/// <summary>
/// Returns true if <paramref name="method"/> requires a stub to be generated.
/// </summary>
public static bool IsStubRequired(MethodDesc method, PInvokeILEmitterConfiguration configuration)
{
Debug.Assert(method.IsPInvoke);
// TODO: true if there are any custom marshalling rules on the parameters
TypeDesc returnType = method.Signature.ReturnType;
if (!MarshalHelpers.IsBlittableType(returnType) && !returnType.IsVoid)
{
return(true);
}
for (int i = 0; i < method.Signature.Length; i++)
{
if (!MarshalHelpers.IsBlittableType(method.Signature[i]))
{
return(true);
}
}
PInvokeMetadata methodData = method.GetPInvokeMethodMetadata();
if (UseLazyResolution(method, methodData.Module, configuration))
{
return(true);
}
if ((methodData.Attributes & PInvokeAttributes.SetLastError) == PInvokeAttributes.SetLastError)
{
return(true);
}
return(false);
}
/// <summary>
/// Returns true if this is a type that doesn't require marshalling.
/// </summary>
public static bool IsBlittableType(TypeDesc type)
{
type = type.UnderlyingType;
if (type.IsValueType)
{
if (type.IsPrimitive)
{
// All primitive types except char and bool are blittable
TypeFlags category = type.Category;
if (category == TypeFlags.Boolean || category == TypeFlags.Char)
{
return(false);
}
return(true);
}
foreach (FieldDesc field in type.GetFields())
{
if (field.IsStatic)
{
continue;
}
TypeDesc fieldType = field.FieldType;
// TODO: we should also reject fields that specify custom marshalling
if (!MarshalHelpers.IsBlittableType(fieldType))
{
// This field can still be blittable if it's a Char and marshals as Unicode
var owningType = field.OwningType as MetadataType;
if (owningType == null)
{
return(false);
}
if (fieldType.Category != TypeFlags.Char ||
owningType.PInvokeStringFormat == PInvokeStringFormat.AnsiClass)
{
return(false);
}
}
}
return(true);
}
if (type.IsPointer || type.IsFunctionPointer)
{
return(true);
}
return(false);
}
private static MarshallerKind GetArrayElementMarshallerKind(
ArrayType arrayType,
MarshalAsDescriptor marshalAs,
bool isAnsi)
{
TypeDesc elementType = arrayType.ElementType;
NativeTypeKind nativeType = NativeTypeKind.Invalid;
TypeSystemContext context = arrayType.Context;
if (marshalAs != null)
{
nativeType = (NativeTypeKind)marshalAs.ArraySubType;
}
if (elementType.IsPrimitive)
{
switch (elementType.Category)
{
case TypeFlags.Char:
switch (nativeType)
{
case NativeTypeKind.I1:
case NativeTypeKind.U1:
return(MarshallerKind.AnsiChar);
case NativeTypeKind.I2:
case NativeTypeKind.U2:
return(MarshallerKind.UnicodeChar);
default:
if (isAnsi)
{
return(MarshallerKind.AnsiChar);
}
else
{
return(MarshallerKind.UnicodeChar);
}
}
case TypeFlags.Boolean:
switch (nativeType)
{
case NativeTypeKind.Boolean:
return(MarshallerKind.Bool);
case NativeTypeKind.I1:
case NativeTypeKind.U1:
return(MarshallerKind.CBool);
case NativeTypeKind.Invalid:
default:
return(MarshallerKind.Bool);
}
case TypeFlags.IntPtr:
case TypeFlags.UIntPtr:
return(MarshallerKind.BlittableValue);
case TypeFlags.Void:
return(MarshallerKind.Invalid);
case TypeFlags.SByte:
case TypeFlags.Int16:
case TypeFlags.Int32:
case TypeFlags.Int64:
case TypeFlags.Byte:
case TypeFlags.UInt16:
case TypeFlags.UInt32:
case TypeFlags.UInt64:
case TypeFlags.Single:
case TypeFlags.Double:
return(MarshallerKind.BlittableValue);
default:
return(MarshallerKind.Invalid);
}
}
else if (elementType.IsValueType)
{
if (elementType.IsEnum)
{
return(MarshallerKind.Enum);
}
if (InteropTypes.IsSystemDecimal(context, elementType))
{
switch (nativeType)
{
case NativeTypeKind.Invalid:
case NativeTypeKind.Struct:
return(MarshallerKind.Decimal);
