internal MethodIL(
bool localVariablesInited,
ushort maxStack,
uint localSignatureToken,
MemoryBlock encodedILMemoryBlock,
SEHTableEntry[]/*?*/ sehTable
)
{
this.LocalVariablesInited = localVariablesInited;
this.MaxStack = maxStack;
this.LocalSignatureToken = localSignatureToken;
this.EncodedILMemoryBlock = encodedILMemoryBlock;
this.SEHTable = sehTable;
}
bool ProcessAndCacheMetadataTableBlocks(
MemoryBlock metadataTablesMemoryBlock
)
//^ requires this.ReaderState >= ReaderState.CORModule;
{
uint[] rowCountArray = new uint[(int)TableIndices.Count];
int[] rowRefSizeArray = new int[(int)TableIndices.Count];
ulong validTables = (ulong)this.MetadataTableHeader.ValidTables;
uint[] rowCountCompressedArray = this.MetadataTableRowCount;
// Fill in the row count and table reference sizes...
for (int tableIndex = 0, arrayIndex = 0; tableIndex < (int)TableIndices.Count; tableIndex++) {
if ((validTables & 0x0000000000000001UL) != 0) {
uint rowCount = rowCountCompressedArray[arrayIndex++];
rowCountArray[tableIndex] = rowCount;
rowRefSizeArray[tableIndex] = rowCount < MetadataStreamConstants.LargeTableRowCount ? 2 : 4;
} else {
rowRefSizeArray[tableIndex] = 2;
}
validTables >>= 1;
}
// Compute ref sizes for tables that can have pointer tables for it
int fieldRefSize = rowRefSizeArray[(int)TableIndices.FieldPtr] > 2 ? 4 : rowRefSizeArray[(int)TableIndices.Field];
int methodRefSize = rowRefSizeArray[(int)TableIndices.MethodPtr] > 2 ? 4 : rowRefSizeArray[(int)TableIndices.Method];
int paramRefSize = rowRefSizeArray[(int)TableIndices.ParamPtr] > 2 ? 4 : rowRefSizeArray[(int)TableIndices.Param];
int eventRefSize = rowRefSizeArray[(int)TableIndices.EventPtr] > 2 ? 4 : rowRefSizeArray[(int)TableIndices.Event];
int propertyRefSize = rowRefSizeArray[(int)TableIndices.PropertyPtr] > 2 ? 4 : rowRefSizeArray[(int)TableIndices.Property];
// Compute the coded token ref sizes
int typeDefOrRefRefSize = PEFileReader.ComputeCodedTokenSize(TypeDefOrRefTag.LargeRowSize, rowCountArray, TypeDefOrRefTag.TablesReferenced);
int hasConstantRefSize = PEFileReader.ComputeCodedTokenSize(HasConstantTag.LargeRowSize, rowCountArray, HasConstantTag.TablesReferenced);
int hasCustomAttributeRefSize = PEFileReader.ComputeCodedTokenSize(HasCustomAttributeTag.LargeRowSize, rowCountArray, HasCustomAttributeTag.TablesReferenced);
int hasFieldMarshalRefSize = PEFileReader.ComputeCodedTokenSize(HasFieldMarshalTag.LargeRowSize, rowCountArray, HasFieldMarshalTag.TablesReferenced);
int hasDeclSecurityRefSize = PEFileReader.ComputeCodedTokenSize(HasDeclSecurityTag.LargeRowSize, rowCountArray, HasDeclSecurityTag.TablesReferenced);
int memberRefParentRefSize = PEFileReader.ComputeCodedTokenSize(MemberRefParentTag.LargeRowSize, rowCountArray, MemberRefParentTag.TablesReferenced);
int hasSemanticsRefSize = PEFileReader.ComputeCodedTokenSize(HasSemanticsTag.LargeRowSize, rowCountArray, HasSemanticsTag.TablesReferenced);
int methodDefOrRefRefSize = PEFileReader.ComputeCodedTokenSize(MethodDefOrRefTag.LargeRowSize, rowCountArray, MethodDefOrRefTag.TablesReferenced);
int memberForwardedRefSize = PEFileReader.ComputeCodedTokenSize(MemberForwardedTag.LargeRowSize, rowCountArray, MemberForwardedTag.TablesReferenced);
int implementationRefSize = PEFileReader.ComputeCodedTokenSize(ImplementationTag.LargeRowSize, rowCountArray, ImplementationTag.TablesReferenced);
int customAttributeTypeRefSize = PEFileReader.ComputeCodedTokenSize(CustomAttributeTypeTag.LargeRowSize, rowCountArray, CustomAttributeTypeTag.TablesReferenced);
int resolutionScopeRefSize = PEFileReader.ComputeCodedTokenSize(ResolutionScopeTag.LargeRowSize, rowCountArray, ResolutionScopeTag.TablesReferenced);
int typeOrMethodDefRefSize = PEFileReader.ComputeCodedTokenSize(TypeOrMethodDefTag.LargeRowSize, rowCountArray, TypeOrMethodDefTag.TablesReferenced);
