internal BlobReader(MemoryBlock block)
{
Debug.Assert(BitConverter.IsLittleEndian && block.Length >= 0 && (block.Pointer != null || block.Length == 0));
_block = block;
_currentPointer = block.Pointer;
_endPointer = block.Pointer + block.Length;
}
public unsafe void DefaultDecodingFallbackMatchesBcl()
{
byte[] buffer;
int bytesRead;
var decoder = MetadataStringDecoder.DefaultUTF8;
// dangling lead byte
fixed (byte* ptr = (buffer = new byte[] { 0xC0 }))
{
string s = new MemoryBlock(ptr, buffer.Length).PeekUtf8NullTerminated(0, null, decoder, out bytesRead);
Assert.Equal("\uFFFD", new MemoryBlock(ptr, buffer.Length).PeekUtf8NullTerminated(0, null, decoder, out bytesRead));
Assert.Equal(s, Encoding.UTF8.GetString(buffer));
Assert.Equal(buffer.Length, bytesRead);
s = new MemoryBlock(ptr, buffer.Length).PeekUtf8NullTerminated(0, Encoding.UTF8.GetBytes("Hello"), decoder, out bytesRead);
Assert.Equal("Hello\uFFFD", s);
Assert.Equal(s, "Hello" + Encoding.UTF8.GetString(buffer));
Assert.Equal(buffer.Length, bytesRead);
Assert.Equal("\uFFFD", new MemoryBlock(ptr, buffer.Length).PeekUtf8(0, buffer.Length));
}
// overlong encoding
fixed (byte* ptr = (buffer = new byte[] { (byte)'a', 0xC0, 0xAF, (byte)'b', 0x0 }))
{
var block = new MemoryBlock(ptr, buffer.Length);
Assert.Equal("a\uFFFD\uFFFDb", block.PeekUtf8NullTerminated(0, null, decoder, out bytesRead));
Assert.Equal(buffer.Length, bytesRead);
}
// TODO: There are a bunch more error cases of course, but this is enough to break the old code
// and we now just call the BCL, so from a white box perspective, we needn't get carried away.
}
internal MethodDebugInformationTableReader(
int numberOfRows,
int documentRefSize,
int blobHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset)
{
NumberOfRows = numberOfRows;
_isDocumentRefSmall = documentRefSize == 2;
_isBlobHeapRefSizeSmall = blobHeapRefSize == 2;
_sequencePointsOffset = DocumentOffset + documentRefSize;
RowSize = _sequencePointsOffset + blobHeapRefSize;
Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, RowSize * numberOfRows);
}
private MethodBodyBlock(
bool localVariablesInitialized,
ushort maxStack,
StandaloneSignatureHandle localSignatureHandle,
MemoryBlock il,
ImmutableArray<ExceptionRegion> exceptionRegions,
int size)
{
Debug.Assert(!exceptionRegions.IsDefault);
this.localVariablesInitialized = localVariablesInitialized;
this.maxStack = maxStack;
this.localSignature = localSignatureHandle;
this.il = il;
this.exceptionRegions = exceptionRegions;
this.size = size;
}
internal DocumentTableReader(
int numberOfRows,
int guidHeapRefSize,
int blobHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset)
{
NumberOfRows = numberOfRows;
_isGuidHeapRefSizeSmall = guidHeapRefSize == 2;
_isBlobHeapRefSizeSmall = blobHeapRefSize == 2;
_hashAlgorithmOffset = NameOffset + blobHeapRefSize;
_hashOffset = _hashAlgorithmOffset + guidHeapRefSize;
_languageOffset = _hashOffset + blobHeapRefSize;
RowSize = _languageOffset + guidHeapRefSize;
Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, RowSize * numberOfRows);
}
internal ModuleTableReader(
int numberOfRows,
int stringHeapRefSize,
int guidHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset
)
{
this.NumberOfRows = numberOfRows;
_IsStringHeapRefSizeSmall = stringHeapRefSize == 2;
_IsGUIDHeapRefSizeSmall = guidHeapRefSize == 2;
_GenerationOffset = 0;
_NameOffset = _GenerationOffset + sizeof(UInt16);
_MVIdOffset = _NameOffset + stringHeapRefSize;
_EnCIdOffset = _MVIdOffset + guidHeapRefSize;
_EnCBaseIdOffset = _EnCIdOffset + guidHeapRefSize;
this.RowSize = _EnCBaseIdOffset + guidHeapRefSize;
this.Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, this.RowSize * (int)numberOfRows);
}
private void TestUtf8NullTerminatedFastCompare(
MemoryBlock block,
int offset,
char terminator,
string comparand,
int comparandOffset,
bool ignoreCase,
MemoryBlock.FastComparisonResult expectedResult,
int expectedFirstDifferenceIndex)
{
int actualFirstDifferenceIndex;
var actualResult = block.Utf8NullTerminatedFastCompare(offset, comparand, comparandOffset, out actualFirstDifferenceIndex, terminator, ignoreCase);
Assert.Equal(expectedResult, actualResult);
Assert.Equal(expectedFirstDifferenceIndex, actualFirstDifferenceIndex);
}
public unsafe void Utf8NullTerminatedFastCompare()
{
byte[] heap;
MetadataStringDecoder decoder = MetadataStringDecoder.DefaultUTF8;
const bool HonorCase = false;
const bool IgnoreCase = true;
const char terminator_0 = '\0';
const char terminator_F = 'F';
const char terminator_X = 'X';
const char terminator_x = 'x';
fixed (byte* heapPtr = (heap = new byte[] { (byte)'F', 0, (byte)'X', (byte)'Y', /* U+12345 (\ud808\udf45) */ 0xf0, 0x92, 0x8d, 0x85 }))
{
var block = new MemoryBlock(heapPtr, heap.Length);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_0, "F", 0, HonorCase, MemoryBlock.FastComparisonResult.Equal, 1);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_0, "f", 0, IgnoreCase, MemoryBlock.FastComparisonResult.Equal, 1);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_F, "", 0, IgnoreCase, MemoryBlock.FastComparisonResult.Equal, 0);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_F, "*", 1, IgnoreCase, MemoryBlock.FastComparisonResult.Equal, 1);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_0, "FF", 0, HonorCase, MemoryBlock.FastComparisonResult.TextStartsWithBytes, 1);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_0, "fF", 0, IgnoreCase, MemoryBlock.FastComparisonResult.TextStartsWithBytes, 1);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_0, "F\0", 0, HonorCase, MemoryBlock.FastComparisonResult.TextStartsWithBytes, 1);
TestUtf8NullTerminatedFastCompare(block, 0, terminator_X, "F\0", 0, HonorCase, MemoryBlock.FastComparisonResult.TextStartsWithBytes, 1);
TestUtf8NullTerminatedFastCompare(block, 2, terminator_0, "X", 0, HonorCase, MemoryBlock.FastComparisonResult.BytesStartWithText, 1);
TestUtf8NullTerminatedFastCompare(block, 2, terminator_0, "x", 0, IgnoreCase, MemoryBlock.FastComparisonResult.BytesStartWithText, 1);
TestUtf8NullTerminatedFastCompare(block, 2, terminator_x, "XY", 0, IgnoreCase, MemoryBlock.FastComparisonResult.BytesStartWithText, 2);
TestUtf8NullTerminatedFastCompare(block, 3, terminator_0, "yZ", 0, IgnoreCase, MemoryBlock.FastComparisonResult.Unequal, 1);
TestUtf8NullTerminatedFastCompare(block, 4, terminator_0, "a", 0, HonorCase, MemoryBlock.FastComparisonResult.Unequal, 0);
TestUtf8NullTerminatedFastCompare(block, 4, terminator_0, "\ud808", 0, HonorCase, MemoryBlock.FastComparisonResult.Inconclusive, 0);
TestUtf8NullTerminatedFastCompare(block, 4, terminator_0, "\ud808\udf45", 0, HonorCase, MemoryBlock.FastComparisonResult.Inconclusive, 0);
}
}
private static unsafe void TestComparison(MemoryBlock block, int offset, string value, string heapSubstr, MetadataStringDecoder decoder, bool ignoreCase)
{
// equals:
bool actualEq = block.Utf8NullTerminatedEquals(offset, value, decoder, terminator: '\0', ignoreCase: ignoreCase);
bool expectedEq = string.Equals(heapSubstr, value, ignoreCase ? StringComparison.OrdinalIgnoreCase : StringComparison.Ordinal);
Assert.Equal(expectedEq, actualEq);
// starts with:
bool actualSW = block.Utf8NullTerminatedStartsWith(offset, value, decoder, terminator: '\0', ignoreCase: ignoreCase);
bool expectedSW = heapSubstr.StartsWith(value, ignoreCase ? StringComparison.OrdinalIgnoreCase : StringComparison.Ordinal);
Assert.Equal(actualSW, expectedSW);
}
internal ConstantTableReader(
int numberOfRows,
bool declaredSorted,
int hasConstantRefSize,
int blobHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset
)
{
this.NumberOfRows = numberOfRows;
_IsHasConstantRefSizeSmall = hasConstantRefSize == 2;
_IsBlobHeapRefSizeSmall = blobHeapRefSize == 2;
_TypeOffset = 0;
_ParentOffset = _TypeOffset + sizeof(Byte) + 1; // Alignment here (+1)...
