// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest1() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest1: Create a new ArrayTypeMismatchException instance. "); try { string expectValue = "Hello"; ArrayTypeMismatchException myException = new ArrayTypeMismatchException(expectValue, null); if (myException == null) { TestLibrary.TestFramework.LogError("001.1", " the constructor should not return null. "); retVal = false; } else { if (myException.Message != expectValue) { TestLibrary.TestFramework.LogError("001.2", " the expection message should return " + expectValue); retVal = false; } } } catch (Exception e) { TestLibrary.TestFramework.LogError("001.0", "Unexpected exception: " + e); retVal = false; } return(retVal); }
// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest2() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest2: the string parameter is null. "); try { string expectValue = null; ArrayTypeMismatchException myException = new ArrayTypeMismatchException(expectValue, null); if (myException == null) { TestLibrary.TestFramework.LogError("002.1", " the constructor should not return null. "); retVal = false; } else { if (myException.Message == expectValue) { TestLibrary.TestFramework.LogError("002.2", " the expection message should return a default message when the string parameter is null. "); retVal = false; } } } catch (Exception e) { TestLibrary.TestFramework.LogError("002.0", "Unexpected exception: " + e); retVal = false; } return(retVal); }
// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest3() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest3: the string parameter is empty. "); try { string expectValue = string.Empty; ArgumentException myAieldExcption = new ArgumentException(); ArrayTypeMismatchException myException = new ArrayTypeMismatchException(expectValue, myAieldExcption); if (myException == null) { TestLibrary.TestFramework.LogError("003.1", " the constructor should not return null. "); retVal = false; } else { if (myException.Message != expectValue) { TestLibrary.TestFramework.LogError("003.2", " the expection message should return " + expectValue); retVal = false; } } } catch (Exception e) { TestLibrary.TestFramework.LogError("003.0", "Unexpected exception: " + e); retVal = false; } return(retVal); }
public static void Ctor_String() { string message = "array type mismatch"; var exception = new ArrayTypeMismatchException(message); ExceptionHelpers.ValidateExceptionProperties(exception, hResult: COR_E_ARRAYTYPEMISMATCH, message: message); }
public static void Ctor_String_Exception() { string message = "array type mismatch"; var innerException = new Exception("Inner exception"); var exception = new ArrayTypeMismatchException(message, innerException); ExceptionUtility.ValidateExceptionProperties(exception, hResult: COR_E_ARRAYTYPEMISMATCH, innerException: innerException, message: message); }
public void Flatten_Message(string expected, string message0, string message1, string message2, string message3) { // Arrange var exception1 = new ArrayTypeMismatchException(message1); var exception2 = new ArgumentException(message2, exception1); var input = new Exception(message3, exception2); // Act var actual = input.Flatten(message0); // Assert Assert.Equal(expected, actual); }
