static unsafe bool BlockCopyInternal(byte *src, int srcOffset, byte *dest, int destOffset,
int count)
{
/* Return false on overflow within src or dest */
int srcElemSize = *(int *)(src + ArrayOperations.GetElemSizeOffset());
//int srcIALength = *(int*)(src + ArrayOperations.GetInnerArrayLengthOffset());
int srcIALength = 0;
throw new NotImplementedException();
int srcByteSize = srcElemSize * srcIALength;
if ((srcOffset + count) > srcByteSize)
{
return(false);
}
int destElemSize = *(int *)(dest + ArrayOperations.GetElemSizeOffset());
//int destIALength = *(int*)(dest + ArrayOperations.GetInnerArrayLengthOffset());
int destIALength = 0;
int destByteSize = destElemSize * destIALength;
if ((destOffset + count) > destByteSize)
{
return(false);
}
/* Get source and dest addresses */
byte *srcAddr = *(byte **)(src + ArrayOperations.GetInnerArrayOffset()) + srcOffset;
byte *destAddr = *(byte **)(dest + ArrayOperations.GetInnerArrayOffset()) + destOffset;
/* Execute a memmove */
MemoryOperations.MemMove((void *)destAddr, (void *)srcAddr, count);
return(true);
}
static unsafe void InitializeArray(void *arr, void *fld_handle)
{
System.Diagnostics.Debugger.Log(0, "libsupcs", "InitializeArray: arr: " + ((ulong)arr).ToString("X16") + ", fld_handle: " + ((ulong)fld_handle).ToString("X16"));
void *dst = *(void **)((byte *)arr + ArrayOperations.GetInnerArrayOffset());
/* Get total number of elements, and hence data size */
int *sizes = *(int **)((byte *)arr + ArrayOperations.GetSizesOffset());
int rank = *(int *)((byte *)arr + ArrayOperations.GetRankOffset());
if (rank == 0)
{
return;
}
int size = sizes[0];
for (int i = 1; i < rank; i++)
{
size *= sizes[i];
}
int len = size * *(int *)((byte *)arr + ArrayOperations.GetElemSizeOffset());
/* Field Typeinfos hava a pointer to the stored data as their third element */
void *src = ((void **)fld_handle)[2];
System.Diagnostics.Debugger.Log(0, "libsupcs", "InitializeArray: src: " + ((ulong)src).ToString("X16") +
", dest: " + ((ulong)dst).ToString("X16") + ", len: " + len.ToString());
MemoryOperations.MemCpy(dst, src, len);
}
static unsafe int ByteLengthInternal(byte *arr)
{
int elemSize = *(int *)(arr + ArrayOperations.GetElemSizeOffset());
//int iaLength = *(int*)(arr + ArrayOperations.GetInnerArrayLengthOffset());
throw new NotImplementedException();
//return elemSize * iaLength;
}
static unsafe void CopyToNative(void *srcArr, int startIndex, void *dst, int length)
{
var esize = *(int *)((byte *)srcArr + ArrayOperations.GetElemSizeOffset());
int *lovals = *(int **)((byte *)srcArr + ArrayOperations.GetLoboundsOffset());
var src = *(byte **)((byte *)srcArr + ArrayOperations.GetInnerArrayOffset()) + (startIndex - lovals[0]) * esize;
MemoryOperations.MemCpy(dst, src, length * esize);
}
static unsafe void Clear(void *arr, int index, int length)
{
/* Get a pointer to the source data */
var elem_size = *(int *)((byte *)arr + ArrayOperations.GetElemSizeOffset());
void *ia = *(void **)((byte *)arr + ArrayOperations.GetInnerArrayOffset());
void *sptr = (void *)((byte *)ia + index * elem_size);
var mem_size = length * elem_size;
MemoryOperations.MemSet(sptr, 0, mem_size);
}
static unsafe int GetLength(void *arr)
{
int arrRank = *(int *)((byte *)arr + ArrayOperations.GetRankOffset());
int *szPtr = *(int **)((byte *)arr + ArrayOperations.GetSizesOffset());
int ret = 1;
for (int i = 0; i < arrRank; i++)
{