case NativeTypeKind.LPStruct:
return(MarshallerKind.BlittableStructPtr);
default:
return(MarshallerKind.Invalid);
}
}
else if (InteropTypes.IsSystemGuid(context, elementType))
{
switch (nativeType)
{
case NativeTypeKind.Invalid:
case NativeTypeKind.Struct:
return(MarshallerKind.BlittableValue);
case NativeTypeKind.LPStruct:
return(MarshallerKind.BlittableStructPtr);
default:
return(MarshallerKind.Invalid);
}
}
else if (InteropTypes.IsSystemDateTime(context, elementType))
{
if (nativeType == NativeTypeKind.Invalid ||
nativeType == NativeTypeKind.Struct)
{
return(MarshallerKind.OleDateTime);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (InteropTypes.IsHandleRef(context, elementType))
{
if (nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.HandleRef);
}
else
{
return(MarshallerKind.Invalid);
}
}
else
{
if (MarshalHelpers.IsBlittableType(elementType))
{
switch (nativeType)
{
case NativeTypeKind.Invalid:
case NativeTypeKind.Struct:
return(MarshallerKind.BlittableStruct);
default:
return(MarshallerKind.Invalid);
}
}
else
{
// TODO: Differentiate between struct and Union, we only need to support struct not union here
return(MarshallerKind.Struct);
}
}
}
else if (elementType.IsPointer || elementType.IsFunctionPointer)
{
if (nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (elementType.IsString)
{
switch (nativeType)
{
case NativeTypeKind.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiString);
}
else
{
return(MarshallerKind.UnicodeString);
}
case NativeTypeKind.LPStr:
return(MarshallerKind.AnsiString);
case NativeTypeKind.LPWStr:
return(MarshallerKind.UnicodeString);
default:
return(MarshallerKind.Invalid);
}
}
// else if (elementType.IsObject)
// {
// if (nativeType == NativeTypeKind.Invalid)
// return MarshallerKind.Variant;
// else
// return MarshallerKind.Invalid;
// }
else
{
return(MarshallerKind.Invalid);
}
}
internal static MarshallerKind GetMarshallerKind(
TypeDesc type,
MarshalAsDescriptor marshalAs,
bool isReturn,
bool isAnsi,
MarshallerType marshallerType,
out MarshallerKind elementMarshallerKind)
{
if (type.IsByRef)
{
type = type.GetParameterType();
}
TypeSystemContext context = type.Context;
NativeTypeKind nativeType = NativeTypeKind.Invalid;
bool isField = marshallerType == MarshallerType.Field;
if (marshalAs != null)
{
nativeType = (NativeTypeKind)marshalAs.Type;
}
elementMarshallerKind = MarshallerKind.Invalid;
//
// Determine MarshalerKind
//
// This mostly resembles desktop CLR and .NET Native code as we need to match their behavior
//
if (type.IsPrimitive)
{
switch (type.Category)
{
case TypeFlags.Void:
return(MarshallerKind.VoidReturn);
case TypeFlags.Boolean:
switch (nativeType)
{
case NativeTypeKind.Invalid:
case NativeTypeKind.Boolean:
return(MarshallerKind.Bool);
case NativeTypeKind.U1:
case NativeTypeKind.I1:
return(MarshallerKind.CBool);
default:
return(MarshallerKind.Invalid);
}
case TypeFlags.Char:
switch (nativeType)
{
case NativeTypeKind.I1:
case NativeTypeKind.U1:
return(MarshallerKind.AnsiChar);
case NativeTypeKind.I2:
case NativeTypeKind.U2:
return(MarshallerKind.UnicodeChar);
case NativeTypeKind.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiChar);
}
else
{
return(MarshallerKind.UnicodeChar);
}
default:
return(MarshallerKind.Invalid);
}
case TypeFlags.SByte:
case TypeFlags.Byte:
if (nativeType == NativeTypeKind.I1 || nativeType == NativeTypeKind.U1 || nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Int16:
case TypeFlags.UInt16:
if (nativeType == NativeTypeKind.I2 || nativeType == NativeTypeKind.U2 || nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Int32:
case TypeFlags.UInt32:
if (nativeType == NativeTypeKind.I4 || nativeType == NativeTypeKind.U4 || nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Int64:
case TypeFlags.UInt64:
if (nativeType == NativeTypeKind.I8 || nativeType == NativeTypeKind.U8 || nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.IntPtr:
case TypeFlags.UIntPtr:
if (nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Single:
if (nativeType == NativeTypeKind.R4 || nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Double:
if (nativeType == NativeTypeKind.R8 || nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
default:
return(MarshallerKind.Invalid);
}
}
else if (type.IsValueType)
{
if (type.IsEnum)
{
return(MarshallerKind.Enum);
}
if (InteropTypes.IsSystemDateTime(context, type))
{
if (nativeType == NativeTypeKind.Invalid ||
nativeType == NativeTypeKind.Struct)
{
return(MarshallerKind.OleDateTime);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (InteropTypes.IsHandleRef(context, type))
{
if (nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.HandleRef);
}
else
{
return(MarshallerKind.Invalid);
}
}
switch (nativeType)
{
case NativeTypeKind.Invalid:
case NativeTypeKind.Struct:
if (InteropTypes.IsSystemDecimal(context, type))
{
return(MarshallerKind.Decimal);
}
break;
case NativeTypeKind.LPStruct:
if (InteropTypes.IsSystemGuid(context, type) ||
InteropTypes.IsSystemDecimal(context, type))
{
if (isField || isReturn)
{
return(MarshallerKind.Invalid);
}
else
{
return(MarshallerKind.BlittableStructPtr);
}
}
break;
default:
return(MarshallerKind.Invalid);
}
if (type is MetadataType)
{
MetadataType metadataType = (MetadataType)type;
// the struct type need to be either sequential or explicit. If it is
// auto layout we will throw exception.
if (!metadataType.IsSequentialLayout && !metadataType.IsExplicitLayout)
{
throw new InvalidProgramException("The specified structure " + metadataType.Name + " has invalid StructLayout information. It must be either Sequential or Explicit.");
}
}
if (MarshalHelpers.IsBlittableType(type))
{
return(MarshallerKind.BlittableStruct);
}
else
{
return(MarshallerKind.Struct);
}
}
else if (type.IsSzArray)
{
if (nativeType == NativeTypeKind.Invalid)
{
nativeType = NativeTypeKind.Array;
}
switch (nativeType)
{
case NativeTypeKind.Array:
{
if (isField || isReturn)
{
return(MarshallerKind.Invalid);
}
var arrayType = (ArrayType)type;
elementMarshallerKind = GetArrayElementMarshallerKind(
arrayType,
marshalAs,
isAnsi);
// If element is invalid type, the array itself is invalid
if (elementMarshallerKind == MarshallerKind.Invalid)
{
return(MarshallerKind.Invalid);
}
if (elementMarshallerKind == MarshallerKind.AnsiChar)
{
return(MarshallerKind.AnsiCharArray);
}
else if (elementMarshallerKind == MarshallerKind.UnicodeChar || // Arrays of unicode char should be marshalled as blittable arrays
elementMarshallerKind == MarshallerKind.Enum ||
elementMarshallerKind == MarshallerKind.BlittableValue)
{
return(MarshallerKind.BlittableArray);
}
else
{
return(MarshallerKind.Array);
}
}
case NativeTypeKind.ByValArray: // fix sized array
{
var arrayType = (ArrayType)type;
elementMarshallerKind = GetArrayElementMarshallerKind(
arrayType,
marshalAs,
isAnsi);
// If element is invalid type, the array itself is invalid
if (elementMarshallerKind == MarshallerKind.Invalid)
{
return(MarshallerKind.Invalid);
}
if (elementMarshallerKind == MarshallerKind.AnsiChar)
{
return(MarshallerKind.ByValAnsiCharArray);
}
else
{
return(MarshallerKind.ByValArray);
}
}
default:
return(MarshallerKind.Invalid);
}
}
else if (type.IsPointer || type.IsFunctionPointer)
{