/* Performs loading of array element * (corresponds to CILPE.CFG.LoadElement class) */ public void Perform_LoadElement(Type type, out Exception exc) { int index = popArrayIndex(); Array array = popArray(out exc); if (exc == null) { if (type != typeof(object)) { StructValue.TypeIndex typeIndex = StructValue.getTypeIndex(type); StructValue.TypeIndex arrTypeIndex = StructValue.getTypeIndex(array.GetType().GetElementType()); if (!compareTypes(arrTypeIndex, typeIndex)) { exc = new ArrayTypeMismatchException(); } } if (exc == null) { object elem = null; try { elem = array.GetValue(index); } catch (IndexOutOfRangeException e) { exc = e; } if (exc == null) { if (StructValue.getTypeIndex(type) != StructValue.TypeIndex.INVALID) { Push(new StructValue(elem as ValueType)); } else { if (elem != null) { Push(new ObjectReferenceValue(elem)); } else { Push(new NullValue()); } } } } } }
public void GetMessage_IncludeInnerMessage(string expected, string message1, string message2, string message3, bool includeInnerMessage) { // Arrange var exception1 = new ArrayTypeMismatchException(message1); var exception2 = new ArgumentException(message2, exception1); var input = new Exception(message3, exception2); // Act var actual = input.GetMessage(includeInnerMessage); // Assert Assert.Equal(expected, actual); }
public void ToXml(string expected, string message1, string message2, string message3) { // Arrange var exception1 = new ArrayTypeMismatchException(message1); var exception2 = new ArgumentException(message2, exception1); var input = new Exception(message3, exception2); // Act var actual = input.ToXml(); // Assert Assert.Equal(expected.Replace(Environment.NewLine, string.Empty, StringComparison.Ordinal), actual.ToString().Replace(Environment.NewLine, string.Empty, StringComparison.Ordinal)); }
/* Performs storing to array element * (corresponds to CILPE.CFG.StoreElement class) */ public void Perform_StoreElement(Type type, out Exception exc) { Value objVal = Pop(); int index = popArrayIndex(); Array array = popArray(out exc); Type elementType = array.GetType().GetElementType(); if (exc == null) { objVal = objVal.FromStack(elementType); object val = null; if (objVal is StructValue && (objVal as StructValue).IsPrimitive) { val = (objVal as StructValue).Obj; } else if (objVal is NullValue) { val = null; } else if (objVal is ObjectReferenceValue) { val = (objVal as ObjectReferenceValue).Obj; } else { throw new InvalidOperandException(); } if (type != typeof(object) && TypeFixer.WeakFixType(elementType) != TypeFixer.WeakFixType(type)) //Andrew! { exc = new ArrayTypeMismatchException(); } else if (type == typeof(object) && !elementType.IsAssignableFrom(val.GetType())) { exc = new InvalidCastException(); } else { try { array.SetValue(val, index); } catch (IndexOutOfRangeException e) { exc = e; } } } }
public void Flatten_Message_IncludeStackTrace(string expected, string message0, string message1, string message2, string message3, bool includeStackTrace) { // Arrange expected = expected.Replace("#", Environment.NewLine, StringComparison.Ordinal); var exception1 = new ArrayTypeMismatchException(message1); var exception2 = new ArgumentException(message2, exception1); var input = new Exception(message3, exception2); // Act var actual = input.Flatten(message0, includeStackTrace); // Assert Assert.Equal(expected, actual); }
public async Task AbstractHealthCheck_WhenExceptionThrown_ReturnsUnhealtyState() { Activity? activity = null; Exception exception = new ArrayTypeMismatchException(); HealthCheckResult actualResult = await new TestHealthCheck((c, t) => { activity = Activity.Current; throw exception; } ).CheckHealthAsync(HealthCheckContextHelper.CreateCheckContext()); Assert.AreEqual(actualResult.Exception, exception); Assert.AreEqual(actualResult.Status, HealthStatus.Unhealthy); Assert.IsNotNull(activity); Assert.IsTrue(activity !.IsHealthCheck(), "Activity should be marked as HealthCheck activity"); activity !.AssertResult(TimedScopeResult.SystemError); }
