public static bool WeakHeaderCheck(List <Cell> cells)
{
int colCount = 0;
if (cells.Count < 3)
{
return(false);
}
foreach (var c in cells)
{
if (colCount == 0 && HeaderHelpers.IsNumber(c.Text))
{
return(true);
}
if (HeaderHelpers.IsName(c.Text))
{
return(true);
}
colCount += 1;
if (colCount > 3)
{
break;
}
}
return(false);
}
public void HeaderDetectionTest()
{
string big_header = "Объекты недвижимости, находящиеся в собственности Вид\nсобствен\nности";
DeclarationField field = HeaderHelpers.GetField(big_header);
big_header = "Объекты недвижимости имущества находящиеся в пользовании Вид обьекта";
field = HeaderHelpers.GetField(big_header);
}
static public void MapStringsToConstants(IAdapter adapter, List <Cell> cells, ColumnOrdering columnOrdering)
{
foreach (var cell in cells)
{
string text = cell.GetText(true);
Logger.Debug(string.Format("column title: \"{0}\"[{1}]", text.ReplaceEolnWithSpace().CoalesceWhitespace(), cell.CellWidth));
DeclarationField field;
string clean_text = AbsenceMarkers.Aggregate(text, (x, y) => x.Replace(y, "")).Trim();
if (adapter.GetRowsCount() == cell.MergedRowsCount)
{
continue;
}
if ((text == "" || clean_text.Length <= 1) && (text != "№"))
{
// too short title, try to predict by values
field = ColumnPredictor.PredictEmptyColumnTitle(adapter, cell);
Logger.Debug("Predict: " + field.ToString());
}
else
{
if (cell.TextAbove != null)
{
text = cell.TextAbove + " " + text;
}
field = HeaderHelpers.TryGetField(text.Replace('\n', ' '));
if ((field == DeclarationField.None) && clean_text.Length <= 4)
{
field = ColumnPredictor.PredictEmptyColumnTitle(adapter, cell);
Logger.Debug("Predict: " + field.ToString());
}
if (field == DeclarationField.None)
{
throw new SmartParserException(String.Format("Cannot recognize field \"{0}\"", text.Replace('\n', ' ')));
}
}
if (field == DeclarationField.None && !DataHelper.IsEmptyValue(text))
{
throw new ColumnDetectorException(String.Format("Fail to detect column type row: {0} title:{1}", cell.Row, text));
}
if (ColumnPredictor.CalcPrecision)
{
ColumnPredictor.PredictForPrecisionCheck(adapter, cell, field);
}
AddColumn(columnOrdering, field, cell);
if (ColumnOrdering.SearchForFioColumnOnly)
{
if (field == DeclarationField.NameAndOccupationOrRelativeType ||
field == DeclarationField.NameOrRelativeType)
{
break;
}
}
}
}
public static DeclarationField PredictEmptyColumnTitle(IAdapter adapter, Cell headerCell)
{
List <string> texts = new List <string>();
int rowIndex = headerCell.Row + headerCell.MergedRowsCount;
const int maxRowToCollect = 10;
for (int i = 0; i < maxRowToCollect; i++)
{
var cells = adapter.GetCells(rowIndex, IAdapter.MaxColumnsCount);
string dummy;
if (IAdapter.IsSectionRow(cells, adapter.GetColsCount(), false, out dummy))
{
rowIndex += 1;
}
else
{
var c = adapter.GetCell(rowIndex, headerCell.Col);
if (c != null)
{
texts.Add(c.GetText(true));
rowIndex += c.MergedRowsCount;
}
else
{
rowIndex += 1;
}
}
if (rowIndex >= adapter.GetRowsCount())
{
break;
}
}
var field = PredictByStrings(texts);
if (headerCell.TextAbove != null && ((field & DeclarationField.AllOwnTypes) > 0))
{
string h = headerCell.TextAbove;
// AllOwnTypes defined from
field &= ~DeclarationField.AllOwnTypes;
if (HeaderHelpers.IsMixedColumn(h))
{
field |= DeclarationField.Mixed;
}
else if (HeaderHelpers.IsStateColumn(h))
{
field |= DeclarationField.State;
}
else if (HeaderHelpers.IsOwnedColumn(h))
{
field |= DeclarationField.Owned;
}
}
Logger.Debug(string.Format("predict by {0} -> {1}",
String.Join("\\n", texts), field));
return(field);
}
public static DeclarationField GetField(string str)
{
var f = HeaderHelpers.TryGetField("", str);
if (f == DeclarationField.None)
{
throw new Exception($"Could not determine column type for header {str}.");
}
