTempPath(), Guid.NewGuid().ToString()) + Path.DirectorySeparatorChar;

            // Build the Meadow.SolCodeGen project get its generated nupkg file for install.
            string packageDir;
            string packageVer = DateTime.UtcNow.ToString("yyMM.ddHH.mmss", CultureInfo.InvariantCulture);

            void BuildPackage()
            {
                var output = RunDotnet("build", solCodeGenDir, "-c", "Release", "--no-incremental", "/p:PackageVersion=" + packageVer, "-o", outputDir);
                // Successfully created package 'C:\Users\matt\Projects\Meadow.Core\Meadow.SolCodeGen\bin\Debug\Meadow.SolCodeGen.0.2.1.nupkg'.
                var pubLine = output.Split(new[] { '\n', '\r' }, StringSplitOptions.RemoveEmptyEntries).Last(line => line.Contains(".nupkg", StringComparison.OrdinalIgnoreCase) && line.Contains("Meadow.SolCodeGen", StringComparison.OrdinalIgnoreCase) && line.Contains("created package", StringComparison.OrdinalIgnoreCase));

                packageDir = pubLine.Split("created package '")[1].Split("Meadow.SolCodeGen.")[0];
            }

            BuildPackage();

            // Delete any existing generated contracts.
            string generatedContractsDir = Path.Combine(testAppDir, "GeneratedContracts");

            if (Directory.Exists(generatedContractsDir))
            {
                Directory.Delete(generatedContractsDir, recursive: true);
            }

            // Install the Meadow.SolCodeGen nupkg into the test project.
            void InstallPackage()
            {
                RunDotnet("add", testProjPath, "package", "-s", outputDir, /*packageDir,*/ "-v", packageVer, "Meadow.SolCodeGen");
            }

            InstallPackage();

            // Build the test project (which triggers code generation).
            string compiledAssemblyPath;

            void CompileGeneratedCode()
            {
                // First build command trigger the code generation, but the generated source files do not
                // get added the assembly.
                var output = RunDotnet("build", testProjPath, "-c", "Release", "--no-incremental");

                var lines        = output.Split(new char[] { '\n', '\r' });
                var assemblyLine = lines.Last(p => p.Contains("Meadow.SolCodeGen.TestApp -> ", StringComparison.OrdinalIgnoreCase));

                compiledAssemblyPath = assemblyLine.Split("Meadow.SolCodeGen.TestApp -> ")[1];
            }

            CompileGeneratedCode();

            // Load the compiled assembly at runtime and use reflection to test the generated types.
            void LoadCompiledAssembly()
            {
                var compiledAsm = Assembly.LoadFrom(compiledAssemblyPath);

                var solcData = GeneratedSolcData.Create(compiledAsm).GetSolcData();

                Assert.True(solcData.SolcBytecodeInfo.Length > 0);
                Assert.True(solcData.SolcSourceInfo.Length > 0);

                // var compiledAsm = AssemblyLoadContext.Default.LoadFromAssemblyPath(compiledAssemblyPath);

                var exampleContractType = compiledAsm.GetType("Meadow.SolCodeGen.TestApp.ExampleContract", throwOnError: true);

                Type addressType       = GetTypeByName("Meadow.Core", "Meadow.Core.EthTypes.Address");
                Type jsonRpcClientType = GetTypeByName("Meadow.JsonRpc.Client", "Meadow.JsonRpc.Client.JsonRpcClient");
                Type baseContractType  = GetTypeByName("Meadow.Contract", "Meadow.Contract.BaseContract");

                object contractAddr = Activator.CreateInstance(addressType, "0x0");
                object fromAccount  = Activator.CreateInstance(addressType, "0x0");
                var    rpcClient    = JsonRpcClient.Create(new Uri("http://localhost"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);

                var     atMethod       = exampleContractType.GetMethod("At", BindingFlags.Static | BindingFlags.Public);
                dynamic contractAtTask = atMethod.Invoke(null, new object[] { rpcClient, contractAddr, fromAccount });

                object instance = contractAtTask.Result;

                Assert.True(baseContractType.IsAssignableFrom(instance.GetType()));
            }

            LoadCompiledAssembly();

            // Cleanup - remove nuget package
            void UninstallNugetPackage()
            {
                RunDotnet("remove", testProjPath, "package", "Meadow.SolCodeGen");
            }

            UninstallNugetPackage();