public async Task AbstractHealthCheck_WhenExceptionThrown_ReturnsUnhealtyState() { using TestActivityListener listener = new TestActivityListener(); Activity? activity = null; Exception exception = new ArrayTypeMismatchException(); HealthCheckResult actualResult = await new TestHealthCheck((c, t) => { activity = Activity.Current; throw exception; } ).CheckHealthAsync(HealthCheckContextHelper.CreateCheckContext()); Assert.AreEqual(actualResult.Exception, exception); Assert.AreEqual(actualResult.Status, HealthStatus.Unhealthy); CollectionAssert.AreEquivalent(actualResult.Data.ToArray(), TestHealthCheck.TestParameters); NullableAssert.IsNotNull(activity); Assert.IsTrue(activity.IsHealthCheck(), "Activity should be marked as HealthCheck activity"); activity.AssertResult(ActivityResult.SystemError); }
// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest1() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest1: Create a new ArrayTypeMismatchException instance. "); try { ArrayTypeMismatchException myException = new ArrayTypeMismatchException(); if (myException == null) { TestLibrary.TestFramework.LogError("001.1", " the constructor should not return null. "); retVal = false; } } catch (Exception e) { TestLibrary.TestFramework.LogError("001.0", "Unexpected exception: " + e); retVal = false; } return(retVal); }
/* Performs loading of address of array element * (corresponds to CILPE.CFG.LoadElementAddr class) */ public void Perform_LoadElementAddr(Type type, out Exception exc) { int index = popArrayIndex(); Array array = popArray(out exc); if (exc == null) { if (array.GetType().GetElementType() != type) { exc = new ArrayTypeMismatchException(); } else { if (index >= 0 && index < array.Length) { Push(new PointerToElementValue(array, index)); } else { exc = new IndexOutOfRangeException(); } } } }
/// <summary> /// This does a mapping from hr to the exception and also takes care of making default exception in case of classic COM as COMException. /// and in winrt and marshal APIs as Exception. /// </summary> /// <param name="errorCode"></param> /// <param name="message"></param> /// <param name="createCOMException"></param> /// <returns></returns> internal static Exception GetMappingExceptionForHR(int errorCode, string message, bool createCOMException, bool hasErrorInfo) { if (errorCode >= 0) { return(null); } Exception exception = null; bool shouldDisplayHR = false; switch (errorCode) { case __HResults.COR_E_NOTFINITENUMBER: // NotFiniteNumberException case __HResults.COR_E_ARITHMETIC: exception = new ArithmeticException(); break; case __HResults.COR_E_ARGUMENT: case unchecked ((int)0x800A01C1): case unchecked ((int)0x800A01C2): case __HResults.CLR_E_BIND_UNRECOGNIZED_IDENTITY_FORMAT: exception = new ArgumentException(); if (errorCode != __HResults.COR_E_ARGUMENT) { shouldDisplayHR = true; } break; case __HResults.E_BOUNDS: case __HResults.COR_E_ARGUMENTOUTOFRANGE: case __HResults.ERROR_NO_UNICODE_TRANSLATION: exception = new ArgumentOutOfRangeException(); if (errorCode != __HResults.COR_E_ARGUMENTOUTOFRANGE) { shouldDisplayHR = true; } break; case __HResults.COR_E_ARRAYTYPEMISMATCH: exception = new ArrayTypeMismatchException(); break; case __HResults.COR_E_BADIMAGEFORMAT: case __HResults.CLDB_E_FILE_OLDVER: case __HResults.CLDB_E_INDEX_NOTFOUND: case __HResults.CLDB_E_FILE_CORRUPT: case __HResults.COR_E_NEWER_RUNTIME: case __HResults.COR_E_ASSEMBLYEXPECTED: case __HResults.ERROR_BAD_EXE_FORMAT: case __HResults.ERROR_EXE_MARKED_INVALID: case __HResults.CORSEC_E_INVALID_IMAGE_FORMAT: case __HResults.ERROR_NOACCESS: case __HResults.ERROR_INVALID_ORDINAL: case __HResults.ERROR_INVALID_DLL: case __HResults.ERROR_FILE_CORRUPT: case __HResults.COR_E_LOADING_REFERENCE_ASSEMBLY: case __HResults.META_E_BAD_SIGNATURE: exception = new BadImageFormatException(); // Always show HR for BadImageFormatException shouldDisplayHR = true; break; case __HResults.COR_E_CUSTOMATTRIBUTEFORMAT: exception = new FormatException(); break; // CustomAttributeFormatException case __HResults.COR_E_DATAMISALIGNED: exception = InteropExtensions.CreateDataMisalignedException(message); // TODO: Do we need to add msg here? break; case __HResults.COR_E_DIVIDEBYZERO: case __HResults.CTL_E_DIVISIONBYZERO: exception = new DivideByZeroException(); if (errorCode != __HResults.COR_E_DIVIDEBYZERO) { shouldDisplayHR = true; } break; case __HResults.COR_E_DLLNOTFOUND: #if ENABLE_WINRT exception = new DllNotFoundException(); #endif break; case __HResults.COR_E_DUPLICATEWAITOBJECT: exception = new ArgumentException(); break; // DuplicateWaitObjectException case __HResults.COR_E_ENDOFSTREAM: case unchecked ((int)0x800A003E): exception = new CoreFX_IO::System.IO.EndOfStreamException(); if (errorCode != __HResults.COR_E_ENDOFSTREAM) { shouldDisplayHR = true; } break; case __HResults.COR_E_TYPEACCESS: // TypeAccessException case __HResults.COR_E_ENTRYPOINTNOTFOUND: exception = new TypeLoadException(); break; // EntryPointNotFoundException case __HResults.COR_E_EXCEPTION: exception = new Exception(); break; case __HResults.COR_E_DIRECTORYNOTFOUND: case __HResults.STG_E_PATHNOTFOUND: case __HResults.CTL_E_PATHNOTFOUND: exception = new System.IO.DirectoryNotFoundException(); if (errorCode != __HResults.COR_E_DIRECTORYNOTFOUND) { shouldDisplayHR = true; } break; case __HResults.COR_E_FILELOAD: case __HResults.FUSION_E_INVALID_PRIVATE_ASM_LOCATION: case __HResults.FUSION_E_SIGNATURE_CHECK_FAILED: case __HResults.FUSION_E_LOADFROM_BLOCKED: case __HResults.FUSION_E_CACHEFILE_FAILED: case __HResults.FUSION_E_ASM_MODULE_MISSING: case __HResults.FUSION_E_INVALID_NAME: case __HResults.FUSION_E_PRIVATE_ASM_DISALLOWED: case __HResults.FUSION_E_HOST_GAC_ASM_MISMATCH: case __HResults.COR_E_MODULE_HASH_CHECK_FAILED: case __HResults.FUSION_E_REF_DEF_MISMATCH: case __HResults.SECURITY_E_INCOMPATIBLE_SHARE: case __HResults.SECURITY_E_INCOMPATIBLE_EVIDENCE: case __HResults.SECURITY_E_UNVERIFIABLE: case __HResults.COR_E_FIXUPSINEXE: case __HResults.ERROR_TOO_MANY_OPEN_FILES: case __HResults.ERROR_SHARING_VIOLATION: case __HResults.ERROR_LOCK_VIOLATION: case __HResults.ERROR_OPEN_FAILED: case __HResults.ERROR_DISK_CORRUPT: case __HResults.ERROR_UNRECOGNIZED_VOLUME: case __HResults.ERROR_DLL_INIT_FAILED: case __HResults.FUSION_E_CODE_DOWNLOAD_DISABLED: case __HResults.CORSEC_E_MISSING_STRONGNAME: case __HResults.MSEE_E_ASSEMBLYLOADINPROGRESS: case __HResults.ERROR_FILE_INVALID: exception = new System.IO.FileLoadException(); shouldDisplayHR = true; break; case __HResults.COR_E_PATHTOOLONG: exception = new System.IO.PathTooLongException(); break; case __HResults.COR_E_IO: case __HResults.CTL_E_DEVICEIOERROR: case unchecked ((int)0x800A793C): case unchecked ((int)0x800A793D): exception = new System.IO.IOException(); if (errorCode != __HResults.COR_E_IO) { shouldDisplayHR = true; } break; case __HResults.ERROR_FILE_NOT_FOUND: case __HResults.ERROR_MOD_NOT_FOUND: case __HResults.ERROR_INVALID_NAME: case __HResults.CTL_E_FILENOTFOUND: case __HResults.ERROR_BAD_NET_NAME: case __HResults.ERROR_BAD_NETPATH: case __HResults.ERROR_NOT_READY: case __HResults.ERROR_WRONG_TARGET_NAME: case __HResults.INET_E_UNKNOWN_PROTOCOL: case __HResults.INET_E_CONNECTION_TIMEOUT: case __HResults.INET_E_CANNOT_CONNECT: case __HResults.INET_E_RESOURCE_NOT_FOUND: case __HResults.INET_E_OBJECT_NOT_FOUND: case __HResults.INET_E_DOWNLOAD_FAILURE: case __HResults.INET_E_DATA_NOT_AVAILABLE: case __HResults.ERROR_DLL_NOT_FOUND: case __HResults.CLR_E_BIND_ASSEMBLY_VERSION_TOO_LOW: case __HResults.CLR_E_BIND_ASSEMBLY_PUBLIC_KEY_MISMATCH: case __HResults.CLR_E_BIND_ASSEMBLY_NOT_FOUND: exception = new System.IO.FileNotFoundException(); shouldDisplayHR = true; break; case __HResults.COR_E_FORMAT: exception = new FormatException(); break; case __HResults.COR_E_INDEXOUTOFRANGE: case unchecked ((int)0x800a0009): exception = new IndexOutOfRangeException(); if (errorCode != __HResults.COR_E_INDEXOUTOFRANGE) { shouldDisplayHR = true; } break; case __HResults.COR_E_INVALIDCAST: exception = new InvalidCastException(); break; case __HResults.COR_E_INVALIDCOMOBJECT: exception = new InvalidComObjectException(); break; case __HResults.COR_E_INVALIDOLEVARIANTTYPE: exception = new InvalidOleVariantTypeException(); break; case __HResults.COR_E_INVALIDOPERATION: case __HResults.E_ILLEGAL_STATE_CHANGE: case __HResults.E_ILLEGAL_METHOD_CALL: case __HResults.E_ILLEGAL_DELEGATE_ASSIGNMENT: case __HResults.APPMODEL_ERROR_NO_PACKAGE: exception = new InvalidOperationException(); if (errorCode != __HResults.COR_E_INVALIDOPERATION) { shouldDisplayHR = true; } break; case __HResults.COR_E_MARSHALDIRECTIVE: exception = new MarshalDirectiveException(); break; case __HResults.COR_E_METHODACCESS: // MethodAccessException case __HResults.META_E_CA_FRIENDS_SN_REQUIRED: // MethodAccessException case __HResults.COR_E_FIELDACCESS: case __HResults.COR_E_MEMBERACCESS: exception = new MemberAccessException(); if (errorCode != __HResults.COR_E_METHODACCESS) { shouldDisplayHR = true; } break; case __HResults.COR_E_MISSINGFIELD: // MissingFieldException case __HResults.COR_E_MISSINGMETHOD: // MissingMethodException case __HResults.COR_E_MISSINGMEMBER: case unchecked ((int)0x800A01CD): exception = new MissingMemberException(); break; case __HResults.COR_E_MISSINGMANIFESTRESOURCE: exception = new System.Resources.MissingManifestResourceException(); break; case __HResults.COR_E_NOTSUPPORTED: case unchecked ((int)0x800A01B6): case unchecked ((int)0x800A01BD): case unchecked ((int)0x800A01CA): case unchecked ((int)0x800A01CB): exception = new NotSupportedException(); if (errorCode != __HResults.COR_E_NOTSUPPORTED) { shouldDisplayHR = true; } break; case __HResults.COR_E_NULLREFERENCE: exception = new NullReferenceException(); break; case __HResults.COR_E_OBJECTDISPOSED: case __HResults.RO_E_CLOSED: // No default constructor exception = new ObjectDisposedException(String.Empty); break; case __HResults.COR_E_OPERATIONCANCELED: #if ENABLE_WINRT exception = new OperationCanceledException(); #endif break; case __HResults.COR_E_OVERFLOW: case __HResults.CTL_E_OVERFLOW: exception = new OverflowException(); break; case __HResults.COR_E_PLATFORMNOTSUPPORTED: exception = new PlatformNotSupportedException(message); break; case __HResults.COR_E_RANK: exception = new RankException(); break; case __HResults.COR_E_REFLECTIONTYPELOAD: #if ENABLE_WINRT exception = new System.Reflection.ReflectionTypeLoadException(null, null); #endif break; case __HResults.COR_E_SECURITY: case __HResults.CORSEC_E_INVALID_STRONGNAME: case __HResults.CTL_E_PERMISSIONDENIED: case unchecked ((int)0x800A01A3): case __HResults.CORSEC_E_INVALID_PUBLICKEY: case __HResults.CORSEC_E_SIGNATURE_MISMATCH: exception = new System.Security.SecurityException(); break; case __HResults.COR_E_SAFEARRAYRANKMISMATCH: exception = new SafeArrayRankMismatchException(); break; case __HResults.COR_E_SAFEARRAYTYPEMISMATCH: exception = new