return(f);
}
private void ProcessHeader(string headerName, string headerValue)
{
//Save the "RAW" header value text
if (!Headers.ContainsKey(headerName))
{
Headers[headerName] = new List <string>();
}
Headers[headerName].Add(headerValue);
if (HeaderHelpers.LookupComapactHeader(headerName).Equals("Via"))
{
ViaSipHeaderValue viaHeaderValue = ViaSipHeaderValue.ParseViaHeaderValue(headerValue);
ViaHeaders.Add(viaHeaderValue);
}
}
public void Detect()
{
if (context.Request.Headers.ContentType.HasValue)
{
HeaderHelpers.GetContentMediaTypeAndCharset(context.Request.Headers.ContentType.Value, out mediaType,
out charsetEncoding);
}
if (mediaType == null)
{
mediaType = MediaType.None;
}
if (charsetEncoding == null)
{
charsetEncoding = Encoding.UTF8;
}
isHeaderRead = true;
}
private static void ExecuteInternal(BrokeredMessage message, out BrokeredMessage response)
{
// We must set the out parameter no matter what, so do that first.
response = new BrokeredMessage();
// We'll create the app domain in the outer scope so we can unload it when we are finished (if it was created).
AppDomain sandboxDomain = null;
try
{
var requestId = (int)message.Properties["RequestId"];
// Set correlation id of response message using the correlation ID of the request message.
response.CorrelationId = message.CorrelationId;
response.Properties["RequestId"] = requestId;
// The request will also load the associated route, so we'll use that feature
// to reduce the number of SQL calls we make.
var requestTask = TraceUtility.TraceTime("Get Load Request Task", () => Program.RequestRepository.GetRequestByIdAsync(requestId));
TraceUtility.TraceTime("Load Request", () => requestTask.Wait());
var request = requestTask.Result;
var route = request.Route;
var routeSettings = route.RouteSettings;
// Trace the incoming request URI.
Trace.TraceInformation("Trace 'Request Uri' - {0}", request.Uri);
try
{
var ev = new Evidence();
ev.AddHostEvidence(new Zone(SecurityZone.Internet));
var assemblyType = typeof(ExecutionSandbox);
var assemblyPath = Path.GetDirectoryName(assemblyType.Assembly.Location);
var sandboxPermissionSet = TraceUtility.TraceTime("Create Sandbox Permission Set", () => SecurityManager.GetStandardSandbox(ev));
// Exit with an error code if for some reason we can't get the sandbox permission set.
if (sandboxPermissionSet == null)
{
throw new EntryPointException("Unable to load the sandbox environment, please contact Subroute.io for help with this error.");
}
TraceUtility.TraceTime("Reconfigure Appropriate Permission Sets", () =>
{
// Remove access to UI components since we are in a headless environment.
sandboxPermissionSet.RemovePermission(typeof(UIPermission));
// Remove access to the File System Dialog since we are headless.
sandboxPermissionSet.RemovePermission(typeof(FileDialogPermission));
// Add the ability to use reflection for invocation and serialization.
sandboxPermissionSet.AddPermission(new ReflectionPermission(PermissionState.Unrestricted));
// Add the ability to make web requests.
sandboxPermissionSet.AddPermission(new WebPermission(PermissionState.Unrestricted));
// Add the ability to use the XmlSerializer and the DataContractSerializer.
sandboxPermissionSet.AddPermission(new SecurityPermission(SecurityPermissionFlag.SerializationFormatter));
});
// We'll create a new folder to hold an empty config file we create, and by
// doing this, it prevents the user from gaining access to our configuration
// file and the settings within, such as connection strings, infrastructure
// and other sensitive information we don't want them to have. Plus it will
// allow us to change any configuration settings that are specific to their
// application domain, such as default settings and other infrastructure.