_ValueOffset = _ParentOffset + hasConstantRefSize;
this.RowSize = _ValueOffset + blobHeapRefSize;
this.Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, (int)(this.RowSize * numberOfRows));
if (!declaredSorted && !CheckSorted())
{
Throw.TableNotSorted(TableIndex.Constant);
}
}
public unsafe void PeekReference()
{
var table = new byte[]
{
0xff, 0xff, 0xff, 0x00, // offset 0
0xff, 0xff, 0xff, 0x01, // offset 4
0xff, 0xff, 0xff, 0x1f, // offset 8
0xff, 0xff, 0xff, 0x2f, // offset 12
0xff, 0xff, 0xff, 0xff, // offset 16
};
fixed (byte* tablePtr = table)
{
var block = new MemoryBlock(tablePtr, table.Length);
Assert.Equal(0x0000ffff, block.PeekReference(0, smallRefSize: true));
Assert.Equal(0x0000ffff, block.PeekHeapReference(0, smallRefSize: true));
Assert.Equal(0x0000ffffu, block.PeekReferenceUnchecked(0, smallRefSize: true));
Assert.Equal(0x00ffffff, block.PeekReference(0, smallRefSize: false));
Assert.Throws<BadImageFormatException>(() => block.PeekReference(4, smallRefSize: false));
Assert.Throws<BadImageFormatException>(() => block.PeekReference(16, smallRefSize: false));
Assert.Equal(0x1fffffff, block.PeekHeapReference(8, smallRefSize: false));
Assert.Throws<BadImageFormatException>(() => block.PeekHeapReference(12, smallRefSize: false));
Assert.Throws<BadImageFormatException>(() => block.PeekHeapReference(16, smallRefSize: false));
Assert.Equal(0x01ffffffu, block.PeekReferenceUnchecked(4, smallRefSize: false));
Assert.Equal(0x1fffffffu, block.PeekReferenceUnchecked(8, smallRefSize: false));
Assert.Equal(0x2fffffffu, block.PeekReferenceUnchecked(12, smallRefSize: false));
Assert.Equal(0xffffffffu, block.PeekReferenceUnchecked(16, smallRefSize: false));
}
}
private unsafe void TestSearch(string heapValue, int offset, string[] values)
{
byte[] heap;
fixed (byte* heapPtr = (heap = Encoding.UTF8.GetBytes(heapValue)))
{
int actual = new MemoryBlock(heapPtr, heap.Length).BinarySearch(values, offset);
string heapSubstr = GetStringHeapValue(heapValue, offset);
int expected = Array.BinarySearch(values, heapSubstr);
Assert.Equal(expected, actual);
}
}
/// <summary>
/// Creates a metadata reader from the metadata stored at the given memory location.
/// </summary>
/// <remarks>
/// The memory is owned by the caller and it must be kept memory alive and unmodified throughout the lifetime of the <see cref="MetadataReader"/>.
/// Use <see cref="PEReaderExtensions.GetMetadataReader(PortableExecutable.PEReader, MetadataReaderOptions, MetadataStringDecoder)"/> to obtain
/// metadata from a PE image.
/// </remarks>
/// <exception cref="ArgumentOutOfRangeException"><paramref name="length"/> is not positive.</exception>
/// <exception cref="ArgumentNullException"><paramref name="metadata"/> is null.</exception>
/// <exception cref="ArgumentException">The encoding of <paramref name="utf8Decoder"/> is not <see cref="UTF8Encoding"/>.</exception>
/// <exception cref="PlatformNotSupportedException">The current platform is big-endian.</exception>
public unsafe MetadataReader(byte* metadata, int length, MetadataReaderOptions options, MetadataStringDecoder utf8Decoder)
{
// Do not throw here when length is 0. We'll throw BadImageFormatException later on, so that the caller doesn't need to
// worry about the image (stream) being empty and can handle all image errors by catching BadImageFormatException.
if (length < 0)
{
throw new ArgumentOutOfRangeException(nameof(length));
}
if (metadata == null)
{
throw new ArgumentNullException(nameof(metadata));
}
if (utf8Decoder == null)
{
utf8Decoder = MetadataStringDecoder.DefaultUTF8;
}
if (!(utf8Decoder.Encoding is UTF8Encoding))
{
throw new ArgumentException(SR.MetadataStringDecoderEncodingMustBeUtf8, nameof(utf8Decoder));
}
if (!BitConverter.IsLittleEndian)
{
Throw.LitteEndianArchitectureRequired();
}
this.Block = new MemoryBlock(metadata, length);
_options = options;
this.UTF8Decoder = utf8Decoder;
var headerReader = new BlobReader(this.Block);
this.ReadMetadataHeader(ref headerReader, out _versionString);
_metadataKind = GetMetadataKind(_versionString);
var streamHeaders = this.ReadStreamHeaders(ref headerReader);
// storage header and stream headers:
MemoryBlock metadataTableStream;
MemoryBlock standalonePdbStream;
this.InitializeStreamReaders(ref this.Block, streamHeaders, out _metadataStreamKind, out metadataTableStream, out standalonePdbStream);
int[] externalTableRowCountsOpt;
if (standalonePdbStream.Length > 0)
{
ReadStandalonePortablePdbStream(standalonePdbStream, out _debugMetadataHeader, out externalTableRowCountsOpt);
}
else
{
externalTableRowCountsOpt = null;
}
var tableReader = new BlobReader(metadataTableStream);
HeapSizes heapSizes;
int[] metadataTableRowCounts;
this.ReadMetadataTableHeader(ref tableReader, out heapSizes, out metadataTableRowCounts, out _sortedTables);
this.InitializeTableReaders(tableReader.GetMemoryBlockAt(0, tableReader.RemainingBytes), heapSizes, metadataTableRowCounts, externalTableRowCountsOpt);
// This previously could occur in obfuscated assemblies but a check was added to prevent
// it getting to this point
Debug.Assert(this.AssemblyTable.NumberOfRows <= 1);
// Although the specification states that the module table will have exactly one row,
// the native metadata reader would successfully read files containing more than one row.
// Such files exist in the wild and may be produced by obfuscators.
if (standalonePdbStream.Length == 0 && this.ModuleTable.NumberOfRows < 1)
{
throw new BadImageFormatException(SR.Format(SR.ModuleTableInvalidNumberOfRows, this.ModuleTable.NumberOfRows));
}
// read
this.NamespaceCache = new NamespaceCache(this);
if (_metadataKind != MetadataKind.Ecma335)
{
this.WinMDMscorlibRef = FindMscorlibAssemblyRefNoProjection();
}
}
private void InitializeTableReaders(MemoryBlock metadataTablesMemoryBlock, HeapSizes heapSizes, int[] rowCounts, int[] externalRowCountsOpt)
{
// Size of reference tags in each table.
this.TableRowCounts = rowCounts;
// TODO (https://github.com/dotnet/corefx/issues/2061):
// Shouldn't XxxPtr table be always the same size or smaller than the corresponding Xxx table?