            // Cleanup - delete generated contact source files
            if (Directory.Exists(generatedContractsDir))
            {
                Directory.Delete(generatedContractsDir, recursive: true);
            }
        }
Exemplo n.º 8
0
 public async Task DirectImplementionMethod()
 {
     IRpcControllerMinimal client = JsonRpcClient.Create(new Uri($"http://{IPAddress.Loopback}:{44999}"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);
     await Assert.ThrowsAsync <HttpRequestException>(async() => await client.GetTransactionReceipt(Hash.Zero));
 }
Exemplo n.º 9
0
 public async Task DynamicMethodLookup()
 {
     var client = JsonRpcClient.Create(new Uri($"http://{IPAddress.Loopback}:{44999}"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);
     await Assert.ThrowsAsync <HttpRequestException>(async() => await client.Accounts());
 }
Exemplo n.º 10
0
 public void InitializeClient()
 {
     var client = JsonRpcClient.Create(new Uri($"http://{IPAddress.Loopback}:{9999}"), ArbitraryDefaults.DEFAULT_GAS_LIMIT, ArbitraryDefaults.DEFAULT_GAS_PRICE);
 }
Exemplo n.º 11
0
        static async Task Main(string[] args)
        {
            Console.WriteLine("Starting...");

            int  port;
            bool meadow = true;

            if (!meadow)
            {
                port = 7545;
            }
            else
            {
                // Bootstrap our meadow test node server.
                var testNode = new Meadow.TestNode.TestNodeServer();

                // Print our undefined rpc methods.
                var undefinedRpcMethods = testNode.GetUndefinedRpcMethods();
                Console.WriteLine("Warning: following RPC methods are not defined: \n" + string.Join(", ", undefinedRpcMethods.Select(r => r.Value())));

                // Start up the server and obtain the port.
                await testNode.RpcServer.StartAsync();

                port = testNode.RpcServer.ServerPort;
            }

            async Task <Exception> GetExecutionTraceException(IJsonRpcClient rpcClient, JsonRpcError error)
            {
                if (meadow)
                {
                    var executionTrace = await rpcClient.GetExecutionTrace();

                    var traceAnalysis = new ExecutionTraceAnalysis(executionTrace);

                    // Build our aggregate exception
                    var aggregateException = traceAnalysis.GetAggregateException(error.ToException());
                    return(aggregateException);
                }
                else
                {
                    if (error != null)
                    {
                        throw error.ToException();
                    }
                    else
                    {
                        throw new Exception("Execution exception");
                    }
                }
            }

            // Connect our client to the server.
            var client = JsonRpcClient.Create(
                new Uri($"http://{IPAddress.Loopback}:{port}"),
                defaultGasLimit: 6_000_000,
                defaultGasPrice: 0);

            client.ErrorFormatter = GetExecutionTraceException;

            // If we're testing meadow, we enable special coverage/tracing options.
            if (meadow)
            {
                await client.SetCoverageEnabled(true);

                await client.SetTracingEnabled(true);
            }

            //var missingConstructorContract = await MissingConstructorChild.New(client);
            //var someNum = await missingConstructorContract.someNum().Call();
            #region ErrorContract
            // Try deploying the error generating contract and test some calls.
            var errorContract = await ErrorContract.New(client, new TransactionParams { Gas = 4712388 });

            //await errorContract.doRevert().ExpectRevertTransaction();
            //await errorContract.doAssert().ExpectRevertTransaction();
            //await errorContract.doThrow().ExpectRevertCall();
            #endregion

            #region Inheritance Tests
            // Test inheritance with an inherited contract.
            var inheritedContract = await InheritedContract.New(client, new TransactionParams { Gas = 4712388 });

            await inheritedContract.testFunction();

            await inheritedContract.testFunctionWithInheritedModifier();

            // Test inheritance with a seperate file which we inherited from.
            var multiInheritedContract = await MultifileInheritedContract.New(client, new TransactionParams { Gas = 4712388 });

            await multiInheritedContract.testFunction();

            await multiInheritedContract.testFunctionWithInheritedModifier();

            #endregion

            try
            {
                await FailDeploymentContract.New(client);
            }
            catch { }

            #region Callstack Tests
            // Try throwing asserts in further call depth and spanning more than one file.
            await multiInheritedContract.testInheritedAssertThrow().ExpectRevertTransaction();

            if (meadow)
            {
                // Test parsing an execution trace of the last call/transaction.
                var executionTrace = await client.GetExecutionTrace();