// We must ensure that we have at least the root configuration XML tag in
// the configuration file we create or various dependencies will fail
// such as XmlSerializer and DataContractSerializer.
var tempDirectory = Path.GetTempPath();
var userConfigDirectory = Path.Combine(tempDirectory, route.Uri);
var userConfigFilePath = Path.Combine(userConfigDirectory, "app.config");
TraceUtility.TraceTime("Create Sandbox Directory", () => Directory.CreateDirectory(userConfigDirectory));
var configFile = TraceUtility.TraceTime("Generate App.Config File", () => routeSettings.Aggregate(@"<?xml version=""1.0"" encoding=""utf-8"" ?><configuration><appSettings>",
(current, setting) => current + $"<add key=\"{setting.Name}\" value=\"{setting.Value}\" />{Environment.NewLine}",
result => $"{result}</appSettings></configuration>"));
TraceUtility.TraceTime("Write App.Config to Disk", () => File.WriteAllText(userConfigFilePath, configFile));
// We'll add one last permission to allow the user access to their own private folder.
TraceUtility.TraceTime("Add Permission to Read App.Config File", () => sandboxPermissionSet.AddPermission(new FileIOPermission(FileIOPermissionAccess.Read, new[] { userConfigDirectory })));
TraceUtility.TraceTime("Create AppDomain", () =>
{
var appDomainSetup = new AppDomainSetup {
ApplicationBase = assemblyPath, ConfigurationFile = userConfigFilePath
};
sandboxDomain = AppDomain.CreateDomain("Sandboxed", ev, appDomainSetup, sandboxPermissionSet);
});
// The ExecutionSandbox is a MarshalByRef type that allows us to dynamically
// load their assemblies via a byte array and execute methods inside of
// their app domain from out full-trust app domain. It's the bridge that
// cross the app domain boundary.
var executionSandbox = TraceUtility.TraceTime("Create ExecutionSandbox Instance", () => (ExecutionSandbox)sandboxDomain.CreateInstance(
assemblyType.Assembly.FullName,
assemblyType.FullName,
false,
BindingFlags.Public | BindingFlags.Instance,
null, null, null, null)
.Unwrap());
// Build the ExecutionRequest object that represents the incoming request
// which holds the payload, headers, method, etc. The class is serialized
// so it can cross the app domain boundary. So it's serialized in our
// full-trust host app domain, and deserialized and reinstantiated in
// the sandbox app domain.
var uri = new Uri(request.Uri, UriKind.Absolute);
var executionRequest = TraceUtility.TraceTime("Create RouteRequest Instance", () => new RouteRequest(uri, request.Method)
{
IpAddress = request.IpAddress,
Headers = HeaderHelpers.DeserializeHeaders(request.RequestHeaders),
Body = request.RequestPayload
});
try
{
// The ExecutionSandbox we'll attempt to locate the best method to execute
// based on the incoming request method (GET, POST, DELETE, etc.) and
// will pass the ExecutionRequest we created above. In return, we receive
// an instance of ExecutionResponse that has been serialized like the request
// and deserialized in our full-trust host domain.
var executionResponse = TraceUtility.TraceTime("Load and Execute Route", () => executionSandbox.Execute(route.Assembly, executionRequest));
// We'll use the data that comes back from the response to fill out the
// remaineder of the database request record which will return the status
// code, message, payload, and headers. Then we update the database.