// Compute HeapRef Sizes
int stringHeapRefSize = (this.MetadataTableHeader.HeapSizeFlags & HeapSizeFlag.StringHeapLarge) == HeapSizeFlag.StringHeapLarge ? 4 : 2;
int guidHeapRefSize = (this.MetadataTableHeader.HeapSizeFlags & HeapSizeFlag.GUIDHeapLarge) == HeapSizeFlag.GUIDHeapLarge ? 4 : 2;
int blobHeapRefSize = (this.MetadataTableHeader.HeapSizeFlags & HeapSizeFlag.BlobHeapLarge) == HeapSizeFlag.BlobHeapLarge ? 4 : 2;
// Populate the Table blocks
int totalRequiredSize = 0;
int currentTableSize = 0;
byte* currentPointer = metadataTablesMemoryBlock.Buffer;
this.ModuleTable = new ModuleTableReader(rowCountArray[(int)TableIndices.Module], stringHeapRefSize, guidHeapRefSize, currentPointer);
currentTableSize = this.ModuleTable.ModuleTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.TypeRefTable = new TypeRefTableReader(rowCountArray[(int)TableIndices.TypeRef], resolutionScopeRefSize, stringHeapRefSize, currentPointer);
currentTableSize = this.TypeRefTable.TypeRefTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.TypeDefTable = new TypeDefTableReader(rowCountArray[(int)TableIndices.TypeDef], fieldRefSize, methodRefSize, typeDefOrRefRefSize, stringHeapRefSize, currentPointer);
currentTableSize = this.TypeDefTable.TypeDefTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.FieldPtrTable = new FieldPtrTableReader(rowCountArray[(int)TableIndices.FieldPtr], rowRefSizeArray[(int)TableIndices.Field], currentPointer);
currentTableSize = this.FieldPtrTable.FieldPtrTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.FieldTable = new FieldTableReader(rowCountArray[(int)TableIndices.Field], stringHeapRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.FieldTable.FieldTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.MethodPtrTable = new MethodPtrTableReader(rowCountArray[(int)TableIndices.MethodPtr], rowRefSizeArray[(int)TableIndices.Method], currentPointer);
currentTableSize = this.MethodPtrTable.MethodPtrTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.MethodTable = new MethodTableReader(rowCountArray[(int)TableIndices.Method], paramRefSize, stringHeapRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.MethodTable.MethodTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ParamPtrTable = new ParamPtrTableReader(rowCountArray[(int)TableIndices.ParamPtr], rowRefSizeArray[(int)TableIndices.Param], currentPointer);
currentTableSize = this.ParamPtrTable.ParamPtrTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ParamTable = new ParamTableReader(rowCountArray[(int)TableIndices.Param], stringHeapRefSize, currentPointer);
currentTableSize = this.ParamTable.ParamTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.InterfaceImplTable = new InterfaceImplTableReader(rowCountArray[(int)TableIndices.InterfaceImpl], rowRefSizeArray[(int)TableIndices.TypeDef], typeDefOrRefRefSize, currentPointer);
currentTableSize = this.InterfaceImplTable.InterfaceImplTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.MemberRefTable = new MemberRefTableReader(rowCountArray[(int)TableIndices.MemberRef], memberRefParentRefSize, stringHeapRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.MemberRefTable.MemberRefTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ConstantTable = new ConstantTableReader(rowCountArray[(int)TableIndices.Constant], hasConstantRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.ConstantTable.ConstantTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.CustomAttributeTable = new CustomAttributeTableReader(rowCountArray[(int)TableIndices.CustomAttribute], hasCustomAttributeRefSize, customAttributeTypeRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.CustomAttributeTable.CustomAttributeTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.FieldMarshalTable = new FieldMarshalTableReader(rowCountArray[(int)TableIndices.FieldMarshal], hasFieldMarshalRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.FieldMarshalTable.FieldMarshalTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.DeclSecurityTable = new DeclSecurityTableReader(rowCountArray[(int)TableIndices.DeclSecurity], hasDeclSecurityRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.DeclSecurityTable.DeclSecurityTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ClassLayoutTable = new ClassLayoutTableReader(rowCountArray[(int)TableIndices.ClassLayout], rowRefSizeArray[(int)TableIndices.TypeDef], currentPointer);
currentTableSize = this.ClassLayoutTable.ClassLayoutTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.FieldLayoutTable = new FieldLayoutTableReader(rowCountArray[(int)TableIndices.FieldLayout], rowRefSizeArray[(int)TableIndices.Field], currentPointer);
currentTableSize = this.FieldLayoutTable.FieldLayoutTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.StandAloneSigTable = new StandAloneSigTableReader(rowCountArray[(int)TableIndices.StandAloneSig], blobHeapRefSize, currentPointer);
currentTableSize = this.StandAloneSigTable.StandAloneSigTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.EventMapTable = new EventMapTableReader(rowCountArray[(int)TableIndices.EventMap], rowRefSizeArray[(int)TableIndices.TypeDef], eventRefSize, currentPointer);
currentTableSize = this.EventMapTable.EventMapTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.EventPtrTable = new EventPtrTableReader(rowCountArray[(int)TableIndices.EventPtr], rowRefSizeArray[(int)TableIndices.Event], currentPointer);
currentTableSize = this.EventPtrTable.EventPtrTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.EventTable = new EventTableReader(rowCountArray[(int)TableIndices.Event], typeDefOrRefRefSize, stringHeapRefSize, currentPointer);
currentTableSize = this.EventTable.EventTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.PropertyMapTable = new PropertyMapTableReader(rowCountArray[(int)TableIndices.PropertyMap], rowRefSizeArray[(int)TableIndices.TypeDef], propertyRefSize, currentPointer);
currentTableSize = this.PropertyMapTable.PropertyMapTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.PropertyPtrTable = new PropertyPtrTableReader(rowCountArray[(int)TableIndices.PropertyPtr], rowRefSizeArray[(int)TableIndices.Property], currentPointer);
currentTableSize = this.PropertyPtrTable.PropertyPtrTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.PropertyTable = new PropertyTableReader(rowCountArray[(int)TableIndices.Property], stringHeapRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.PropertyTable.PropertyTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.MethodSemanticsTable = new MethodSemanticsTableReader(rowCountArray[(int)TableIndices.MethodSemantics], rowRefSizeArray[(int)TableIndices.Method], hasSemanticsRefSize, currentPointer);
currentTableSize = this.MethodSemanticsTable.MethodSemanticsTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.MethodImplTable = new MethodImplTableReader(rowCountArray[(int)TableIndices.MethodImpl], rowRefSizeArray[(int)TableIndices.TypeDef], methodDefOrRefRefSize, currentPointer);
currentTableSize = this.MethodImplTable.MethodImplTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ModuleRefTable = new ModuleRefTableReader(rowCountArray[(int)TableIndices.ModuleRef], stringHeapRefSize, currentPointer);
currentTableSize = this.ModuleRefTable.ModuleRefTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.TypeSpecTable = new TypeSpecTableReader(rowCountArray[(int)TableIndices.TypeSpec], blobHeapRefSize, currentPointer);