// Compute ref sizes for tables that can have pointer tables
int fieldRefSizeSorted = GetReferenceSize(rowCounts, TableIndex.FieldPtr) > SmallIndexSize ? LargeIndexSize : GetReferenceSize(rowCounts, TableIndex.Field);
int methodRefSizeSorted = GetReferenceSize(rowCounts, TableIndex.MethodPtr) > SmallIndexSize ? LargeIndexSize : GetReferenceSize(rowCounts, TableIndex.MethodDef);
int paramRefSizeSorted = GetReferenceSize(rowCounts, TableIndex.ParamPtr) > SmallIndexSize ? LargeIndexSize : GetReferenceSize(rowCounts, TableIndex.Param);
int eventRefSizeSorted = GetReferenceSize(rowCounts, TableIndex.EventPtr) > SmallIndexSize ? LargeIndexSize : GetReferenceSize(rowCounts, TableIndex.Event);
int propertyRefSizeSorted = GetReferenceSize(rowCounts, TableIndex.PropertyPtr) > SmallIndexSize ? LargeIndexSize : GetReferenceSize(rowCounts, TableIndex.Property);
// Compute the coded token ref sizes
int typeDefOrRefRefSize = ComputeCodedTokenSize(TypeDefOrRefTag.LargeRowSize, rowCounts, TypeDefOrRefTag.TablesReferenced);
int hasConstantRefSize = ComputeCodedTokenSize(HasConstantTag.LargeRowSize, rowCounts, HasConstantTag.TablesReferenced);
int hasCustomAttributeRefSize = ComputeCodedTokenSize(HasCustomAttributeTag.LargeRowSize, rowCounts, HasCustomAttributeTag.TablesReferenced);
int hasFieldMarshalRefSize = ComputeCodedTokenSize(HasFieldMarshalTag.LargeRowSize, rowCounts, HasFieldMarshalTag.TablesReferenced);
int hasDeclSecurityRefSize = ComputeCodedTokenSize(HasDeclSecurityTag.LargeRowSize, rowCounts, HasDeclSecurityTag.TablesReferenced);
int memberRefParentRefSize = ComputeCodedTokenSize(MemberRefParentTag.LargeRowSize, rowCounts, MemberRefParentTag.TablesReferenced);
int hasSemanticsRefSize = ComputeCodedTokenSize(HasSemanticsTag.LargeRowSize, rowCounts, HasSemanticsTag.TablesReferenced);
int methodDefOrRefRefSize = ComputeCodedTokenSize(MethodDefOrRefTag.LargeRowSize, rowCounts, MethodDefOrRefTag.TablesReferenced);
int memberForwardedRefSize = ComputeCodedTokenSize(MemberForwardedTag.LargeRowSize, rowCounts, MemberForwardedTag.TablesReferenced);
int implementationRefSize = ComputeCodedTokenSize(ImplementationTag.LargeRowSize, rowCounts, ImplementationTag.TablesReferenced);
int customAttributeTypeRefSize = ComputeCodedTokenSize(CustomAttributeTypeTag.LargeRowSize, rowCounts, CustomAttributeTypeTag.TablesReferenced);
int resolutionScopeRefSize = ComputeCodedTokenSize(ResolutionScopeTag.LargeRowSize, rowCounts, ResolutionScopeTag.TablesReferenced);
int typeOrMethodDefRefSize = ComputeCodedTokenSize(TypeOrMethodDefTag.LargeRowSize, rowCounts, TypeOrMethodDefTag.TablesReferenced);
// Compute HeapRef Sizes
int stringHeapRefSize = (heapSizes & HeapSizes.StringHeapLarge) == HeapSizes.StringHeapLarge ? LargeIndexSize : SmallIndexSize;
int guidHeapRefSize = (heapSizes & HeapSizes.GuidHeapLarge) == HeapSizes.GuidHeapLarge ? LargeIndexSize : SmallIndexSize;
int blobHeapRefSize = (heapSizes & HeapSizes.BlobHeapLarge) == HeapSizes.BlobHeapLarge ? LargeIndexSize : SmallIndexSize;
// Populate the Table blocks
int totalRequiredSize = 0;
this.ModuleTable = new ModuleTableReader(rowCounts[(int)TableIndex.Module], stringHeapRefSize, guidHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ModuleTable.Block.Length;
this.TypeRefTable = new TypeRefTableReader(rowCounts[(int)TableIndex.TypeRef], resolutionScopeRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.TypeRefTable.Block.Length;
this.TypeDefTable = new TypeDefTableReader(rowCounts[(int)TableIndex.TypeDef], fieldRefSizeSorted, methodRefSizeSorted, typeDefOrRefRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.TypeDefTable.Block.Length;
this.FieldPtrTable = new FieldPtrTableReader(rowCounts[(int)TableIndex.FieldPtr], GetReferenceSize(rowCounts, TableIndex.Field), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldPtrTable.Block.Length;
this.FieldTable = new FieldTableReader(rowCounts[(int)TableIndex.Field], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldTable.Block.Length;
this.MethodPtrTable = new MethodPtrTableReader(rowCounts[(int)TableIndex.MethodPtr], GetReferenceSize(rowCounts, TableIndex.MethodDef), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodPtrTable.Block.Length;
this.MethodDefTable = new MethodTableReader(rowCounts[(int)TableIndex.MethodDef], paramRefSizeSorted, stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodDefTable.Block.Length;
this.ParamPtrTable = new ParamPtrTableReader(rowCounts[(int)TableIndex.ParamPtr], GetReferenceSize(rowCounts, TableIndex.Param), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ParamPtrTable.Block.Length;
this.ParamTable = new ParamTableReader(rowCounts[(int)TableIndex.Param], stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ParamTable.Block.Length;
this.InterfaceImplTable = new InterfaceImplTableReader(rowCounts[(int)TableIndex.InterfaceImpl], IsDeclaredSorted(TableMask.InterfaceImpl), GetReferenceSize(rowCounts, TableIndex.TypeDef), typeDefOrRefRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.InterfaceImplTable.Block.Length;
this.MemberRefTable = new MemberRefTableReader(rowCounts[(int)TableIndex.MemberRef], memberRefParentRefSize, stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MemberRefTable.Block.Length;
this.ConstantTable = new ConstantTableReader(rowCounts[(int)TableIndex.Constant], IsDeclaredSorted(TableMask.Constant), hasConstantRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ConstantTable.Block.Length;
this.CustomAttributeTable = new CustomAttributeTableReader(rowCounts[(int)TableIndex.CustomAttribute],
IsDeclaredSorted(TableMask.CustomAttribute),
hasCustomAttributeRefSize,
customAttributeTypeRefSize,
blobHeapRefSize,
metadataTablesMemoryBlock,
totalRequiredSize);
totalRequiredSize += this.CustomAttributeTable.Block.Length;
this.FieldMarshalTable = new FieldMarshalTableReader(rowCounts[(int)TableIndex.FieldMarshal], IsDeclaredSorted(TableMask.FieldMarshal), hasFieldMarshalRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldMarshalTable.Block.Length;
this.DeclSecurityTable = new DeclSecurityTableReader(rowCounts[(int)TableIndex.DeclSecurity], IsDeclaredSorted(TableMask.DeclSecurity), hasDeclSecurityRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.DeclSecurityTable.Block.Length;
this.ClassLayoutTable = new ClassLayoutTableReader(rowCounts[(int)TableIndex.ClassLayout], IsDeclaredSorted(TableMask.ClassLayout), GetReferenceSize(rowCounts, TableIndex.TypeDef), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ClassLayoutTable.Block.Length;
this.FieldLayoutTable = new FieldLayoutTableReader(rowCounts[(int)TableIndex.FieldLayout], IsDeclaredSorted(TableMask.FieldLayout), GetReferenceSize(rowCounts, TableIndex.Field), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldLayoutTable.Block.Length;
this.StandAloneSigTable = new StandAloneSigTableReader(rowCounts[(int)TableIndex.StandAloneSig], blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.StandAloneSigTable.Block.Length;
this.EventMapTable = new EventMapTableReader(rowCounts[(int)TableIndex.EventMap], GetReferenceSize(rowCounts, TableIndex.TypeDef), eventRefSizeSorted, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EventMapTable.Block.Length;
this.EventPtrTable = new EventPtrTableReader(rowCounts[(int)TableIndex.EventPtr], GetReferenceSize(rowCounts, TableIndex.Event), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EventPtrTable.Block.Length;
this.EventTable = new EventTableReader(rowCounts[(int)TableIndex.Event], typeDefOrRefRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EventTable.Block.Length;
this.PropertyMapTable = new PropertyMapTableReader(rowCounts[(int)TableIndex.PropertyMap], GetReferenceSize(rowCounts, TableIndex.TypeDef), propertyRefSizeSorted, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.PropertyMapTable.Block.Length;
this.PropertyPtrTable = new PropertyPtrTableReader(rowCounts[(int)TableIndex.PropertyPtr], GetReferenceSize(rowCounts, TableIndex.Property), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.PropertyPtrTable.Block.Length;
this.PropertyTable = new PropertyTableReader(rowCounts[(int)TableIndex.Property], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.PropertyTable.Block.Length;