TraceUtility.TraceTime("Update Request Record", () =>
{
request.CompletedOn = DateTimeOffset.UtcNow;
request.StatusCode = (int)executionResponse.StatusCode;
request.StatusMessage = executionResponse.StatusMessage;
request.ResponsePayload = executionResponse.Body;
request.ResponseHeaders = Common.RouteResponse.SerializeHeaders(executionResponse.Headers);
Program.RequestRepository.UpdateRequestAsync(request).Wait();
});
// We'll pass back a small bit of data indiciating to the subscribers of
// the response topic listening for our specific correlation ID that indicates
// the route code was executed successfully and to handle it as such.
response.Properties["Result"] = (int)ExecutionResult.Success;
response.Properties["Message"] = "Completed Successfully";
}
catch (TargetInvocationException invokationException)
{
// These exceptions can occur when we encounter a permission exception where
// the user doesn't have permission to execute a particular block of code.
var securityException = invokationException.InnerException as SecurityException;
if (securityException != null)
{
throw new RoutePermissionException(GetPermissionErrorMessage(securityException), invokationException);
}
// Check for BadRequestException, we need to wrap it with the core exception.
// These exceptions can occur when query string parsing fails, and since the
// user's code doesn't have access to the core exceptions, we'll need to wrap
// it instead manually.
var badRequestException = invokationException.InnerException as Common.BadRequestException;
if (badRequestException != null)
{
throw new Core.Exceptions.BadRequestException(badRequestException.Message, badRequestException);
}
// Otherwise it is most likely a custom user exception.
throw new CodeException(invokationException.InnerException?.Message ?? "Route raised a custom exception.", invokationException.InnerException);
}
catch (EntryPointException entryPointException)
{
// These exceptions occur when an entry point could not be located.
// Since we don't have a reference to core in the common library.
// We'll instead wrap this exception in a core
// exception to apply a status code.
throw new RouteEntryPointException(entryPointException.Message, entryPointException);
}
catch (SecurityException securityException)
{
// These exceptions can occur when we encounter a permission exception where
// the user doesn't have permission to execute a particular block of code.
throw new RoutePermissionException(GetPermissionErrorMessage(securityException), securityException);
}
catch (Common.BadRequestException badRequestException)
{
// These exceptions can occur when query string parsing fails, and since the
// user's code doesn't have access to the core exceptions, we'll need to wrap
// it instead manually.
throw new Core.Exceptions.BadRequestException(badRequestException.Message, badRequestException);
}
catch (Exception routeException)
{
// These are all other exceptions that occur during the execution of
// a route. These exceptions are raised by the users code.
throw new RouteException(routeException.Message, routeException);
}
}
catch (Exception appDomainException)
{
// This exception relates to exceptions configuring the AppDomain and we'll still notify the
// user, we just won't give them specific information that could reveal our infrastructure
// unless an IStatusCodeException was thrown, meaning it's a public exception.
var statusCode = 500;
var statusMessage = "An unexpected exception has occurred. Please contact Subroute.io regarding this error.";
var statusCodeException = appDomainException as IStatusCodeException;
string stackTrace = null;
if (statusCodeException != null)
{
statusCode = (int)statusCodeException.StatusCode;
statusMessage = appDomainException.Message;
if (appDomainException is CodeException)
{
stackTrace = appDomainException.ToString();
}
}
request.CompletedOn = DateTimeOffset.UtcNow;
request.StatusCode = statusCode;
request.ResponsePayload = PayloadHelpers.CreateErrorPayload(statusMessage, stackTrace);
request.ResponseHeaders = HeaderHelpers.GetDefaultHeaders();
Program.RequestRepository.UpdateRequestAsync(request).Wait();
response.Properties["Result"] = (int)ExecutionResult.Failed;
response.Properties["Message"] = appDomainException.Message;
}
}
catch (Exception fatalException)
{
// These exceptions are absolutely fatal. We'll have to notify the waiting thread
// via the service bus message, because we're unable to load a related request.
response.Properties["Result"] = (int)ExecutionResult.Fatal;
response.Properties["Message"] = fatalException.Message;
}
finally
{
// Unload the users app domain to recover all memory used by it.
if (sandboxDomain != null)
{
TraceUtility.TraceTime("Unload AppDomain", () => AppDomain.Unload(sandboxDomain));
}
}
}
private static async Task ExecuteInternalAsync(BrokeredMessage message, ICollector <BrokeredMessage> response)
{
// We'll always need a response message, so create it now and populate it below.
var responseMessage = new BrokeredMessage();
// We'll create the app domain in the outer scope so we can unload it when we are finished (if it was created).
