This is a consistency guard for enums in Entity Framework. It is a mechanism for protecting an entity in Entity Framework or just EF, in case an enum value was loaded from the database with an illeagal value.
An illeagal enum value would be any value of an enum that cannot be parsed into an enum. We use
Enum.IsDefined method (at first running Convert.ChangeType) to check if the value for the enum is leagal or not.
We define a helper class BrokenEnumValue to contain our metadata about enum values that are illeagal or 'broken'. The rest of the code in this article goes into the DbContext class (Or ObjectContext would also work)
that EF uses. The ObjectMaterialized event is added in the constructor for example.
var objectContext = ((IObjectContextAdapter) this).ObjectContext;
_log = (ILog) AutofacHostFactory.Container.Resolve(typeof(ILog));
objectContext.ObjectMaterialized += ObjectContext_ObjectMaterialized;
Our helper POCO:
public class BrokenEnumValue
{
public string PropertyName { get; set; }
public string PropertyTypeName { get; set; }
public Guid? SchemaGuid { get; set; }
public string OldValue { get; set; }
public string CorrectedValue { get; set; }
public override string ToString()
{
return $"{PropertyName} {PropertyTypeName} {SchemaGuid} {OldValue} {CorrectedValue}";
}
}
private void ObjectContext_ObjectMaterialized(object sender, ObjectMaterializedEventArgs e)
{
var brokenEnumProperties = FixBrokenEnumProperties(e.Entity);
if (brokenEnumProperties.Any())
{
Type objType = e.Entity.GetType();
var idProperty = objType.GetProperty("Id");
Guid? schemaGuid = idProperty?.GetValue(e.Entity, null) as Guid?;
foreach (var brokenEnum in brokenEnumProperties)
brokenEnum.SchemaGuid = schemaGuid;
string brokenEnumsInfo = string.Join(" ", brokenEnumProperties.Select(b => b.ToString()).ToArray());
_log.WriteWarning($"Detected broken enum propert(ies) in entity and resolved them to default value if available in enum (None): {brokenEnumsInfo}");
}
}
public IList<BrokenEnumValue> FixBrokenEnumProperties(object obj)
{
var list = new List<BrokenEnumValue>();
try
{
if (obj == null) return list;
PropertyInfo[] properties = obj.GetType().GetProperties();
foreach (PropertyInfo property in properties)
{
if (property.GetIndexParameters()?.Any() == true)
continue; //skip indexer properties
if (property.PropertyType.IsArray)
{
Array a = (Array) property.GetValue(obj);
for (int i = 0; i < a.Length; i++)
{
object o = a.GetValue(i);
list.AddRange(FixBrokenEnumProperties(o));
}
continue; //continue to next iteration
}
object propValue = property.GetValue(obj, null);
var elems = propValue as IList;
if (elems != null)
{
foreach (var item in elems)
{
list.AddRange(FixBrokenEnumProperties(item));
}
}
else
{
if (property.PropertyType.IsEnum && !IsEnumDefined(propValue, property.PropertyType))
{
var correctedValue = GetDefaultEnumValue(propValue, property.PropertyType);
list.Add(new BrokenEnumValue
{
CorrectedValue = correctedValue?.ToString(),
OldValue = propValue?.ToString(),
PropertyName = property.Name,
PropertyTypeName = property.PropertyType.FullName,
});
property.SetValue(obj, correctedValue);
}
if (property.PropertyType.IsClass && (property.PropertyType.GetCustomAttributes(typeof(DataContractAttribute))?.Any() == true)
&& !(property.PropertyType == typeof(string)) && !property.PropertyType.IsValueType)
{
list.AddRange(FixBrokenEnumProperties(propValue));
}
}
}
}
catch (Exception err)
{
_somelog.WriteError($"Expection occurred trying to fix broken enum properties: {err}");
}
return list;
}
private static T GetDefaultEnumValue<T>(T entity, Type propertyType)
{
foreach (var enumValue in propertyType.GetEnumValues())
{
if (String.Compare(enumValue.ToString(), "None", StringComparison.OrdinalIgnoreCase) == 0)
{
return (T)enumValue;
}
}
return entity;
}
private static bool IsEnumDefined(object entity, Type propertyType)
{
var castedValue = Convert.ChangeType(entity, propertyType);
return Enum.IsDefined(propertyType, castedValue);
}
With this guard, we can avoid that the entity does not load in case an illeagal value was loaded for a given enum. Note that our fallback is looking for the enum value mapping to the [None] enum member, so we fallback to the [None] enum value, if it exists. Mosts enum should have a [None] member mapping to the enum integer value 0. You can of course adjust the strategy used here.
I believe such a consistency guard would be helpful for many applications using EF.
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