ret = ret * *(szPtr + i);
}
return(ret);
}
static unsafe int GetLowerBound(void *arr, int rank)
{
int arrRank = *(int *)((byte *)arr + ArrayOperations.GetRankOffset());
if (rank < 0 || rank >= arrRank)
{
System.Diagnostics.Debugger.Break();
throw new IndexOutOfRangeException();
}
int *lbPtr = *(int **)((byte *)arr + ArrayOperations.GetLoboundsOffset());
return(*(lbPtr + rank));
}
static unsafe void CopyToManaged(void *src, void *dstArr, int startIndex, int length)
{
var esize = *(int *)((byte *)dstArr + ArrayOperations.GetElemSizeOffset());
int *lovals = *(int **)((byte *)dstArr + ArrayOperations.GetLoboundsOffset());
var dst = *(byte **)((byte *)dstArr + ArrayOperations.GetInnerArrayOffset()) + (startIndex - lovals[0]) * esize;
System.Diagnostics.Debugger.Log(0, null, "libsupcs: Array.CopyToManaged: src: " + ((ulong)src).ToString("X16") +
", dstArr: " + ((ulong)dstArr).ToString("X16") +
", startIndex: " + startIndex.ToString() +
", length: " + length.ToString() +
", esize: " + esize.ToString() +
", lovals[0]: " + lovals[0].ToString() +
", dst: " + ((ulong)dst).ToString("X16"));
MemoryOperations.MemCpy(dst, src, length * esize);
}
static unsafe int GetLength(void *arr, int rank)
{
if (arr == null)
{
System.Diagnostics.Debugger.Break();
throw new ArgumentNullException();
}
int arrRank = *(int *)((byte *)arr + ArrayOperations.GetRankOffset());
if (rank < 0 || rank >= arrRank)
{
System.Diagnostics.Debugger.Break();
throw new IndexOutOfRangeException();
}
int *szPtr = *(int **)((byte *)arr + ArrayOperations.GetSizesOffset());
return(*(szPtr + rank));
}
/* Build an array of a particular type */
public static unsafe T[] CreateSZArray <T>(int nitems, void *data_addr)
{
TysosType arrtt = (TysosType)typeof(T[]);
TysosType elemtt = (TysosType)typeof(T);
int elemsize;
if (elemtt.IsValueType)
{
elemsize = elemtt.GetClassSize() - ClassOperations.GetBoxedTypeDataOffset();
}
else
{
elemsize = OtherOperations.GetPointerSize();
}
if (data_addr == null)
{
data_addr = MemoryOperations.GcMalloc(elemsize * nitems);
}
byte *ret = (byte *)MemoryOperations.GcMalloc(ArrayOperations.GetArrayClassSize() + 8); // extra space for lobounds and length array
void *vtbl = *(void **)((byte *)CastOperations.ReinterpretAsPointer(arrtt) + ClassOperations.GetSystemTypeImplOffset());
*(void **)(ret + ClassOperations.GetVtblFieldOffset()) = vtbl;
*(ulong *)(ret + ClassOperations.GetMutexLockOffset()) = 0;
*(void **)(ret + ArrayOperations.GetElemTypeOffset()) = *(void **)((byte *)CastOperations.ReinterpretAsPointer(elemtt) + ClassOperations.GetSystemTypeImplOffset());
*(int *)(ret + ArrayOperations.GetElemSizeOffset()) = elemsize;
*(void **)(ret + ArrayOperations.GetInnerArrayOffset()) = data_addr;
*(void **)(ret + ArrayOperations.GetLoboundsOffset()) = ret + ArrayOperations.GetArrayClassSize();
*(void **)(ret + ArrayOperations.GetSizesOffset()) = ret + ArrayOperations.GetArrayClassSize() + 4;
*(int *)(ret + ArrayOperations.GetRankOffset()) = 1;
*(int *)(ret + ArrayOperations.GetArrayClassSize()) = 0; // lobounds[0]
*(int *)(ret + ArrayOperations.GetArrayClassSize() + 4) = nitems; // sizes[0]
return((T[])CastOperations.ReinterpretAsObject(ret));
}
static unsafe void InternalGetReference(void *arr, System.TypedReference *typedref, int ranks, int *rank_indices)
{
// idx = rightmost-index + 2nd-right * rightmost-size + 3rd-right * 2nd-right-size * right-size + ...