AppDomain sandboxDomain = null;
try
{
var requestId = (int)message.Properties["RequestId"];
// Set correlation id of response message using the correlation ID of the request message.
responseMessage.CorrelationId = message.CorrelationId;
responseMessage.Properties["RequestId"] = requestId;
// The request will also load the associated route, so we'll use that feature
// to reduce the number of SQL calls we make.
var request = await Program.RequestRepository.GetRequestByIdAsync(requestId).TraceTimeAsync("Load Request");
var route = request.Route;
var routeSettings = route.RouteSettings.ToArray();
var routePackages = route.RoutePackages.ToArray();
// Trace the incoming request URI.
Trace.TraceInformation("Trace 'Request Uri' - {0}", request.Uri);
try
{
var ev = new Evidence();
ev.AddHostEvidence(new Zone(SecurityZone.Internet));
var assemblyType = typeof(ExecutionSandbox);
var assemblyPath = Path.GetDirectoryName(assemblyType.Assembly.Location);
var sandboxPermissionSet = TraceUtility.TraceTime("Create Sandbox Permission Set",
() => SecurityManager.GetStandardSandbox(ev));
// Exit with an error code if for some reason we can't get the sandbox permission set.
if (sandboxPermissionSet == null)
{
throw new EntryPointException("Unable to load the sandbox environment, please contact Subroute.io for help with this error.");
}
// We'll create a new folder to hold an empty config file we create, and by
// doing this, it prevents the user from gaining access to our configuration
// file and the settings within, such as connection strings, infrastructure
// and other sensitive information we don't want them to have. Plus it will
// allow us to change any configuration settings that are specific to their
// application domain, such as default settings and other infrastructure.
// We must ensure that we have at least the root configuration XML tag in
// the configuration file we create or various dependencies will fail
// such as XmlSerializer and DataContractSerializer.
var directories = TraceUtility.TraceTime("Setup Filesystem",
() => SetupFilesystem(route, routeSettings));
TraceUtility.TraceTime("Reconfigure Appropriate Permission Sets", () =>
{
// Remove access to UI components since we are in a headless environment.
sandboxPermissionSet.RemovePermission(typeof(UIPermission));
// Remove access to the File System Dialog since we are headless.
sandboxPermissionSet.RemovePermission(typeof(FileDialogPermission));
// Add the ability to use reflection for invocation and serialization.
sandboxPermissionSet.AddPermission(new ReflectionPermission(PermissionState.Unrestricted));
// Add the ability to make web requests.
sandboxPermissionSet.AddPermission(new WebPermission(PermissionState.Unrestricted));
// Add the ability to use the XmlSerializer and the DataContractSerializer.
// Also allows unmanaged code to be executed for drawing operations such as image resize and formatting.
sandboxPermissionSet.AddPermission(new SecurityPermission(SecurityPermissionFlag.SerializationFormatter | SecurityPermissionFlag.UnmanagedCode));
// Add permission to access the nuget package directory so that assemblies can be loaded.
sandboxPermissionSet.AddPermission(new FileIOPermission(FileIOPermissionAccess.PathDiscovery | FileIOPermissionAccess.Read, Settings.NugetPackageDirectory));
// Add permission to read execution temp directory.
sandboxPermissionSet.AddPermission(new FileIOPermission(FileIOPermissionAccess.Read, new[] { directories.RootDirectory, @"D:\GitHub\subroute.io\Subroute.Container\App_code\" }));
});
TraceUtility.TraceTime("Create AppDomain", () =>
{
var appDomainSetup = new AppDomainSetup {
ApplicationBase = assemblyPath, ConfigurationFile = directories.ConfigFile
};
sandboxDomain = AppDomain.CreateDomain("Sandboxed", ev, appDomainSetup, sandboxPermissionSet);
});
// The ExecutionSandbox is a MarshalByRef type that allows us to dynamically
// load their assemblies via a byte array and execute methods inside of
// their app domain from our full-trust app domain. It's the bridge that
// crosses the app domain boundary.