                ExecutionTraceAnalysis traceAnalysis = new ExecutionTraceAnalysis(executionTrace);

                // Testing: Build our aggregate exception
                var aggregateException = traceAnalysis.GetAggregateException();
                try
                {
                    throw aggregateException;
                }
                catch { }
            }
            #endregion

            #region ExampleContract Tests
            // Deploy our main example contract
            var exContract = await ExampleContract.New($"TestName", true, 34, client, new TransactionParams { Gas = 4712388 });

            await exContract.testRevert().ExpectRevertTransaction();

            await exContract.testBranchCoverage().ExpectRevertTransaction();

            if (meadow)
            {
                // Test parsing an execution trace of the last call/transaction.
                var executionTrace = await client.GetExecutionTrace();

                ExecutionTraceAnalysis traceAnalysis = new ExecutionTraceAnalysis(executionTrace);

                // Testing: Build our aggregate exception
                var aggregateException = traceAnalysis.GetAggregateException();
                try
                {
                    throw aggregateException;
                }
                catch { }
            }

            // Test the modexp precompile.
            var modExpTestBytes = await exContract.testModExp(
                BigIntegerConverter.GetBytes(BigInteger.Parse("1212121323543453245345678346345737475734753745737774573475377734577", CultureInfo.InvariantCulture)),
                BigIntegerConverter.GetBytes(BigInteger.Parse("3", CultureInfo.InvariantCulture)),
                BigIntegerConverter.GetBytes(BigInteger.Parse("4345328123928357434573234217343477", CultureInfo.InvariantCulture)))
                                  .Call();

            var modExpTest = BigIntegerConverter.GetBigInteger(modExpTestBytes, false, modExpTestBytes.Length);
            // should be 856753145937825219130387866259147

            // Test events
            var eventTest = await exContract.emitDataEvent(1, 2, 3).TransactionReceipt();

            var eventLogFirst = eventTest.FirstEventLog <ExampleContract.DataEvent>();
            var eventLogLast  = eventTest.LastEventLog <ExampleContract.DataEvent>();
            var eventLogAll   = eventTest.EventLogs <ExampleContract.DataEvent>();
            var eventLogsBase = eventTest.EventLogs();

            // Test for chris
            var result = await exContract.getFirstByteFromByte32(new byte[] { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32 }).Call();

            // Try testing branch coverage (which ends in an assert being thrown)
            await exContract.testBranchCoverage().ExpectRevertTransaction();

            //await exContract.noopFunc();
            var echoGasEst = await exContract.echoInt24(34).EstimateGas();

            await exContract.testInstructions1().TransactionReceipt();

            var transactionReceipt = await exContract.echoInt24(22).TransactionReceipt();

            #endregion

            #region Performance Tests
            // Define start time for an execution loop to test performance of a few basic calls.
            DateTime start     = DateTime.Now;
            DateTime iteration = start;

            // Note: Change the loop condition here as needed.
            for (int i = 0; i < 1; i++)
            {
                var addr = await exContract.echoAddress(new Address(new byte[] { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 }));

                var int24Test = await exContract.echoInt24(7777);

                var stringTest = await exContract.echoString("This is a string.");

                var enabledThingTest = await exContract.enabledThing();

                var isNineTest = await exContract.myFunc(9);

                var givenName = await exContract.givenName();

                // Precompile hash tests
                var sha256HashTest = await exContract.sha256str("hello world");       // should be 0xb94d27b9934d3e08a52e52d7da7dabfac484efe37a5380ee9088f7ace2efcde9

                var ripemd160HashTest = await exContract.ripemd160str("hello world"); // should be 0x98c615784ccb5fe5936fbc0cbe9dfdb408d92f0f

                // This ECRecover test should yield 0x75c8aa4b12bc52c1f1860bc4e8af981d6542cccd. This test data is taken from SigningTests.cs
                var ecRecoverTest = await exContract.testECRecover(
                    new byte[] { 0xc9, 0xf1, 0xc7, 0x66, 0x85, 0x84, 0x5e, 0xa8, 0x1c, 0xac, 0x99, 0x25, 0xa7, 0x56, 0x58, 0x87, 0xb7, 0x77, 0x1b, 0x34, 0xb3, 0x5e, 0x64, 0x1c, 0xca, 0x85, 0xdb, 0x9f, 0xef, 0xd0, 0xe7, 0x1f },
                    0x1c,
                    BigIntegerConverter.GetBytes(BigInteger.Parse("68932463183462156574914988273446447389145511361487771160486080715355143414637", CultureInfo.InvariantCulture)),
                    BigIntegerConverter.GetBytes(BigInteger.Parse("47416572686988136438359045243120473513988610648720291068939984598262749281683", CultureInfo.InvariantCulture)));