SafeArrayTypeMismatchException(); break; case __HResults.COR_E_SERIALIZATION: exception = new System.Runtime.Serialization.SerializationException(message); break; case __HResults.COR_E_SYNCHRONIZATIONLOCK: exception = new System.Threading.SynchronizationLockException(); break; case __HResults.COR_E_TARGETINVOCATION: exception = new System.Reflection.TargetInvocationException(null); break; case __HResults.COR_E_TARGETPARAMCOUNT: exception = new System.Reflection.TargetParameterCountException(); break; case __HResults.COR_E_TYPEINITIALIZATION: exception = InteropExtensions.CreateTypeInitializationException(message); break; case __HResults.COR_E_TYPELOAD: case __HResults.RO_E_METADATA_NAME_NOT_FOUND: case __HResults.CLR_E_BIND_TYPE_NOT_FOUND: exception = new TypeLoadException(); if (errorCode != __HResults.COR_E_TYPELOAD) { shouldDisplayHR = true; } break; case __HResults.COR_E_UNAUTHORIZEDACCESS: case __HResults.CTL_E_PATHFILEACCESSERROR: case unchecked ((int)0x800A014F): exception = new UnauthorizedAccessException(); shouldDisplayHR = true; break; case __HResults.COR_E_VERIFICATION: exception = new System.Security.VerificationException(); break; case __HResults.E_NOTIMPL: exception = new NotImplementedException(); break; case __HResults.E_OUTOFMEMORY: case __HResults.CTL_E_OUTOFMEMORY: case unchecked ((int)0x800A7919): exception = new OutOfMemoryException(); if (errorCode != __HResults.E_OUTOFMEMORY) { shouldDisplayHR = true; } break; #if ENABLE_WINRT case __HResults.E_XAMLPARSEFAILED: exception = ConstructExceptionUsingReflection( "Windows.UI.Xaml.Markup.XamlParseException, System.Runtime.WindowsRuntime.UI.Xaml, Version=4.0.0.0", message); break; case __HResults.E_ELEMENTNOTAVAILABLE: exception = ConstructExceptionUsingReflection( "Windows.UI.Xaml.Automation.ElementNotAvailableException, System.Runtime.WindowsRuntime.UI.Xaml, Version=4.0.0.0", message); break; case __HResults.E_ELEMENTNOTENABLED: exception = ConstructExceptionUsingReflection( "Windows.UI.Xaml.Automation.ElementNotEnabledException, System.Runtime.WindowsRuntime.UI.Xaml, Version=4.0.0.0", message); break; case __HResults.E_LAYOUTCYCLE: exception = ConstructExceptionUsingReflection( "Windows.UI.Xaml.LayoutCycleException, System.Runtime.WindowsRuntime.UI.Xaml, Version=4.0.0.0", message); break; #endif // ENABLE_WINRT case __HResults.COR_E_AMBIGUOUSMATCH: // AmbiguousMatchException case __HResults.COR_E_APPLICATION: // ApplicationException case __HResults.COR_E_APPDOMAINUNLOADED: // AppDomainUnloadedException case __HResults.COR_E_CANNOTUNLOADAPPDOMAIN: // CannotUnloadAppDomainException case __HResults.COR_E_CODECONTRACTFAILED: // ContractException case __HResults.COR_E_CONTEXTMARSHAL: // ContextMarshalException case __HResults.CORSEC_E_CRYPTO: // CryptographicException case __HResults.CORSEC_E_CRYPTO_UNEX_OPER: // CryptographicUnexpectedOperationException case __HResults.COR_E_EXECUTIONENGINE: // ExecutionEngineException case __HResults.COR_E_INSUFFICIENTEXECUTIONSTACK: // InsufficientExecutionStackException case __HResults.COR_E_INVALIDFILTERCRITERIA: // InvalidFilterCriteriaException case __HResults.COR_E_INVALIDPROGRAM: // InvalidProgramException case __HResults.COR_E_MULTICASTNOTSUPPORTED: // MulticastNotSupportedException case __HResults.COR_E_REMOTING: // RemotingException case __HResults.COR_E_RUNTIMEWRAPPED: // RuntimeWrappedException case __HResults.COR_E_SERVER: // ServerException case __HResults.COR_E_STACKOVERFLOW: // StackOverflowException case __HResults.CTL_E_OUTOFSTACKSPACE: // StackOverflowException case __HResults.COR_E_SYSTEM: // SystemException case __HResults.COR_E_TARGET: // TargetException