if (nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (type.IsDelegate)
{
if (nativeType == NativeTypeKind.Invalid || nativeType == NativeTypeKind.Func)
{
return(MarshallerKind.FunctionPointer);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (type.IsString)
{
switch (nativeType)
{
case NativeTypeKind.LPWStr:
return(MarshallerKind.UnicodeString);
case NativeTypeKind.LPStr:
return(MarshallerKind.AnsiString);
case NativeTypeKind.LPTStr:
return(MarshallerKind.UnicodeString);
case NativeTypeKind.ByValTStr:
if (isAnsi)
{
elementMarshallerKind = MarshallerKind.AnsiChar;
return(MarshallerKind.ByValAnsiString);
}
else
{
elementMarshallerKind = MarshallerKind.UnicodeChar;
return(MarshallerKind.ByValUnicodeString);
}
case NativeTypeKind.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiString);
}
else
{
return(MarshallerKind.UnicodeString);
}
default:
return(MarshallerKind.Invalid);
}
}
// else if (type.IsObject)
// {
// if (nativeType == NativeTypeKind.Invalid)
// return MarshallerKind.Variant;
// else
// return MarshallerKind.Invalid;
// }
else if (InteropTypes.IsStringBuilder(context, type))
{
switch (nativeType)
{
case NativeTypeKind.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiStringBuilder);
}
else
{
return(MarshallerKind.UnicodeStringBuilder);
}
case NativeTypeKind.LPStr:
return(MarshallerKind.AnsiStringBuilder);
case NativeTypeKind.LPWStr:
return(MarshallerKind.UnicodeStringBuilder);
default:
return(MarshallerKind.Invalid);
}
}
else if (InteropTypes.IsSafeHandle(context, type))
{
if (nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.SafeHandle);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (InteropTypes.IsCriticalHandle(context, type))
{
if (nativeType == NativeTypeKind.Invalid)
{
return(MarshallerKind.CriticalHandle);
}
else
{
return(MarshallerKind.Invalid);
}
}
else
{
return(MarshallerKind.Invalid);
}
}
private static MarshallerKind GetArrayElementMarshallerKind(
ArrayType arrayType,
TypeDesc elementType,
MarshalAsDescriptor marshalAs,
PInvokeMethodData methodData,
bool isField)
{
bool isAnsi = (methodData.GetCharSet() & PInvokeAttributes.CharSetAnsi) == PInvokeAttributes.CharSetAnsi;
NativeType nativeType = NativeType.Invalid;
if (marshalAs != null)
{
nativeType = (NativeType)marshalAs.ArraySubType;
}
if (elementType.IsPrimitive)
{
switch (elementType.Category)
{
case TypeFlags.Char:
switch (nativeType)
{
case NativeType.I1:
case NativeType.U1:
return(MarshallerKind.AnsiChar);
case NativeType.I2:
case NativeType.U2:
return(MarshallerKind.UnicodeChar);
default:
if (isAnsi)
{
return(MarshallerKind.AnsiChar);
}
else
{
return(MarshallerKind.UnicodeChar);
}
}
case TypeFlags.Boolean:
switch (nativeType)
{
case NativeType.Boolean:
return(MarshallerKind.Bool);
case NativeType.I1:
case NativeType.U1:
return(MarshallerKind.CBool);
case NativeType.Invalid:
default:
return(MarshallerKind.Bool);
}
case TypeFlags.IntPtr:
case TypeFlags.UIntPtr:
return(MarshallerKind.BlittableValue);
case TypeFlags.Void:
return(MarshallerKind.Invalid);
case TypeFlags.SByte:
case TypeFlags.Int16:
case TypeFlags.Int32:
case TypeFlags.Int64:
case TypeFlags.Byte:
case TypeFlags.UInt16:
case TypeFlags.UInt32:
case TypeFlags.UInt64:
case TypeFlags.Single:
case TypeFlags.Double:
return(MarshallerKind.BlittableValue);
default:
return(MarshallerKind.Invalid);
}
}
else if (elementType.IsValueType)
{
if (elementType.IsEnum)
{
return(MarshallerKind.Enum);
}
if (methodData.IsSystemDecimal(elementType))
{
switch (nativeType)
{
case NativeType.Invalid:
case NativeType.Struct:
return(MarshallerKind.Decimal);
case NativeType.LPStruct:
return(MarshallerKind.BlittableStructPtr);
default:
return(MarshallerKind.Invalid);
}
}
else if (methodData.IsSystemGuid(elementType))
{
switch (nativeType)
{
case NativeType.Invalid:
case NativeType.Struct:
return(MarshallerKind.BlittableValue);
case NativeType.LPStruct:
return(MarshallerKind.BlittableStructPtr);
default:
return(MarshallerKind.Invalid);
}
}
else if (methodData.IsSystemDateTime(elementType))
{
if (nativeType == NativeType.Invalid ||
nativeType == NativeType.Struct)
{
return(MarshallerKind.OleDateTime);
}
else
{
return(MarshallerKind.Invalid);
}
}
/*
* TODO: Bring HandleRef to CoreLib
* https://github.com/dotnet/corert/issues/2570
*
* else if (methodData.IsHandleRef(elementType))
* {
* return MarshallerKind.HandleRef;
* }
*/
else
{
if (MarshalHelpers.IsBlittableType(elementType))
{
switch (nativeType)
{
case NativeType.Invalid:
case NativeType.Struct:
return(MarshallerKind.BlittableStruct);
default:
return(MarshallerKind.Invalid);
}
}
else
{
// TODO: Differentiate between struct and Union, we only need to support struct not union here
return(MarshallerKind.Struct);
}
}
}
else // !valueType
{
if (elementType.IsString)
{
switch (nativeType)
{
case NativeType.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiString);
}
else
{
return(MarshallerKind.UnicodeString);
}
case NativeType.LPStr:
return(MarshallerKind.AnsiString);
case NativeType.LPWStr:
return(MarshallerKind.UnicodeString);
default:
return(MarshallerKind.Invalid);
}
}
if (elementType.IsObject)
{
if (nativeType == NativeType.Invalid)
{
return(MarshallerKind.Variant);
}
else
{
return(MarshallerKind.Invalid);
}
}
if (elementType.IsSzArray)
{
return(MarshallerKind.Invalid);
}
if (elementType.IsPointer)
{
return(MarshallerKind.Invalid);
}
if (methodData.IsSafeHandle(elementType))
{
return(MarshallerKind.Invalid);
}
/*
* TODO: Bring CriticalHandle to CoreLib
* https://github.com/dotnet/corert/issues/2570
*
* if (methodData.IsCriticalHandle(elementType))
* {
* return MarshallerKind.Invalid;
* }
*/
}
return(MarshallerKind.Invalid);
}
private static MarshallerKind GetMarshallerKind(
TypeDesc type,
ParameterMetadata parameterData,
PInvokeMethodData methodData,
bool isField)
{
if (type.IsByRef)
{
var byRefType = (ByRefType)type;
type = byRefType.ParameterType;
}
NativeType nativeType = NativeType.Invalid;
bool isReturn = parameterData.Return;
MarshalAsDescriptor marshalAs = parameterData.MarshalAsDescriptor;
if (marshalAs != null)
{
nativeType = (NativeType)marshalAs.Type;
}
bool isAnsi = (methodData.GetCharSet() & PInvokeAttributes.CharSetAnsi) == PInvokeAttributes.CharSetAnsi;
//
// Determine MarshalerKind
//
// This mostly resembles desktop CLR and .NET Native code as we need to match their behavior
//
if (type.IsPrimitive)
{
switch (type.Category)
{
case TypeFlags.Void:
return(MarshallerKind.VoidReturn);
case TypeFlags.Boolean:
switch (nativeType)
{
case NativeType.Invalid:
case NativeType.Boolean:
return(MarshallerKind.Bool);
case NativeType.U1:
case NativeType.I1:
return(MarshallerKind.CBool);
default:
return(MarshallerKind.Invalid);
}
case TypeFlags.Char:
switch (nativeType)
{
case NativeType.I1:
case NativeType.U1:
return(MarshallerKind.AnsiChar);
case NativeType.I2:
case NativeType.U2:
return(MarshallerKind.UnicodeChar);
case NativeType.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiChar);
}
else
{
return(MarshallerKind.UnicodeChar);
}
default:
return(MarshallerKind.Invalid);
}
case TypeFlags.SByte:
case TypeFlags.Byte:
if (nativeType == NativeType.I1 || nativeType == NativeType.U1 || nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Int16:
case TypeFlags.UInt16:
if (nativeType == NativeType.I2 || nativeType == NativeType.U2 || nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Int32:
case TypeFlags.UInt32:
if (nativeType == NativeType.I4 || nativeType == NativeType.U4 || nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Int64:
case TypeFlags.UInt64:
if (nativeType == NativeType.I8 || nativeType == NativeType.U8 || nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.IntPtr:
case TypeFlags.UIntPtr:
if (nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Single:
if (nativeType == NativeType.R4 || nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
case TypeFlags.Double:
if (nativeType == NativeType.R8 || nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
default:
return(MarshallerKind.Invalid);
}
}
else if (type.IsValueType)
{
if (type.IsEnum)
{
return(MarshallerKind.Enum);
}
if (methodData.IsSystemDateTime(type))
{
if (nativeType == NativeType.Invalid ||
nativeType == NativeType.Struct)
{
return(MarshallerKind.OleDateTime);
}
else
{
return(MarshallerKind.Invalid);
}
}
/*
* TODO: Bring HandleRef to CoreLib
* https://github.com/dotnet/corert/issues/2570
*
* else if (methodData.IsHandleRef(type))
* {
* if (nativeType == NativeType.Invalid)
* return MarshallerKind.HandleRef;
* else
* return MarshallerKind.Invalid;
* }
*/
switch (nativeType)
{
case NativeType.Invalid:
case NativeType.Struct:
if (methodData.IsSystemDecimal(type))
{
return(MarshallerKind.Decimal);
}
break;
case NativeType.LPStruct:
if (methodData.IsSystemGuid(type) ||
methodData.IsSystemDecimal(type))
{
if (isField || isReturn)
{
return(MarshallerKind.Invalid);
}
else
{
return(MarshallerKind.BlittableStructPtr);
}
}
break;
default:
return(MarshallerKind.Invalid);
}
if (MarshalHelpers.IsBlittableType(type))
{
return(MarshallerKind.BlittableStruct);
}
else
{
return(MarshallerKind.Struct);
}
}
else // !ValueType
{
if (type.Category == TypeFlags.Class)
{
if (type.IsString)
{
switch (nativeType)
{
case NativeType.LPWStr:
return(MarshallerKind.UnicodeString);
case NativeType.LPStr:
return(MarshallerKind.AnsiString);
case NativeType.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiString);
}
else
{
return(MarshallerKind.UnicodeString);
}
default:
return(MarshallerKind.Invalid);
}
}
else if (type.IsDelegate)
{
if (nativeType == NativeType.Invalid || nativeType == NativeType.Func)
{
return(MarshallerKind.FunctionPointer);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (type.IsObject)
{
if (nativeType == NativeType.Invalid)
{
return(MarshallerKind.Variant);
}
else
{
return(MarshallerKind.Invalid);
}
}
else if (methodData.IsStringBuilder(type))
{
switch (nativeType)
{
case NativeType.Invalid:
if (isAnsi)
{
return(MarshallerKind.AnsiStringBuilder);
}
else
{
return(MarshallerKind.UnicodeStringBuilder);
}
case NativeType.LPStr:
return(MarshallerKind.AnsiStringBuilder);
case NativeType.LPWStr:
return(MarshallerKind.UnicodeStringBuilder);
default:
return(MarshallerKind.Invalid);
}
}
else if (methodData.IsSafeHandle(type))
{
if (nativeType == NativeType.Invalid)
{
return(MarshallerKind.SafeHandle);
}
else
{
return(MarshallerKind.Invalid);
}
}
/*
* TODO: Bring CriticalHandle to CoreLib
* https://github.com/dotnet/corert/issues/2570
*
* else if (methodData.IsCriticalHandle(type))
* {
* if (nativeType != NativeType.Invalid || isField)
* {
* return MarshallerKind.Invalid;
* }
* else
* {
* return MarshallerKind.CriticalHandle;
* }
* }
*/
return(MarshallerKind.Invalid);
}
else if (methodData.IsSystemArray(type))
{
return(MarshallerKind.Invalid);
}
else if (type.IsSzArray)
{
MarshallerKind elementMarshallerKind;
if (nativeType == NativeType.Invalid)