var executionSandbox = TraceUtility.TraceTime("Create ExecutionSandbox Instance",
() => (ExecutionSandbox)sandboxDomain.CreateInstance(
assemblyType.Assembly.FullName,
assemblyType.FullName,
false,
BindingFlags.Public | BindingFlags.Instance,
null, null, null, null)
.Unwrap());
// Prepare packages by locating the proper assemblies for the current framework and ensure
// they have been downloaded to the packages folder and return their paths.
executionSandbox.SetReferences(await PreparePackagesAsync(routePackages).TraceTimeAsync("Prepare Packages"));
// To properly load assemblies into the dynamic partial trust assembly, we have to override
// the AssemblyResolve method which is only called when an assembly load attempt is made
// and fails. We can't use a closure here because to do that, the entire class ExecutionMethods
// would have to be serailized across the app domain boundry. So we'll add a string array property
// to the ExecutionSandbox class so we can access the references from in the app domain boundry.
// Just remember this event is executed inside the partial trust domain.
sandboxDomain.AssemblyResolve += (sender, args) =>
{
var name = new AssemblyName(args.Name);
var path = ExecutionSandbox.References.FirstOrDefault(r => Path.GetFileNameWithoutExtension(r) == name.Name);
return(path == null ? null : Assembly.LoadFrom(path));
};
// Build the ExecutionRequest object that represents the incoming request
// which holds the payload, headers, method, etc. The class is serialized
// so it can cross the app domain boundary. So it's serialized in our
// full-trust host app domain, and deserialized and reinstantiated in
// the sandbox app domain.
var uri = new Uri(request.Uri, UriKind.Absolute);
var executionRequest = TraceUtility.TraceTime("Create RouteRequest Instance",
() => new RouteRequest(uri, request.Method)
{
IpAddress = request.IpAddress,
Headers = HeaderHelpers.DeserializeHeaders(request.RequestHeaders),
Body = request.RequestPayload
});
try
{
// The ExecutionSandbox we'll attempt to locate the best method to execute
// based on the incoming request method (GET, POST, DELETE, etc.) and
// will pass the ExecutionRequest we created above. In return, we receive
// an instance of ExecutionResponse that has been serialized like the request
// and deserialized in our full-trust host domain.
var executionResponse = TraceUtility.TraceTime("Load and Execute Request",
() => executionSandbox.Execute(route.Assembly, executionRequest));
// We'll use the data that comes back from the response to fill out the
// remainder of the database request record which will return the status
// code, message, payload, and headers. Then we update the database.
request.CompletedOn = DateTimeOffset.UtcNow;
request.StatusCode = (int)executionResponse.StatusCode;
request.StatusMessage = executionResponse.StatusMessage;
request.ResponsePayload = executionResponse.Body;
request.ResponseHeaders = RouteResponse.SerializeHeaders(executionResponse.Headers);
await Program.RequestRepository.UpdateRequestAsync(request).TraceTimeAsync("Update Request Record");
// We'll pass back a small bit of data indiciating to the subscribers of
// the response topic listening for our specific correlation ID that indicates
// the route code was executed successfully and to handle it as such.
responseMessage.Properties["Result"] = (int)ExecutionResult.Success;
responseMessage.Properties["Message"] = "Completed Successfully";
// Create the response message and send it on its way.
response.Add(responseMessage);
}
catch (TargetInvocationException invokationException)
{
// These exceptions can occur when we encounter a permission exception where
// the user doesn't have permission to execute a particular block of code.
if (invokationException.InnerException is SecurityException securityException)
{
throw new RoutePermissionException(GetPermissionErrorMessage(securityException), invokationException);
}
// Check for BadRequestException, we need to wrap it with the core exception.
// These exceptions can occur when query string parsing fails, and since the
// user's code doesn't have access to the core exceptions, we'll need to wrap
// it instead manually.
if (invokationException.InnerException is BadRequestException badRequestException)
{
throw new Core.Exceptions.BadRequestException(badRequestException.Message, badRequestException);
}
// Otherwise it is most likely a custom user exception.
throw new CodeException(invokationException.InnerException?.Message ?? "Route raised a custom exception.", invokationException.InnerException);
}
catch (EntryPointException entryPointException)
{
// These exceptions occur when an entry point could not be located.