                Console.WriteLine($"#{i}: {DateTime.Now - iteration}");
                iteration = DateTime.Now;
            }

            DateTime end = DateTime.Now;
            #endregion

            // If this is meadow, we do special post-execution tasks.
            if (meadow)
            {
                // Test obtaining coverage maps, disabling them, clearing them.
                var coverageMaps = await client.GetAllCoverageMaps();

                await client.SetCoverageEnabled(false);

                await client.ClearCoverage();

                // Obtain our generated solc data, create a report, and open it.
                var solcData = GeneratedSolcData.Default.GetSolcData();

                // Match coverage contract addresses with deployed contracts that the client keeps track of.
                var contractInstances = GeneratedSolcData.Default.MatchCoverageData(coverageMaps);

                var reportPath = Path.GetFullPath("Report");
                MiscUtil.ResetDirectory(reportPath);
                ReportGenerator.CreateReport(GeneratedSolcData.Default.SolidityCompilerVersion, contractInstances, solcData.SolcSourceInfo, solcData.SolcBytecodeInfo, null, null, reportPath);
                MiscUtil.OpenBrowser(Path.Join(reportPath, ReportGenerator.REPORT_INDEX_FILE));
            }

            // Output our execution loop time.
            Console.WriteLine($"Total Time: {end - start}");
            Console.ReadLine();
        }
Exemplo n.º 12
0
        protected override void EndProcessing()
        {
            // Configure Out-Default to automatically place set last command output into variable "$__"
            // See: https://tommymaynard.com/three-ways-to-set-psdefaultparametervalues-2017/
            var psDefaultParameterValues = SessionState.PSVariable.Get("PSDefaultParameterValues");
            var paramDict = (DefaultParameterDictionary)psDefaultParameterValues.Value;

            paramDict["Out-Default:OutVariable"] = "__";

            if (Setup.Equals(WORKSPACE_MANUAL, StringComparison.OrdinalIgnoreCase))
            {
                if (!CheckManualSetup())
                {
                    return;
                }
            }

            if (!Config.CheckFileExists(SessionState.Path.CurrentLocation.Path))
            {
                var configResult = this.Execute <ConfigCommand>((nameof(ConfigCommand.Workspace), Setup));
            }

            var config = this.ReadConfig();

            string rpcServerUri;

            if (Setup.Equals(WORKSPACE_DEVELOPMENT, StringComparison.OrdinalIgnoreCase))
            {
                var startTestServerResult = this.Execute <StartTestServerCommand>();
                rpcServerUri = GlobalVariables.TestNodeServer.RpcServer.ServerAddresses[0];
            }
            else
            {
                var networkHost = config.NetworkHost;
                if (!networkHost.StartsWith("http:", StringComparison.OrdinalIgnoreCase) && !networkHost.StartsWith("https:", StringComparison.OrdinalIgnoreCase))
                {
                    networkHost = "http://" + networkHost;
                }

                if (!Uri.TryCreate(networkHost, UriKind.Absolute, out var hostUri))
                {
                    Host.UI.WriteErrorLine($"Invalid network host / URI specified: '{networkHost}'");
                    return;
                }

                var uriBuilder = new UriBuilder(hostUri);

                bool portSpecifiedInHost = config.NetworkHost.Contains(":" + uriBuilder.Port, StringComparison.Ordinal);

                if (config.NetworkPort == 0 && !portSpecifiedInHost)
                {
                    Host.UI.WriteWarningLine($"The RPC server port is not specified in '{nameof(Config.NetworkHost)}' or '{nameof(Config.NetworkPort)}' config. The default port {uriBuilder.Uri.Port} for {uriBuilder.Scheme} will be used.");
                }

                if (config.NetworkPort != 0)
                {
                    if (portSpecifiedInHost)
                    {
                        Host.UI.WriteWarningLine($"A network port is specified in both config options {nameof(Config.NetworkHost)}={uriBuilder.Port} and {nameof(Config.NetworkPort)}={config.NetworkPort}. Only {uriBuilder.Port} will be used.");
                    }
                    else
                    {
                        uriBuilder.Port = (int)config.NetworkPort;
                    }
                }

                rpcServerUri = $"{uriBuilder.Scheme}://{uriBuilder.Host}:{uriBuilder.Port}";
            }


            var jsonRpcClient = JsonRpcClient.Create(
                new Uri(rpcServerUri),
                defaultGasLimit: config.DefaultGasLimit,
                defaultGasPrice: config.DefaultGasPrice);