case __HResults.COR_E_THREADABORTED: // TargetException case __HResults.COR_E_THREADINTERRUPTED: // ThreadInterruptedException case __HResults.COR_E_THREADSTATE: // ThreadStateException case __HResults.COR_E_THREADSTART: // ThreadStartException case __HResults.COR_E_TYPEUNLOADED: // TypeUnloadedException case __HResults.CORSEC_E_POLICY_EXCEPTION: // PolicyException case __HResults.CORSEC_E_NO_EXEC_PERM: // PolicyException case __HResults.CORSEC_E_MIN_GRANT_FAIL: // PolicyException case __HResults.CORSEC_E_XMLSYNTAX: // XmlSyntaxException case __HResults.ISS_E_ALLOC_TOO_LARGE: // IsolatedStorageException case __HResults.ISS_E_BLOCK_SIZE_TOO_SMALL: // IsolatedStorageException case __HResults.ISS_E_CALLER: // IsolatedStorageException case __HResults.ISS_E_CORRUPTED_STORE_FILE: // IsolatedStorageException case __HResults.ISS_E_CREATE_DIR: // IsolatedStorageException case __HResults.ISS_E_CREATE_MUTEX: // IsolatedStorageException case __HResults.ISS_E_DEPRECATE: // IsolatedStorageException case __HResults.ISS_E_FILE_NOT_MAPPED: // IsolatedStorageException case __HResults.ISS_E_FILE_WRITE: // IsolatedStorageException case __HResults.ISS_E_GET_FILE_SIZE: // IsolatedStorageException case __HResults.ISS_E_ISOSTORE: // IsolatedStorageException case __HResults.ISS_E_LOCK_FAILED: // IsolatedStorageException case __HResults.ISS_E_MACHINE: // IsolatedStorageException case __HResults.ISS_E_MACHINE_DACL: // IsolatedStorageException case __HResults.ISS_E_MAP_VIEW_OF_FILE: // IsolatedStorageException case __HResults.ISS_E_OPEN_FILE_MAPPING: // IsolatedStorageException case __HResults.ISS_E_OPEN_STORE_FILE: // IsolatedStorageException case __HResults.ISS_E_PATH_LENGTH: // IsolatedStorageException case __HResults.ISS_E_SET_FILE_POINTER: // IsolatedStorageException case __HResults.ISS_E_STORE_NOT_OPEN: // IsolatedStorageException case __HResults.ISS_E_STORE_VERSION: // IsolatedStorageException case __HResults.ISS_E_TABLE_ROW_NOT_FOUND: // IsolatedStorageException case __HResults.ISS_E_USAGE_WILL_EXCEED_QUOTA: // IsolatedStorageException case __HResults.E_FAIL: default: break; } if (exception == null) { if (createCOMException) { exception = new COMException(); if (errorCode != __HResults.E_FAIL) { shouldDisplayHR = true; } } else { exception = new Exception(); if (errorCode != __HResults.COR_E_EXCEPTION) { shouldDisplayHR = true; } } } bool shouldConstructMessage = false; if (hasErrorInfo) { // If there is a IErrorInfo/IRestrictedErrorInfo, only construct a new error message if // the message is not available and do not use the shouldDisplayHR setting if (message == null) { shouldConstructMessage = true; } } else { // If there is no IErrorInfo, use the shouldDisplayHR setting from the big switch/case above shouldConstructMessage = shouldDisplayHR; } if (shouldConstructMessage) { // // Append the HR into error message, just in case the app wants to look at the HR in // message to determine behavior. We didn't expose HResult property until v4.5 and // GetHRFromException has side effects so probably Message was their only choice. // This behavior is probably not exactly the same as in desktop but it is fine to append // more message at the end. In any case, having the HR in the error message are helpful // to developers. // This makes sure: // 1. We always have a HR 0xNNNNNNNN in the message // 2. Put in a nice "Exception thrown from HRESULT" message if we can // 3. Wrap it in () if there is an existing message // // TODO: Add Symbolic Name into Messaage, convert 0x80020006 to DISP_E_UNKNOWNNAME string hrMessage = String.Format("{0} 0x{1}", SR.Excep_FromHResult, errorCode.LowLevelToString()); message = ExternalInterop.GetMessage(errorCode); // Always make sure we have at least the HRESULT part in retail build or when the message // is empty. if (message == null) { message = hrMessage; } else { message = message + " (" + hrMessage + ")"; } } if (message != null) { // Set message explicitly rather than calling constructor because certain ctors would append a // prefix to the message and that is not what we want InteropExtensions.SetExceptionMessage(exception, message); } InteropExtensions.SetExceptionErrorCode(exception, errorCode); return(exception); }
public static void Ctor_Empty() { var exception = new ArrayTypeMismatchException(); ExceptionHelpers.ValidateExceptionProperties(exception, hResult: COR_E_ARRAYTYPEMISMATCH, validateMessage: false); }
// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest3() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest3: the string parameter is empty. "); try { string expectValue = string.Empty; ArgumentException myAieldExcption = new ArgumentException(); ArrayTypeMismatchException myException = new ArrayTypeMismatchException(expectValue, myAieldExcption); if (myException == null) { TestLibrary.TestFramework.LogError("003.1", " the constructor should not return null. "); retVal = false; } else { if (myException.Message != expectValue) { TestLibrary.TestFramework.LogError("003.2", " the expection message should return " + expectValue); retVal = false; } } } catch (Exception e) { TestLibrary.TestFramework.LogError("003.0", "Unexpected exception: " + e); retVal = false; } return retVal; }
// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest1() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest1: Create a new ArrayTypeMismatchException instance. "); try { string expectValue = "Hello"; ArrayTypeMismatchException myException = new ArrayTypeMismatchException(expectValue, null); if (myException == null) { TestLibrary.TestFramework.LogError("001.1", " the constructor should not return null. "); retVal = false; } else { if (myException.Message != expectValue) { TestLibrary.TestFramework.LogError("001.2", " the expection message should return " + expectValue); retVal = false; } } } catch (Exception e) { TestLibrary.TestFramework.LogError("001.0", "Unexpected exception: " + e); retVal = false; } return retVal; }
// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest1() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest1: Create a new ArrayTypeMismatchException instance. "); try { ArrayTypeMismatchException myException = new ArrayTypeMismatchException(); if (myException == null) { TestLibrary.TestFramework.LogError("001.1", " the constructor should not return null. "); retVal = false; } } catch (Exception e) { TestLibrary.TestFramework.LogError("001.0", "Unexpected exception: " + e); retVal = false; } return retVal; }
// Returns true if the expected result is right // Returns false if the expected result is wrong public bool PosTest2() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest2: the string parameter is null. "); try { string expectValue = null; ArrayTypeMismatchException myException = new ArrayTypeMismatchException(expectValue, null); if (myException == null) { TestLibrary.TestFramework.LogError("002.1", " the constructor should not return null. "); retVal = false; } else { if (myException.Message == expectValue) { TestLibrary.TestFramework.LogError("002.2", " the expection message should return a default message when the string parameter is null. "); retVal = false; } } } catch (Exception e) { TestLibrary.TestFramework.LogError("002.0", "Unexpected exception: " + e); retVal = false; } return retVal; }