// Since we don't have a reference to core in the common library.
// We'll instead wrap this exception in a core
// exception to apply a status code.
throw new RouteEntryPointException(entryPointException.Message, entryPointException);
}
catch (SecurityException securityException)
{
// These exceptions can occur when we encounter a permission exception where
// the user doesn't have permission to execute a particular block of code.
throw new RoutePermissionException(GetPermissionErrorMessage(securityException), securityException);
}
catch (BadRequestException badRequestException)
{
// These exceptions can occur when query string parsing fails, and since the
// user's code doesn't have access to the core exceptions, we'll need to wrap
// it instead manually.
throw new Core.Exceptions.BadRequestException(badRequestException.Message, badRequestException);
}
catch (AggregateException asyncException) // Captures async and task exceptions.
{
// These exceptions occur when an entry point could not be located.
// Since we don't have a reference to core in the common library.
// We'll instead wrap this exception in a core
// exception to apply a status code.
if (asyncException.InnerException is EntryPointException entryPointException)
{
throw new RouteEntryPointException(entryPointException.Message, entryPointException);
}
// These exceptions can occur when we encounter a permission exception where
// the user doesn't have permission to execute a particular block of code.
if (asyncException.InnerException is SecurityException securityException)
{
throw new RoutePermissionException(GetPermissionErrorMessage(securityException), securityException);
}
// These exceptions can occur when query string parsing fails, and since the
// user's code doesn't have access to the core exceptions, we'll need to wrap
// it instead manually.
if (asyncException.InnerException is SecurityException badRequestException)
{
throw new Core.Exceptions.BadRequestException(badRequestException.Message, badRequestException);
}
// These are all other exceptions that occur during the execution of
// a route. These exceptions are raised by the users code.
throw new RouteException(asyncException.InnerException?.Message ?? asyncException.Message, asyncException.InnerException);
}
catch (Exception routeException)
{
// These are all other exceptions that occur during the execution of
// a route. These exceptions are raised by the users code.
throw new RouteException(routeException.Message, routeException);
}
}
catch (Exception appDomainException)
{
// This exception relates to exceptions configuring the AppDomain and we'll still notify the
// user, we just won't give them specific information that could reveal our infrastructure
// unless an IStatusCodeException was thrown, meaning it's a public exception.
var statusCode = 500;
var statusMessage = "An unexpected exception has occurred. Please contact Subroute.io regarding this error.";
var statusCodeException = appDomainException as IStatusCodeException;
string stackTrace = null;
if (statusCodeException != null)
{
statusCode = (int)statusCodeException.StatusCode;
statusMessage = appDomainException.Message;
if (appDomainException is CodeException)
{
stackTrace = appDomainException.ToString();
}
}
request.CompletedOn = DateTimeOffset.UtcNow;
request.StatusCode = statusCode;
request.ResponsePayload = PayloadHelpers.CreateErrorPayload(statusMessage, stackTrace);
request.ResponseHeaders = HeaderHelpers.GetDefaultHeaders();
await Program.RequestRepository.UpdateRequestAsync(request).TraceTimeAsync("Update Request Record (Error)");
responseMessage.Properties["Result"] = (int)ExecutionResult.Failed;
responseMessage.Properties["Message"] = appDomainException.Message;
// Create the response message and send it on its way.
response.Add(responseMessage);
}
}
catch (Exception fatalException)
{
// These exceptions are absolutely fatal. We'll have to notify the waiting thread
// via the service bus message, because we're unable to load a related request.
responseMessage.Properties["Result"] = (int)ExecutionResult.Fatal;
responseMessage.Properties["Message"] = fatalException.Message;
// Create the response message and send it on its way.
response.Add(responseMessage);
}
finally
{
// Unload the users app domain to recover all memory used by it.
if (sandboxDomain != null)
{
TraceUtility.TraceTime("Unload AppDomain",
() => AppDomain.Unload(sandboxDomain));
}
}
}