            // Perform a json rpc version check to ensure rpc server is reachable
            try
            {
                var networkVersion = jsonRpcClient.Version().GetResultSafe();
                Host.UI.WriteLine($"RPC client connected to server {rpcServerUri}. Network version: {networkVersion}");
            }
            catch (Exception ex)
            {
                Host.UI.WriteErrorLine(ex.ToString());
                Host.UI.WriteErrorLine($"RPC client could not connect to RPC server at {rpcServerUri}. Check your network configuration with '{CmdLetExtensions.GetCmdletName<ConfigCommand>()}'.");

                if (Setup.Equals(WORKSPACE_MANUAL, StringComparison.OrdinalIgnoreCase))
                {
                    if (GlobalVariables.TestNodeServer != null)
                    {
                        Host.UI.WriteErrorLine($"A test RPC server is running at {GlobalVariables.TestNodeServer.RpcServer.ServerAddresses.First()}.");
                    }
                    else
                    {
                        Host.UI.WriteErrorLine($"To start an test RPC server run '{CmdLetExtensions.GetCmdletName<StartTestServerCommand>()}'.");
                    }
                }

                return;
            }

            SessionState.SetRpcClient(jsonRpcClient);

            Address[] accounts;

            if (config.UseLocalAccounts)
            {
                uint chainID;

                if (config.ChainID != 0)
                {
                    chainID = config.ChainID;
                }
                else
                {
                    try
                    {
                        var verString = jsonRpcClient.Version().GetResultSafe();
                        chainID = uint.Parse(verString, CultureInfo.InvariantCulture);
                    }
                    catch (Exception ex)
                    {
                        Host.UI.WriteErrorLine(ex.ToString());
                        Host.UI.WriteErrorLine($"Could not detect chainID from server. Set '{nameof(Config.ChainID)}' using  with '{CmdLetExtensions.GetCmdletName<ConfigCommand>()}'.");
                        Host.UI.WriteLine($"Use {nameof(Config.ChainID)} of 1 for mainnet. See https://github.com/ethereum/EIPs/blob/master/EIPS/eip-155.md#list-of-chain-ids for more information.");
                        return;
                    }
                }

                if ((GlobalVariables.AccountKeys?.Length).GetValueOrDefault() == 0)
                {
                    var localAcountsFile = LocalAccountsUtil.GetDefaultFilePath(SessionState.Path.CurrentLocation.Path);
                    if (File.Exists(localAcountsFile))
                    {
                        if (LocalAccountsUtil.IsEncrypted(localAcountsFile))
                        {
                            WriteWarning($"Local account files exists but is encrypted. The session must be started manually to load encryped accounts. New accounts will be generated in memory instead.");
                            var newAccountsResult = this.Execute <NewAccountsCommand>();
                        }
                        else
                        {
                            var loadAccountsResult = this.Execute <LoadAccountsCommand>();
                        }
                    }
                    else
                    {
                        var newAccountsResult = this.Execute <NewAccountsCommand>();
                    }
                }

                accounts = GlobalVariables.AccountKeys.Select(a => a.Address).ToArray();
                GlobalVariables.ChainID                      = chainID;
                jsonRpcClient.RawTransactionSigner           = CreateRawTransactionSigner();
                jsonRpcClient.TransactionReceiptPollInterval = TimeSpan.FromMilliseconds(500);
            }
            else
            {
                accounts = jsonRpcClient.Accounts().GetResultSafe();
            }

            SessionState.SetAccounts(accounts);

            string solSourceDir = Util.GetSolSourcePath(config, SessionState);

            if (!Directory.Exists(solSourceDir))
            {
                Directory.CreateDirectory(solSourceDir);
            }

            if (Directory.EnumerateFiles(solSourceDir, "*.sol", SearchOption.AllDirectories).Any())
            {
                var compileSolResult = this.Execute <CompileSolidityCommand>();
            }

            var watchSolResult = this.Execute <WatchSolidityCommand>();

            bool failed = false;

            if (failed)
            {
                Environment.Exit(-1);
            }
        }