this.MethodSemanticsTable = new MethodSemanticsTableReader(rowCounts[(int)TableIndex.MethodSemantics], IsDeclaredSorted(TableMask.MethodSemantics), GetReferenceSize(rowCounts, TableIndex.MethodDef), hasSemanticsRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodSemanticsTable.Block.Length;
this.MethodImplTable = new MethodImplTableReader(rowCounts[(int)TableIndex.MethodImpl], IsDeclaredSorted(TableMask.MethodImpl), GetReferenceSize(rowCounts, TableIndex.TypeDef), methodDefOrRefRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodImplTable.Block.Length;
this.ModuleRefTable = new ModuleRefTableReader(rowCounts[(int)TableIndex.ModuleRef], stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ModuleRefTable.Block.Length;
this.TypeSpecTable = new TypeSpecTableReader(rowCounts[(int)TableIndex.TypeSpec], blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.TypeSpecTable.Block.Length;
this.ImplMapTable = new ImplMapTableReader(rowCounts[(int)TableIndex.ImplMap], IsDeclaredSorted(TableMask.ImplMap), GetReferenceSize(rowCounts, TableIndex.ModuleRef), memberForwardedRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ImplMapTable.Block.Length;
this.FieldRvaTable = new FieldRVATableReader(rowCounts[(int)TableIndex.FieldRva], IsDeclaredSorted(TableMask.FieldRva), GetReferenceSize(rowCounts, TableIndex.Field), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldRvaTable.Block.Length;
this.EncLogTable = new EnCLogTableReader(rowCounts[(int)TableIndex.EncLog], metadataTablesMemoryBlock, totalRequiredSize, _metadataStreamKind);
totalRequiredSize += this.EncLogTable.Block.Length;
this.EncMapTable = new EnCMapTableReader(rowCounts[(int)TableIndex.EncMap], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EncMapTable.Block.Length;
this.AssemblyTable = new AssemblyTableReader(rowCounts[(int)TableIndex.Assembly], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyTable.Block.Length;
this.AssemblyProcessorTable = new AssemblyProcessorTableReader(rowCounts[(int)TableIndex.AssemblyProcessor], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyProcessorTable.Block.Length;
this.AssemblyOSTable = new AssemblyOSTableReader(rowCounts[(int)TableIndex.AssemblyOS], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyOSTable.Block.Length;
this.AssemblyRefTable = new AssemblyRefTableReader(rowCounts[(int)TableIndex.AssemblyRef], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize, _metadataKind);
totalRequiredSize += this.AssemblyRefTable.Block.Length;
this.AssemblyRefProcessorTable = new AssemblyRefProcessorTableReader(rowCounts[(int)TableIndex.AssemblyRefProcessor], GetReferenceSize(rowCounts, TableIndex.AssemblyRef), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyRefProcessorTable.Block.Length;
this.AssemblyRefOSTable = new AssemblyRefOSTableReader(rowCounts[(int)TableIndex.AssemblyRefOS], GetReferenceSize(rowCounts, TableIndex.AssemblyRef), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyRefOSTable.Block.Length;
this.FileTable = new FileTableReader(rowCounts[(int)TableIndex.File], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FileTable.Block.Length;
this.ExportedTypeTable = new ExportedTypeTableReader(rowCounts[(int)TableIndex.ExportedType], implementationRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ExportedTypeTable.Block.Length;
this.ManifestResourceTable = new ManifestResourceTableReader(rowCounts[(int)TableIndex.ManifestResource], implementationRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ManifestResourceTable.Block.Length;
this.NestedClassTable = new NestedClassTableReader(rowCounts[(int)TableIndex.NestedClass], IsDeclaredSorted(TableMask.NestedClass), GetReferenceSize(rowCounts, TableIndex.TypeDef), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.NestedClassTable.Block.Length;
this.GenericParamTable = new GenericParamTableReader(rowCounts[(int)TableIndex.GenericParam], IsDeclaredSorted(TableMask.GenericParam), typeOrMethodDefRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.GenericParamTable.Block.Length;
this.MethodSpecTable = new MethodSpecTableReader(rowCounts[(int)TableIndex.MethodSpec], methodDefOrRefRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodSpecTable.Block.Length;
this.GenericParamConstraintTable = new GenericParamConstraintTableReader(rowCounts[(int)TableIndex.GenericParamConstraint], IsDeclaredSorted(TableMask.GenericParamConstraint), GetReferenceSize(rowCounts, TableIndex.GenericParam), typeDefOrRefRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.GenericParamConstraintTable.Block.Length;
// debug tables:
// Type-system metadata tables may be stored in a separate (external) metadata file.
// We need to use the row counts of the external tables when referencing them.
// Debug tables are local to the current metadata image and type system metadata tables are external and precede all debug tables.
var combinedRowCounts = (externalRowCountsOpt != null) ? CombineRowCounts(rowCounts, externalRowCountsOpt, firstLocalTableIndex: TableIndex.Document) : rowCounts;
int methodRefSizeCombined = GetReferenceSize(combinedRowCounts, TableIndex.MethodDef);
int hasCustomDebugInformationRefSizeCombined = ComputeCodedTokenSize(HasCustomDebugInformationTag.LargeRowSize, combinedRowCounts, HasCustomDebugInformationTag.TablesReferenced);
this.DocumentTable = new DocumentTableReader(rowCounts[(int)TableIndex.Document], guidHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.DocumentTable.Block.Length;
this.MethodDebugInformationTable = new MethodDebugInformationTableReader(rowCounts[(int)TableIndex.MethodDebugInformation], GetReferenceSize(rowCounts, TableIndex.Document), blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodDebugInformationTable.Block.Length;
this.LocalScopeTable = new LocalScopeTableReader(rowCounts[(int)TableIndex.LocalScope], IsDeclaredSorted(TableMask.LocalScope), methodRefSizeCombined, GetReferenceSize(rowCounts, TableIndex.ImportScope), GetReferenceSize(rowCounts, TableIndex.LocalVariable), GetReferenceSize(rowCounts, TableIndex.LocalConstant), metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.LocalScopeTable.Block.Length;
this.LocalVariableTable = new LocalVariableTableReader(rowCounts[(int)TableIndex.LocalVariable], stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.LocalVariableTable.Block.Length;
this.LocalConstantTable = new LocalConstantTableReader(rowCounts[(int)TableIndex.LocalConstant], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.LocalConstantTable.Block.Length;
this.ImportScopeTable = new ImportScopeTableReader(rowCounts[(int)TableIndex.ImportScope], GetReferenceSize(rowCounts, TableIndex.ImportScope), blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ImportScopeTable.Block.Length;
this.StateMachineMethodTable = new StateMachineMethodTableReader(rowCounts[(int)TableIndex.StateMachineMethod], IsDeclaredSorted(TableMask.StateMachineMethod), methodRefSizeCombined, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.StateMachineMethodTable.Block.Length;
this.CustomDebugInformationTable = new CustomDebugInformationTableReader(rowCounts[(int)TableIndex.CustomDebugInformation], IsDeclaredSorted(TableMask.CustomDebugInformation), hasCustomDebugInformationRefSizeCombined, guidHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.CustomDebugInformationTable.Block.Length;
if (totalRequiredSize > metadataTablesMemoryBlock.Length)
{
throw new BadImageFormatException(SR.MetadataTablesTooSmall);
}
}
// internal for testing
internal static void ReadStandalonePortablePdbStream(MemoryBlock block, out DebugMetadataHeader debugMetadataHeader, out int[] externalTableRowCounts)
{
var reader = new BlobReader(block);
const int PdbIdSize = 20;
byte[] pdbId = reader.ReadBytes(PdbIdSize);
// ECMA-335 15.4.1.2:
// The entry point to an application shall be static.
// This entry point method can be a global method or it can appear inside a type.
// The entry point method shall either accept no arguments or a vector of strings.
// The return type of the entry point method shall be void, int32, or unsigned int32.