{
nativeType = NativeType.Array;
}
switch (nativeType)
{
case NativeType.Array:
{
if (isField || isReturn)
{
return(MarshallerKind.Invalid);
}
var arrayType = (ArrayType)type;
elementMarshallerKind = GetArrayElementMarshallerKind(
arrayType,
arrayType.ElementType,
marshalAs,
methodData,
isField);
// If element is invalid type, the array itself is invalid
if (elementMarshallerKind == MarshallerKind.Invalid)
{
return(MarshallerKind.Invalid);
}
if (elementMarshallerKind == MarshallerKind.AnsiChar)
{
return(MarshallerKind.AnsiCharArray);
}
else if (elementMarshallerKind == MarshallerKind.UnicodeChar)
{
// Arrays of unicode char should be marshalled as blittable arrays
return(MarshallerKind.BlittableArray);
}
else
{
return(MarshallerKind.Array);
}
}
case NativeType.ByValArray: // fix sized array
{
var arrayType = (ArrayType)type;
elementMarshallerKind = GetArrayElementMarshallerKind(
arrayType,
arrayType.ElementType,
marshalAs,
methodData,
isField);
// If element is invalid type, the array itself is invalid
if (elementMarshallerKind == MarshallerKind.Invalid)
{
return(MarshallerKind.Invalid);
}
if (elementMarshallerKind == MarshallerKind.AnsiChar)
{
return(MarshallerKind.ByValAnsiCharArray);
}
else
{
return(MarshallerKind.ByValArray);
}
}
default:
return(MarshallerKind.Invalid);
}
}
else if (type.Category == TypeFlags.Pointer)
{
//
// @TODO - add checks for the pointee type in case the pointee type is not blittable
// C# already does this and will emit compilation errors (can't declare pointers to
// managed type).
//
if (nativeType == NativeType.Invalid)
{
return(MarshallerKind.BlittableValue);
}
else
{
return(MarshallerKind.Invalid);
}
}
}
return(MarshallerKind.Invalid);
}
private static MarshallerKind GetMarshallerKind(TypeDesc type, MarshalAsDescriptor marshalAs, PInvokeMethodData PInvokeMethodData, bool isReturn)
{
if (isReturn)
{
if (type.IsVoid)
{
return(MarshallerKind.VoidReturn);
}
if (MarshalHelpers.IsBlittableType(type))
{
return(MarshallerKind.BlittableValue);
}
if (type.Category == TypeFlags.Boolean)
{
return(MarshallerKind.Bool);
}
if (PInvokeMethodData.IsSafeHandle(type))
{
return(MarshallerKind.SafeHandle);
}
throw new NotSupportedException();
}
if (MarshalHelpers.IsBlittableType(type))
{
return(MarshallerKind.BlittableValue);
}
TypeSystemContext context = PInvokeMethodData.Context;
if (type.IsSzArray)
{
var arrayType = (ArrayType)type;
if (MarshalHelpers.IsBlittableType(arrayType.ParameterType))
{
return(MarshallerKind.BlittableArray);
}
if (arrayType.ParameterType == context.GetWellKnownType(WellKnownType.Char))
{
if (PInvokeMethodData.GetCharSet() == PInvokeAttributes.CharSetUnicode)
{
return(MarshallerKind.BlittableArray);
}
}
}
if (type.IsByRef)
{
var byRefType = (ByRefType)type;
if (MarshalHelpers.IsBlittableType(byRefType.ParameterType))
{
return(MarshallerKind.BlittableByRef);
}
if (byRefType.ParameterType == context.GetWellKnownType(WellKnownType.Char))
{
if (PInvokeMethodData.GetCharSet() == PInvokeAttributes.CharSetUnicode)
{
return(MarshallerKind.BlittableByRef);
}
}
}
if (type.IsString)
{
return(MarshallerKind.String);
}
if (type.Category == TypeFlags.Boolean)
{
return(MarshallerKind.Bool);
}
if (type is MetadataType)
{
var metadataType = (MetadataType)type;
if (metadataType.Module == context.SystemModule)
{
var nameSpace = metadataType.Namespace;
var name = metadataType.Name;
if (name == "StringBuilder" && nameSpace == "System.Text")
{
return(MarshallerKind.StringBuilder);
}
}
}
if (PInvokeMethodData.IsSafeHandle(type))
{
return(MarshallerKind.SafeHandle);
}
throw new NotSupportedException();
}