// rank checking is done by System.Array members in coreclr
int *lovals = *(int **)((byte *)arr + ArrayOperations.GetLoboundsOffset());
int *sizes = *(int **)((byte *)arr + ArrayOperations.GetSizesOffset());
// first get index of first rank
if (rank_indices[0] > sizes[0])
{
throw new IndexOutOfRangeException();
}
int index = rank_indices[0] - lovals[0];
// now repeat mul rank size; add rank index; rank-1 times
for (int rank = 1; rank < ranks; rank++)
{
if (rank_indices[rank] > sizes[rank])
{
throw new IndexOutOfRangeException();
}
index *= sizes[rank];
index += rank_indices[rank];
}
// get pointer to actual data
int et_size = *(int *)((byte *)arr + ArrayOperations.GetElemSizeOffset());
void *ptr = *(byte **)((byte *)arr + ArrayOperations.GetInnerArrayOffset()) + index * et_size;
// store to the typed reference
*(void **)((byte *)typedref + ClassOperations.GetTypedReferenceValueOffset()) = ptr;
*(void **)((byte *)typedref + ClassOperations.GetTypedReferenceTypeOffset()) =
*(void **)((byte *)arr + ArrayOperations.GetElemTypeOffset());
}
static unsafe void *GetValueImpl(void *arr, int pos)
{
/* Get the element type of the array */
void *et = *(void **)((byte *)arr + ArrayOperations.GetElemTypeOffset());
/* Get a pointer to the source data */
var elem_size = *(int *)((byte *)arr + ArrayOperations.GetElemSizeOffset());
void *ia = *(void **)((byte *)arr + ArrayOperations.GetInnerArrayOffset());
void *sptr = (void *)((byte *)ia + pos * elem_size);
/* Is this a value type? In which case we need to return a boxed value */
void *extends = *(void **)((byte *)et + ClassOperations.GetVtblExtendsVtblPtrOffset());
if (extends == OtherOperations.GetStaticObjectAddress("_Zu1L") ||
extends == OtherOperations.GetStaticObjectAddress("_ZW6System4Enum"))
{
/* This is a value type. We need to read the size of the element,
* create a new object of the appropriate size and copy the data
* into it */
byte *ret = (byte *)MemoryOperations.GcMalloc(elem_size + ClassOperations.GetBoxedTypeDataOffset());
*(void **)(ret + ClassOperations.GetVtblFieldOffset()) = et;
*(ulong *)(ret + ClassOperations.GetMutexLockOffset()) = 0;
/* Avoid calls to memcpy if possible */
switch (elem_size)
{
case 1:
*(byte *)(ret + ClassOperations.GetBoxedTypeDataOffset()) = *(byte *)sptr;
return(ret);
case 2:
*(ushort *)(ret + ClassOperations.GetBoxedTypeDataOffset()) = *(ushort *)sptr;
return(ret);
case 4:
*(uint *)(ret + ClassOperations.GetBoxedTypeDataOffset()) = *(uint *)sptr;
return(ret);
case 8:
if (OtherOperations.GetPointerSize() >= 8)
{
*(ulong *)(ret + ClassOperations.GetBoxedTypeDataOffset()) = *(ulong *)sptr;
return(ret);
}
else
{
*(uint *)(ret + ClassOperations.GetBoxedTypeDataOffset()) = *(uint *)sptr;
*(uint *)(ret + ClassOperations.GetBoxedTypeDataOffset() + 4) = *(uint *)((byte *)sptr + 4);
return(ret);
}
case 16:
if (OtherOperations.GetPointerSize() >= 8)
{
*(ulong *)(ret + ClassOperations.GetBoxedTypeDataOffset()) = *(ulong *)sptr;
*(ulong *)(ret + ClassOperations.GetBoxedTypeDataOffset() + 8) = *(ulong *)((byte *)sptr + 8);
return(ret);
}
else
{
*(uint *)(ret + ClassOperations.GetBoxedTypeDataOffset()) = *(uint *)sptr;
*(uint *)(ret + ClassOperations.GetBoxedTypeDataOffset() + 4) = *(uint *)((byte *)sptr + 4);
*(uint *)(ret + ClassOperations.GetBoxedTypeDataOffset() + 8) = *(uint *)((byte *)sptr + 8);
*(uint *)(ret + ClassOperations.GetBoxedTypeDataOffset() + 12) = *(uint *)((byte *)sptr + 12);
return(ret);
}
}
/* Do data copy via memcpy */
MemoryOperations.MemCpy(ret + ClassOperations.GetBoxedTypeDataOffset(),
sptr, elem_size);
return(ret);
}
else
{
/* Its a reference type, so just return the pointer */
return(*(void **)sptr);
}
}
static unsafe void Copy(void *srcArr, int srcIndex, void *dstArr, int dstIndex, int length,
bool reliable)
{
/* Ensure arrays are valid */
if (srcArr == null || dstArr == null)
{
throw new ArgumentNullException();
}
/* Ensure length is valid */
if (length < 0)
{
throw new ArgumentOutOfRangeException();
}
/* Ensure both arrays are of the same rank */
var srcRank = *(int *)((byte *)srcArr + ArrayOperations.GetRankOffset());
var dstRank = *(int *)((byte *)dstArr + ArrayOperations.GetRankOffset());
if (srcRank != dstRank)
{
throw new RankException();
}
/* Get source and dest element types */