// The entry point method cannot be defined in a generic class.
uint entryPointToken = reader.ReadUInt32();
int entryPointRowId = (int)(entryPointToken & TokenTypeIds.RIDMask);
if (entryPointToken != 0 && ((entryPointToken & TokenTypeIds.TypeMask) != TokenTypeIds.MethodDef || entryPointRowId == 0))
{
throw new BadImageFormatException(string.Format(SR.InvalidEntryPointToken, entryPointToken));
}
ulong externalTableMask = reader.ReadUInt64();
// EnC & Ptr tables can't be referenced from standalone PDB metadata:
const ulong validTables = (ulong)TableMask.ValidPortablePdbExternalTables;
if ((externalTableMask & ~validTables) != 0)
{
throw new BadImageFormatException(string.Format(SR.UnknownTables, (TableMask)externalTableMask));
}
externalTableRowCounts = ReadMetadataTableRowCounts(ref reader, externalTableMask);
debugMetadataHeader = new DebugMetadataHeader(
ImmutableByteArrayInterop.DangerousCreateFromUnderlyingArray(ref pdbId),
MethodDefinitionHandle.FromRowId(entryPointRowId));
}
internal DeclSecurityTableReader(
int numberOfRows,
bool declaredSorted,
int hasDeclSecurityRefSize,
int blobHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset
)
{
this.NumberOfRows = numberOfRows;
_IsHasDeclSecurityRefSizeSmall = hasDeclSecurityRefSize == 2;
_IsBlobHeapRefSizeSmall = blobHeapRefSize == 2;
_ActionOffset = 0;
_ParentOffset = _ActionOffset + sizeof(UInt16);
_PermissionSetOffset = _ParentOffset + hasDeclSecurityRefSize;
this.RowSize = _PermissionSetOffset + blobHeapRefSize;
this.Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, (int)(this.RowSize * numberOfRows));
if (!declaredSorted && !CheckSorted())
{
Throw.TableNotSorted(TableIndex.DeclSecurity);
}
}
internal FieldMarshalTableReader(
int numberOfRows,
bool declaredSorted,
int hasFieldMarshalRefSize,
int blobHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset
)
{
this.NumberOfRows = numberOfRows;
_IsHasFieldMarshalRefSizeSmall = hasFieldMarshalRefSize == 2;
_IsBlobHeapRefSizeSmall = blobHeapRefSize == 2;
_ParentOffset = 0;
_NativeTypeOffset = _ParentOffset + hasFieldMarshalRefSize;
this.RowSize = _NativeTypeOffset + blobHeapRefSize;
this.Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, this.RowSize * numberOfRows);
if (!declaredSorted && !CheckSorted())
{
Throw.TableNotSorted(TableIndex.FieldMarshal);
}
}
internal TypeRefTableReader(
int numberOfRows,
int resolutionScopeRefSize,
int stringHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset
)
{
this.NumberOfRows = numberOfRows;
_IsResolutionScopeRefSizeSmall = resolutionScopeRefSize == 2;
_IsStringHeapRefSizeSmall = stringHeapRefSize == 2;
_ResolutionScopeOffset = 0;
_NameOffset = _ResolutionScopeOffset + resolutionScopeRefSize;
_NamespaceOffset = _NameOffset + stringHeapRefSize;
this.RowSize = _NamespaceOffset + stringHeapRefSize;
this.Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, (int)(this.RowSize * numberOfRows));
}
internal CustomAttributeTableReader(
int numberOfRows,
bool declaredSorted,
int hasCustomAttributeRefSize,
int customAttributeTypeRefSize,
int blobHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset
)
{
this.NumberOfRows = numberOfRows;
_IsHasCustomAttributeRefSizeSmall = hasCustomAttributeRefSize == 2;
_IsCustomAttributeTypeRefSizeSmall = customAttributeTypeRefSize == 2;
_IsBlobHeapRefSizeSmall = blobHeapRefSize == 2;
_ParentOffset = 0;
_TypeOffset = _ParentOffset + hasCustomAttributeRefSize;
_ValueOffset = _TypeOffset + customAttributeTypeRefSize;
this.RowSize = _ValueOffset + blobHeapRefSize;
this.Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, (int)(this.RowSize * numberOfRows));
this.PtrTable = null;
if (!declaredSorted && !CheckSorted())
{
this.PtrTable = this.Block.BuildPtrTable(
numberOfRows,
this.RowSize,
_ParentOffset,
_IsHasCustomAttributeRefSizeSmall);
}
}
private unsafe void TestComparisons(string heapValue, int offset, string value, bool unicode = false)
{
byte[] heap;
MetadataStringDecoder decoder = MetadataStringDecoder.DefaultUTF8;
fixed (byte* heapPtr = (heap = Encoding.UTF8.GetBytes(heapValue)))
{
var block = new MemoryBlock(heapPtr, heap.Length);
string heapSubstr = GetStringHeapValue(heapValue, offset);
// compare:
if (!unicode)
{
int actualCmp = block.CompareUtf8NullTerminatedStringWithAsciiString(offset, value);
int expectedCmp = StringComparer.Ordinal.Compare(heapSubstr, value);
Assert.Equal(Math.Sign(expectedCmp), Math.Sign(actualCmp));
}
// equals:
bool actualEq = block.Utf8NullTerminatedEquals(offset, value, decoder);
bool expectedEq = StringComparer.Ordinal.Equals(heapSubstr, value);
Assert.Equal(expectedEq, actualEq);
// starts with:
bool actualSW = block.Utf8NullTerminatedStartsWith(offset, value, decoder);
bool expectedSW = heapSubstr.StartsWith(value, StringComparison.Ordinal);
Assert.Equal(actualSW, expectedSW);
}
}
public unsafe void ComparisonToInvalidByteSequenceMatchesFallback()
{
MetadataStringDecoder decoder = MetadataStringDecoder.DefaultUTF8;
// dangling lead byte
byte[] buffer;
fixed (byte* ptr = (buffer = new byte[] { 0xC0 }))
{
var block = new MemoryBlock(ptr, buffer.Length);
Assert.False(block.Utf8NullTerminatedStartsWith(0, new string((char)0xC0, 1), decoder));
Assert.False(block.Utf8NullTerminatedEquals(0, new string((char)0xC0, 1), decoder));
Assert.True(block.Utf8NullTerminatedStartsWith(0, "\uFFFD", decoder));
Assert.True(block.Utf8NullTerminatedEquals(0, "\uFFFD", decoder));
}
// overlong encoding
fixed (byte* ptr = (buffer = new byte[] { (byte)'a', 0xC0, 0xAF, (byte)'b', 0x0 }))
{
var block = new MemoryBlock(ptr, buffer.Length);
Assert.False(block.Utf8NullTerminatedStartsWith(0, "a\\", decoder));
Assert.False(block.Utf8NullTerminatedEquals(0, "a\\b", decoder));
Assert.True(block.Utf8NullTerminatedStartsWith(0, "a\uFFFD", decoder));
Assert.True(block.Utf8NullTerminatedEquals(0, "a\uFFFD\uFFFDb", decoder));
}
}
private unsafe static EnCMapTableReader CreateEncMapTable(int[] tokens)
{
GCHandle handle = GCHandle.Alloc(tokens, GCHandleType.Pinned);
var block = new MemoryBlock((byte*)handle.AddrOfPinnedObject(), tokens.Length * sizeof(uint));
return new EnCMapTableReader(tokens.Length, block, containingBlockOffset: 0);
}
public unsafe void BuildPtrTable_LargeRefs()
{
const int rowSize = 6;
const int secondColumnOffset = 2;
var table = new byte[]
{
0xAA, 0xAA, 0x10, 0x00, 0x05, 0x00,
0xBB, 0xBB, 0x10, 0x00, 0x04, 0x00,
0xCC, 0xCC, 0x10, 0x00, 0x02, 0x01,
0xDD, 0xDD, 0x10, 0x00, 0x02, 0x00,
0xEE, 0xEE, 0x10, 0x00, 0x01, 0x01,
};
int rowCount = table.Length / rowSize;
fixed (byte* tablePtr = table)
{
var block = new MemoryBlock(tablePtr, table.Length);
Assert.Equal(0x00040010, block.PeekReference(8, smallRefSize: false));
var actual = block.BuildPtrTable(rowCount, rowSize, secondColumnOffset, isReferenceSmall: false);
var expected = new int[] { 4, 2, 1, 5, 3 };
Assert.Equal(expected, actual);
}
}
private void InitializeStreamReaders(ref MemoryBlock metadataRoot, StreamHeader[] streamHeaders, out MemoryBlock metadataTableStream)
{
metadataTableStream = default(MemoryBlock);
foreach (StreamHeader streamHeader in streamHeaders)
{
switch (streamHeader.Name)
{
case COR20Constants.StringStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size)
{
throw new BadImageFormatException(MetadataResources.NotEnoughSpaceForStringStream);
}
this.StringStream = new StringStreamReader(metadataRoot.GetMemoryBlockAt((int)streamHeader.Offset, streamHeader.Size), this.metadataKind);
break;
case COR20Constants.BlobStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size)
{
throw new BadImageFormatException(MetadataResources.NotEnoughSpaceForBlobStream);
}
this.BlobStream = new BlobStreamReader(metadataRoot.GetMemoryBlockAt((int)streamHeader.Offset, streamHeader.Size), this.metadataKind);
break;
case COR20Constants.GUIDStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size)
{
throw new BadImageFormatException(MetadataResources.NotEnoughSpaceForGUIDStream);
}
this.GuidStream = new GuidStreamReader(metadataRoot.GetMemoryBlockAt((int)streamHeader.Offset, streamHeader.Size));
break;
case COR20Constants.UserStringStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size)
{
throw new BadImageFormatException(MetadataResources.NotEnoughSpaceForBlobStream);
}
this.UserStringStream = new UserStringStreamReader(metadataRoot.GetMemoryBlockAt((int)streamHeader.Offset, streamHeader.Size));
break;
case COR20Constants.CompressedMetadataTableStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size)
{
throw new BadImageFormatException(MetadataResources.NotEnoughSpaceForMetadataStream);
}
this.metadataStreamKind = MetadataStreamKind.Compressed;
metadataTableStream = metadataRoot.GetMemoryBlockAt((int)streamHeader.Offset, streamHeader.Size);
break;
case COR20Constants.UncompressedMetadataTableStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size)
{
throw new BadImageFormatException(MetadataResources.NotEnoughSpaceForMetadataStream);
}
this.metadataStreamKind = MetadataStreamKind.Uncompressed;
metadataTableStream = metadataRoot.GetMemoryBlockAt((int)streamHeader.Offset, streamHeader.Size);
break;
case COR20Constants.MinimalDeltaMetadataTableStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size)
{
throw new BadImageFormatException(MetadataResources.NotEnoughSpaceForMetadataStream);
}
// the content of the stream is ignored
this.IsMinimalDelta = true;
break;
default:
// Skip unknown streams. Some obfuscators insert invalid streams.