var srcET = *(void **)((byte *)srcArr + ArrayOperations.GetElemTypeOffset());
var dstET = *(void **)((byte *)dstArr + ArrayOperations.GetElemTypeOffset());
/* See if we can do a quick copy */
bool can_quick_copy = false;
if (srcET == dstET)
{
can_quick_copy = true;
}
else if (TysosType.CanCast(srcET, dstET))
{
can_quick_copy = true;
}
else if (reliable)
{
throw new ArrayTypeMismatchException(); /* ConstrainedCopy requires types to be the same or derived */
}
else
{
can_quick_copy = false;
}
/* For now we don't handle arrays with lobounds != 0 */
var srcLobounds = *(int **)((byte *)srcArr + ArrayOperations.GetLoboundsOffset());
var dstLobounds = *(int **)((byte *)dstArr + ArrayOperations.GetLoboundsOffset());
for (int i = 0; i < srcRank; i++)
{
if (srcLobounds[i] != 0)
{
throw new NotImplementedException("srcLobounds != 0");
}
if (dstLobounds[i] != 0)
{
throw new NotImplementedException("dstLobounds != 0");
}
}
if (srcIndex < 0 || dstIndex < 0)
{
throw new ArgumentOutOfRangeException();
}
/* Ensure we don't overflow */
var src_len = GetLength(srcArr);
var dst_len = GetLength(dstArr);
if (srcIndex + length > src_len)
{
System.Diagnostics.Debugger.Log(0, "libsupcs", "Array.Copy srcIndex/length out of range");
System.Diagnostics.Debugger.Log(length, "libsupcs", "length");
System.Diagnostics.Debugger.Log(srcIndex, "libsupcs", "srcIndex");
System.Diagnostics.Debugger.Log(src_len, "libsupcs", "src_len");
throw new ArgumentOutOfRangeException();
}
if (dstIndex + length > dst_len)
{
System.Diagnostics.Debugger.Log(0, "libsupcs", "Array.Copy dstIndex/length out of range");
System.Diagnostics.Debugger.Log(length, "libsupcs", "length");
System.Diagnostics.Debugger.Log(dstIndex, "libsupcs", "dstIndex");
System.Diagnostics.Debugger.Log(dst_len, "libsupcs", "dst_len");
throw new ArgumentOutOfRangeException();
}
if (can_quick_copy)
{
/* Elem size of both arrays is guaranteed to be the same and we can do a shallow copy */
var e_size = *(int *)((byte *)srcArr + ArrayOperations.GetElemSizeOffset());
var src_ia = *(byte **)((byte *)srcArr + ArrayOperations.GetInnerArrayOffset());
var dst_ia = *(byte **)((byte *)dstArr + ArrayOperations.GetInnerArrayOffset());
MemoryOperations.MemMove(dst_ia + dstIndex * e_size, src_ia + srcIndex * e_size, length * e_size);
}
else
{
/* TODO: implement as per System.Array.Copy() semantics */
throw new NotImplementedException("Cannot quick copy " + ((ulong)srcET).ToString("X") +
" to " + ((ulong)dstET).ToString("X"));
}
}
static unsafe int GetRank(void *arr)
{
return(*(int *)((byte *)arr + ArrayOperations.GetRankOffset()));
}
static unsafe bool FastCopy(void *srcArr, int srcIndex, void *dstArr, int dstIndex, int length)
{
/* This is often called with length == 0 when the
* first item is added to a List<T> as the default
* array within the list has length 0.
*/
if (length == 0)
{
return(true);
}
// Ensure both arrays are of rank 1
int srcRank = *(int *)((byte *)srcArr + ArrayOperations.GetRankOffset());
int dstRank = *(int *)((byte *)dstArr + ArrayOperations.GetRankOffset());
if (srcRank != 1)
{
return(false);
}
if (dstRank != 1)
{
return(false);
}
// Ensure srcIndex is valid
int srcLobound = **(int **)((byte *)srcArr + ArrayOperations.GetLoboundsOffset());
int srcSize = **(int **)((byte *)srcArr + ArrayOperations.GetSizesOffset());
srcIndex -= srcLobound;
if (srcIndex + length > srcSize)
{
return(false);
}
// Ensure destIndex is valid
int dstLobound = **(int **)((byte *)dstArr + ArrayOperations.GetLoboundsOffset());
int dstSize = **(int **)((byte *)dstArr + ArrayOperations.GetSizesOffset());
dstIndex -= dstLobound;
if (dstIndex + length > dstSize)
{
return(false);
}
// Ensure both have same element type
void *srcET = *(void **)((byte *)srcArr + ArrayOperations.GetElemTypeOffset());
void *dstET = *(void **)((byte *)dstArr + ArrayOperations.GetElemTypeOffset());
if (srcET != dstET)
{
return(false);
}
// Get element size
int elemSize = *(int *)((byte *)srcArr + ArrayOperations.GetElemSizeOffset());
srcIndex *= elemSize;
dstIndex *= elemSize;
byte *srcAddr = *(byte **)((byte *)srcArr + ArrayOperations.GetInnerArrayOffset()) + srcIndex;
byte *dstAddr = *(byte **)((byte *)dstArr + ArrayOperations.GetInnerArrayOffset()) + dstIndex;
length *= elemSize;
MemoryOperations.MemMove(dstAddr, srcAddr, length);
return(true);
}