continue;
}
}
if (IsMinimalDelta && metadataStreamKind != MetadataStreamKind.Uncompressed)
{
throw new BadImageFormatException(MetadataResources.InvalidMetadataStreamFormat);
}
}
public unsafe void ValidatePeekReferenceSize()
{
byte[] buffer = new byte[8] { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x01 };
fixed (byte* bufferPtr = buffer)
{
var block = new MemoryBlock(bufferPtr, buffer.Length);
// small ref size always fits in 16 bits
Assert.Equal(0xFFFF, block.PeekReference(0, smallRefSize: true));
Assert.Equal(0xFFFF, block.PeekReference(4, smallRefSize: true));
Assert.Equal(0xFFFFU, block.PeekTaggedReference(0, smallRefSize: true));
Assert.Equal(0xFFFFU, block.PeekTaggedReference(4, smallRefSize: true));
Assert.Equal(0x01FFU, block.PeekTaggedReference(6, smallRefSize: true));
// large ref size throws on > RIDMask when tagged variant is not used.
Assert.Throws<BadImageFormatException>(() => block.PeekReference(0, smallRefSize: false));
Assert.Throws<BadImageFormatException>(() => block.PeekReference(4, smallRefSize: false));
// large ref size does not throw when Tagged variant is used.
Assert.Equal(0xFFFFFFFFU, block.PeekTaggedReference(0, smallRefSize: false));
Assert.Equal(0x01FFFFFFU, block.PeekTaggedReference(4, smallRefSize: false));
// bounds check applies in all cases
Assert.Throws<BadImageFormatException>(() => block.PeekReference(7, smallRefSize: true));
Assert.Throws<BadImageFormatException>(() => block.PeekReference(5, smallRefSize: false));
}
}
internal MemberRefTableReader(
int numberOfRows,
int memberRefParentRefSize,
int stringHeapRefSize,
int blobHeapRefSize,
MemoryBlock containingBlock,
int containingBlockOffset
)
{
this.NumberOfRows = numberOfRows;
_IsMemberRefParentRefSizeSmall = memberRefParentRefSize == 2;
_IsStringHeapRefSizeSmall = stringHeapRefSize == 2;
_IsBlobHeapRefSizeSmall = blobHeapRefSize == 2;
_ClassOffset = 0;
_NameOffset = _ClassOffset + memberRefParentRefSize;
_SignatureOffset = _NameOffset + stringHeapRefSize;
this.RowSize = _SignatureOffset + blobHeapRefSize;
this.Block = containingBlock.GetMemoryBlockAt(containingBlockOffset, (int)(this.RowSize * numberOfRows));
}
/// <summary>
/// Creates a metadata reader from the metadata stored at the given memory location.
/// </summary>
/// <remarks>
/// The memory is owned by the caller and it must be kept memory alive and unmodified throughout the lifetime of the <see cref="MetadataReader"/>.
/// Use <see cref="PEReaderExtensions.GetMetadataReader(PortableExecutable.PEReader, MetadataReaderOptions, MetadataStringDecoder)"/> to obtain
/// metadata from a PE image.
/// </remarks>
public unsafe MetadataReader(byte* metadata, int length, MetadataReaderOptions options, MetadataStringDecoder utf8Decoder)
{
if (length <= 0)
{
throw new ArgumentOutOfRangeException("length");
}
if (metadata == null)
{
throw new ArgumentNullException("metadata");
}
if (utf8Decoder == null)
{
utf8Decoder = MetadataStringDecoder.DefaultUTF8;
}
if (!(utf8Decoder.Encoding is UTF8Encoding))
{
throw new ArgumentException(MetadataResources.MetadataStringDecoderEncodingMustBeUtf8, "utf8Decoder");
}
if (!BitConverter.IsLittleEndian)
{
throw new PlatformNotSupportedException(MetadataResources.LitteEndianArchitectureRequired);
}
this.Block = new MemoryBlock(metadata, length);
this.options = options;
this.utf8Decoder = utf8Decoder;
BlobReader memReader = new BlobReader(this.Block);
this.ReadMetadataHeader(ref memReader);
// storage header and stream headers:
MemoryBlock metadataTableStream;
var streamHeaders = this.ReadStreamHeaders(ref memReader);
this.InitializeStreamReaders(ref this.Block, streamHeaders, out metadataTableStream);
memReader = new BlobReader(metadataTableStream);
uint[] metadataTableRowCounts;
this.ReadMetadataTableHeader(ref memReader, out metadataTableRowCounts);
this.InitializeTableReaders(memReader.GetMemoryBlockAt(0, memReader.RemainingBytes), metadataTableRowCounts);
// This previously could occur in obfuscated assemblies but a check was added to prevent
// it getting to this point
Debug.Assert(this.AssemblyTable.NumberOfRows <= 1);
// Although the specification states that the module table will have exactly one row,
// the native metadata reader would successfully read files containing more than one row.
// Such files exist in the wild and may be produced by obfuscators.
if (this.ModuleTable.NumberOfRows < 1)
{
throw new BadImageFormatException(string.Format(MetadataResources.ModuleTableInvalidNumberOfRows, this.ModuleTable.NumberOfRows));
}
// read
this.namespaceCache = new NamespaceCache(this);
if (this.metadataKind != MetadataKind.Ecma335)
{
this.WinMDMscorlibRef = FindMscorlibAssemblyRefNoProjection();
}
}
public unsafe void ReadFromMemoryBlock()
{
byte[] buffer = new byte[4] { 0, 1, 0, 2 };
fixed (byte* bufferPtr = buffer)
{
var block = new MemoryBlock(bufferPtr, buffer.Length);
Assert.Throws<BadImageFormatException>(() => block.PeekUInt32(Int32.MaxValue));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt32(-1));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt32(Int32.MinValue));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt32(4));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt32(1));
Assert.Equal(0x02000100U, block.PeekUInt32(0));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt16(Int32.MaxValue));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt16(-1));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt16(Int32.MinValue));
Assert.Throws<BadImageFormatException>(() => block.PeekUInt16(4));
Assert.Equal(0x0200, block.PeekUInt16(2));
int bytesRead;
MetadataStringDecoder stringDecoder = MetadataStringDecoder.DefaultUTF8;
Assert.Throws<BadImageFormatException>(() => block.PeekUtf8NullTerminated(Int32.MaxValue, null, stringDecoder, out bytesRead));
Assert.Throws<BadImageFormatException>(() => block.PeekUtf8NullTerminated(-1, null, stringDecoder, out bytesRead));
Assert.Throws<BadImageFormatException>(() => block.PeekUtf8NullTerminated(Int32.MinValue, null, stringDecoder, out bytesRead));
Assert.Throws<BadImageFormatException>(() => block.PeekUtf8NullTerminated(5, null, stringDecoder, out bytesRead));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(-1, 1));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(1, -1));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(0, -1));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(-1, 0));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(-Int32.MaxValue, Int32.MaxValue));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(Int32.MaxValue, -Int32.MaxValue));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(Int32.MaxValue, Int32.MaxValue));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(block.Length, -1));
Assert.Throws<BadImageFormatException>(() => block.GetMemoryBlockAt(-1, block.Length));
Assert.Equal("\u0001", block.PeekUtf8NullTerminated(1, null, stringDecoder, out bytesRead));
Assert.Equal(bytesRead, 2);
Assert.Equal("\u0002", block.PeekUtf8NullTerminated(3, null, stringDecoder, out bytesRead));
Assert.Equal(bytesRead, 1);
Assert.Equal("", block.PeekUtf8NullTerminated(4, null, stringDecoder, out bytesRead));
Assert.Equal(bytesRead, 0);
byte[] helloPrefix = Encoding.UTF8.GetBytes("Hello");
Assert.Equal("Hello\u0001", block.PeekUtf8NullTerminated(1, helloPrefix, stringDecoder, out bytesRead));
Assert.Equal(bytesRead, 2);
Assert.Equal("Hello\u0002", block.PeekUtf8NullTerminated(3, helloPrefix, stringDecoder, out bytesRead));
Assert.Equal(bytesRead, 1);
Assert.Equal("Hello", block.PeekUtf8NullTerminated(4, helloPrefix, stringDecoder, out bytesRead));
Assert.Equal(bytesRead, 0);
}
}
private void InitializeTableReaders(MemoryBlock metadataTablesMemoryBlock, uint[] compressedRowCounts)
{
// Only sizes of tables present in metadata are recorded in rowCountCompressedArray.
// This array contains a slot for each possible table, not just those that are present in the metadata.
uint[] rowCounts = new uint[TableIndexExtensions.Count];
// Size of reference tags in each table.
int[] referenceSizes = new int[TableIndexExtensions.Count];
ulong validTables = (ulong)this.MetadataTableHeader.ValidTables;
int compressedRowCountIndex = 0;
for (int i = 0; i < TableIndexExtensions.Count; i++)
{
bool fitsSmall;
if ((validTables & 1UL) != 0)
{
uint rowCount = compressedRowCounts[compressedRowCountIndex++];
rowCounts[i] = rowCount;
fitsSmall = rowCount < MetadataStreamConstants.LargeTableRowCount;
}
else
{
fitsSmall = true;
}
referenceSizes[i] = (fitsSmall && !IsMinimalDelta) ? SmallIndexSize : LargeIndexSize;
validTables >>= 1;
}
this.TableRowCounts = rowCounts;
// Compute ref sizes for tables that can have pointer tables for it
int fieldRefSize = referenceSizes[(int)TableIndex.FieldPtr] > SmallIndexSize ? LargeIndexSize : referenceSizes[(int)TableIndex.Field];
int methodRefSize = referenceSizes[(int)TableIndex.MethodPtr] > SmallIndexSize ? LargeIndexSize : referenceSizes[(int)TableIndex.MethodDef];
int paramRefSize = referenceSizes[(int)TableIndex.ParamPtr] > SmallIndexSize ? LargeIndexSize : referenceSizes[(int)TableIndex.Param];
int eventRefSize = referenceSizes[(int)TableIndex.EventPtr] > SmallIndexSize ? LargeIndexSize : referenceSizes[(int)TableIndex.Event];
int propertyRefSize = referenceSizes[(int)TableIndex.PropertyPtr] > SmallIndexSize ? LargeIndexSize : referenceSizes[(int)TableIndex.Property];
// Compute the coded token ref sizes
int typeDefOrRefRefSize = ComputeCodedTokenSize(TypeDefOrRefTag.LargeRowSize, rowCounts, TypeDefOrRefTag.TablesReferenced);
int hasConstantRefSize = ComputeCodedTokenSize(HasConstantTag.LargeRowSize, rowCounts, HasConstantTag.TablesReferenced);
int hasCustomAttributeRefSize = ComputeCodedTokenSize(HasCustomAttributeTag.LargeRowSize, rowCounts, HasCustomAttributeTag.TablesReferenced);
int hasFieldMarshalRefSize = ComputeCodedTokenSize(HasFieldMarshalTag.LargeRowSize, rowCounts, HasFieldMarshalTag.TablesReferenced);
int hasDeclSecurityRefSize = ComputeCodedTokenSize(HasDeclSecurityTag.LargeRowSize, rowCounts, HasDeclSecurityTag.TablesReferenced);
int memberRefParentRefSize = ComputeCodedTokenSize(MemberRefParentTag.LargeRowSize, rowCounts, MemberRefParentTag.TablesReferenced);
int hasSemanticsRefSize = ComputeCodedTokenSize(HasSemanticsTag.LargeRowSize, rowCounts, HasSemanticsTag.TablesReferenced);
int methodDefOrRefRefSize = ComputeCodedTokenSize(MethodDefOrRefTag.LargeRowSize, rowCounts, MethodDefOrRefTag.TablesReferenced);
int memberForwardedRefSize = ComputeCodedTokenSize(MemberForwardedTag.LargeRowSize, rowCounts, MemberForwardedTag.TablesReferenced);
int implementationRefSize = ComputeCodedTokenSize(ImplementationTag.LargeRowSize, rowCounts, ImplementationTag.TablesReferenced);
int customAttributeTypeRefSize = ComputeCodedTokenSize(CustomAttributeTypeTag.LargeRowSize, rowCounts, CustomAttributeTypeTag.TablesReferenced);
int resolutionScopeRefSize = ComputeCodedTokenSize(ResolutionScopeTag.LargeRowSize, rowCounts, ResolutionScopeTag.TablesReferenced);
int typeOrMethodDefRefSize = ComputeCodedTokenSize(TypeOrMethodDefTag.LargeRowSize, rowCounts, TypeOrMethodDefTag.TablesReferenced);
// Compute HeapRef Sizes
int stringHeapRefSize = (this.MetadataTableHeader.HeapSizeFlags & HeapSizeFlag.StringHeapLarge) == HeapSizeFlag.StringHeapLarge ? LargeIndexSize : SmallIndexSize;
int guidHeapRefSize = (this.MetadataTableHeader.HeapSizeFlags & HeapSizeFlag.GuidHeapLarge) == HeapSizeFlag.GuidHeapLarge ? LargeIndexSize : SmallIndexSize;
int blobHeapRefSize = (this.MetadataTableHeader.HeapSizeFlags & HeapSizeFlag.BlobHeapLarge) == HeapSizeFlag.BlobHeapLarge ? LargeIndexSize : SmallIndexSize;
// Populate the Table blocks
int totalRequiredSize = 0;
this.ModuleTable = new ModuleTableReader(rowCounts[(int)TableIndex.Module], stringHeapRefSize, guidHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ModuleTable.Block.Length;
this.TypeRefTable = new TypeRefTableReader(rowCounts[(int)TableIndex.TypeRef], resolutionScopeRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.TypeRefTable.Block.Length;
this.TypeDefTable = new TypeDefTableReader(rowCounts[(int)TableIndex.TypeDef], fieldRefSize, methodRefSize, typeDefOrRefRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.TypeDefTable.Block.Length;
this.FieldPtrTable = new FieldPtrTableReader(rowCounts[(int)TableIndex.FieldPtr], referenceSizes[(int)TableIndex.Field], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldPtrTable.Block.Length;
this.FieldTable = new FieldTableReader(rowCounts[(int)TableIndex.Field], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldTable.Block.Length;
this.MethodPtrTable = new MethodPtrTableReader(rowCounts[(int)TableIndex.MethodPtr], referenceSizes[(int)TableIndex.MethodDef], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodPtrTable.Block.Length;
this.MethodDefTable = new MethodTableReader(rowCounts[(int)TableIndex.MethodDef], paramRefSize, stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodDefTable.Block.Length;
this.ParamPtrTable = new ParamPtrTableReader(rowCounts[(int)TableIndex.ParamPtr], referenceSizes[(int)TableIndex.Param], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ParamPtrTable.Block.Length;
this.ParamTable = new ParamTableReader(rowCounts[(int)TableIndex.Param], stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ParamTable.Block.Length;
this.InterfaceImplTable = new InterfaceImplTableReader(rowCounts[(int)TableIndex.InterfaceImpl], IsDeclaredSorted(TableMask.InterfaceImpl), referenceSizes[(int)TableIndex.TypeDef], typeDefOrRefRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.InterfaceImplTable.Block.Length;
this.MemberRefTable = new MemberRefTableReader(rowCounts[(int)TableIndex.MemberRef], memberRefParentRefSize, stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MemberRefTable.Block.Length;
this.ConstantTable = new ConstantTableReader(rowCounts[(int)TableIndex.Constant], IsDeclaredSorted(TableMask.Constant), hasConstantRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ConstantTable.Block.Length;
this.CustomAttributeTable = new CustomAttributeTableReader(rowCounts[(int)TableIndex.CustomAttribute],
IsDeclaredSorted(TableMask.CustomAttribute),
hasCustomAttributeRefSize,
customAttributeTypeRefSize,
blobHeapRefSize,
metadataTablesMemoryBlock,
totalRequiredSize);
totalRequiredSize += this.CustomAttributeTable.Block.Length;
this.FieldMarshalTable = new FieldMarshalTableReader(rowCounts[(int)TableIndex.FieldMarshal], IsDeclaredSorted(TableMask.FieldMarshal), hasFieldMarshalRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldMarshalTable.Block.Length;
this.DeclSecurityTable = new DeclSecurityTableReader(rowCounts[(int)TableIndex.DeclSecurity], IsDeclaredSorted(TableMask.DeclSecurity), hasDeclSecurityRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.DeclSecurityTable.Block.Length;
this.ClassLayoutTable = new ClassLayoutTableReader(rowCounts[(int)TableIndex.ClassLayout], IsDeclaredSorted(TableMask.ClassLayout), referenceSizes[(int)TableIndex.TypeDef], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ClassLayoutTable.Block.Length;
this.FieldLayoutTable = new FieldLayoutTableReader(rowCounts[(int)TableIndex.FieldLayout], IsDeclaredSorted(TableMask.FieldLayout), referenceSizes[(int)TableIndex.Field], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldLayoutTable.Block.Length;
this.StandAloneSigTable = new StandAloneSigTableReader(rowCounts[(int)TableIndex.StandAloneSig], blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.StandAloneSigTable.Block.Length;
this.EventMapTable = new EventMapTableReader(rowCounts[(int)TableIndex.EventMap], referenceSizes[(int)TableIndex.TypeDef], eventRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EventMapTable.Block.Length;
this.EventPtrTable = new EventPtrTableReader(rowCounts[(int)TableIndex.EventPtr], referenceSizes[(int)TableIndex.Event], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EventPtrTable.Block.Length;
this.EventTable = new EventTableReader(rowCounts[(int)TableIndex.Event], typeDefOrRefRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EventTable.Block.Length;
this.PropertyMapTable = new PropertyMapTableReader(rowCounts[(int)TableIndex.PropertyMap], referenceSizes[(int)TableIndex.TypeDef], propertyRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.PropertyMapTable.Block.Length;
this.PropertyPtrTable = new PropertyPtrTableReader(rowCounts[(int)TableIndex.PropertyPtr], referenceSizes[(int)TableIndex.Property], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.PropertyPtrTable.Block.Length;
this.PropertyTable = new PropertyTableReader(rowCounts[(int)TableIndex.Property], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.PropertyTable.Block.Length;
this.MethodSemanticsTable = new MethodSemanticsTableReader(rowCounts[(int)TableIndex.MethodSemantics], IsDeclaredSorted(TableMask.MethodSemantics), referenceSizes[(int)TableIndex.MethodDef], hasSemanticsRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodSemanticsTable.Block.Length;
this.MethodImplTable = new MethodImplTableReader(rowCounts[(int)TableIndex.MethodImpl], IsDeclaredSorted(TableMask.MethodImpl), referenceSizes[(int)TableIndex.TypeDef], methodDefOrRefRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodImplTable.Block.Length;
this.ModuleRefTable = new ModuleRefTableReader(rowCounts[(int)TableIndex.ModuleRef], stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ModuleRefTable.Block.Length;
this.TypeSpecTable = new TypeSpecTableReader(rowCounts[(int)TableIndex.TypeSpec], blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.TypeSpecTable.Block.Length;
this.ImplMapTable = new ImplMapTableReader(rowCounts[(int)TableIndex.ImplMap], IsDeclaredSorted(TableMask.ImplMap), referenceSizes[(int)TableIndex.ModuleRef], memberForwardedRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ImplMapTable.Block.Length;
this.FieldRvaTable = new FieldRVATableReader(rowCounts[(int)TableIndex.FieldRva], IsDeclaredSorted(TableMask.FieldRva), referenceSizes[(int)TableIndex.Field], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FieldRvaTable.Block.Length;
this.EncLogTable = new EnCLogTableReader(rowCounts[(int)TableIndex.EncLog], metadataTablesMemoryBlock, totalRequiredSize, this.metadataStreamKind);
totalRequiredSize += this.EncLogTable.Block.Length;
this.EncMapTable = new EnCMapTableReader(rowCounts[(int)TableIndex.EncMap], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.EncMapTable.Block.Length;
this.AssemblyTable = new AssemblyTableReader(rowCounts[(int)TableIndex.Assembly], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyTable.Block.Length;
this.AssemblyProcessorTable = new AssemblyProcessorTableReader(rowCounts[(int)TableIndex.AssemblyProcessor], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyProcessorTable.Block.Length;
this.AssemblyOSTable = new AssemblyOSTableReader(rowCounts[(int)TableIndex.AssemblyOS], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyOSTable.Block.Length;
this.AssemblyRefTable = new AssemblyRefTableReader((int)rowCounts[(int)TableIndex.AssemblyRef], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize, this.metadataKind);
totalRequiredSize += this.AssemblyRefTable.Block.Length;
this.AssemblyRefProcessorTable = new AssemblyRefProcessorTableReader(rowCounts[(int)TableIndex.AssemblyRefProcessor], referenceSizes[(int)TableIndex.AssemblyRef], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyRefProcessorTable.Block.Length;
this.AssemblyRefOSTable = new AssemblyRefOSTableReader(rowCounts[(int)TableIndex.AssemblyRefOS], referenceSizes[(int)TableIndex.AssemblyRef], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.AssemblyRefOSTable.Block.Length;
this.FileTable = new FileTableReader(rowCounts[(int)TableIndex.File], stringHeapRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.FileTable.Block.Length;
this.ExportedTypeTable = new ExportedTypeTableReader(rowCounts[(int)TableIndex.ExportedType], implementationRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ExportedTypeTable.Block.Length;
this.ManifestResourceTable = new ManifestResourceTableReader(rowCounts[(int)TableIndex.ManifestResource], implementationRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.ManifestResourceTable.Block.Length;
this.NestedClassTable = new NestedClassTableReader(rowCounts[(int)TableIndex.NestedClass], IsDeclaredSorted(TableMask.NestedClass), referenceSizes[(int)TableIndex.TypeDef], metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.NestedClassTable.Block.Length;
this.GenericParamTable = new GenericParamTableReader(rowCounts[(int)TableIndex.GenericParam], IsDeclaredSorted(TableMask.GenericParam), typeOrMethodDefRefSize, stringHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.GenericParamTable.Block.Length;
this.MethodSpecTable = new MethodSpecTableReader(rowCounts[(int)TableIndex.MethodSpec], methodDefOrRefRefSize, blobHeapRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.MethodSpecTable.Block.Length;
this.GenericParamConstraintTable = new GenericParamConstraintTableReader(rowCounts[(int)TableIndex.GenericParamConstraint], IsDeclaredSorted(TableMask.GenericParamConstraint), referenceSizes[(int)TableIndex.GenericParam], typeDefOrRefRefSize, metadataTablesMemoryBlock, totalRequiredSize);
totalRequiredSize += this.GenericParamConstraintTable.Block.Length;
if (totalRequiredSize > metadataTablesMemoryBlock.Length)
{
throw new BadImageFormatException(MetadataResources.MetadataTablesTooSmall);
}
}
private unsafe void TestComparisons(string heapValue, int offset, string value, bool unicode = false, bool ignoreCase = false)
{
byte[] heap;
MetadataStringDecoder decoder = MetadataStringDecoder.DefaultUTF8;
fixed (byte* heapPtr = (heap = Encoding.UTF8.GetBytes(heapValue)))
{
var block = new MemoryBlock(heapPtr, heap.Length);
string heapSubstr = GetStringHeapValue(heapValue, offset);
// compare:
if (!unicode)
{
int actualCmp = block.CompareUtf8NullTerminatedStringWithAsciiString(offset, value);
int expectedCmp = StringComparer.Ordinal.Compare(heapSubstr, value);
Assert.Equal(Math.Sign(expectedCmp), Math.Sign(actualCmp));
}
if (!ignoreCase)
{
TestComparison(block, offset, value, heapSubstr, decoder, ignoreCase: true);
}
TestComparison(block, offset, value, heapSubstr, decoder, ignoreCase);
}
}