currentTableSize = this.TypeSpecTable.TypeSpecTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ImplMapTable = new ImplMapTableReader(rowCountArray[(int)TableIndices.ImplMap], rowRefSizeArray[(int)TableIndices.ModuleRef], memberForwardedRefSize, stringHeapRefSize, currentPointer);
currentTableSize = this.ImplMapTable.ImplMapTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.FieldRVATable = new FieldRVATableReader(rowCountArray[(int)TableIndices.FieldRva], rowRefSizeArray[(int)TableIndices.Field], currentPointer);
currentTableSize = this.FieldRVATable.FieldRVATableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.EnCLogTable = new EnCLogTableReader(rowCountArray[(int)TableIndices.EnCLog], currentPointer);
currentTableSize = this.EnCLogTable.EnCLogTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.EnCMapTable = new EnCMapTableReader(rowCountArray[(int)TableIndices.EnCMap], currentPointer);
currentTableSize = this.EnCMapTable.EnCMapTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.AssemblyTable = new AssemblyTableReader(rowCountArray[(int)TableIndices.Assembly], stringHeapRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.AssemblyTable.AssemblyTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.AssemblyProcessorTable = new AssemblyProcessorTableReader(rowCountArray[(int)TableIndices.AssemblyProcessor], currentPointer);
currentTableSize = this.AssemblyProcessorTable.AssemblyProcessorTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.AssemblyOSTable = new AssemblyOSTableReader(rowCountArray[(int)TableIndices.AssemblyOS], currentPointer);
currentTableSize = this.AssemblyOSTable.AssemblyOSTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.AssemblyRefTable = new AssemblyRefTableReader(rowCountArray[(int)TableIndices.AssemblyRef], stringHeapRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.AssemblyRefTable.AssemblyRefTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.AssemblyRefProcessorTable = new AssemblyRefProcessorTableReader(rowCountArray[(int)TableIndices.AssemblyRefProcessor], rowRefSizeArray[(int)TableIndices.AssemblyRef], currentPointer);
currentTableSize = this.AssemblyRefProcessorTable.AssemblyRefProcessorTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.AssemblyRefOSTable = new AssemblyRefOSTableReader(rowCountArray[(int)TableIndices.AssemblyRefOS], rowRefSizeArray[(int)TableIndices.AssemblyRef], currentPointer);
currentTableSize = this.AssemblyRefOSTable.AssemblyRefOSTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.FileTable = new FileTableReader(rowCountArray[(int)TableIndices.File], stringHeapRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.FileTable.FileTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ExportedTypeTable = new ExportedTypeTableReader(rowCountArray[(int)TableIndices.ExportedType], implementationRefSize, stringHeapRefSize, currentPointer);
currentTableSize = this.ExportedTypeTable.ExportedTypeTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.ManifestResourceTable = new ManifestResourceTableReader(rowCountArray[(int)TableIndices.ManifestResource], implementationRefSize, stringHeapRefSize, currentPointer);
currentTableSize = this.ManifestResourceTable.ManifestResourceTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.NestedClassTable = new NestedClassTableReader(rowCountArray[(int)TableIndices.NestedClass], rowRefSizeArray[(int)TableIndices.TypeDef], currentPointer);
currentTableSize = this.NestedClassTable.NestedClassTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.GenericParamTable = new GenericParamTableReader(rowCountArray[(int)TableIndices.GenericParam], typeOrMethodDefRefSize, stringHeapRefSize, currentPointer);
currentTableSize = this.GenericParamTable.GenericParamTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.MethodSpecTable = new MethodSpecTableReader(rowCountArray[(int)TableIndices.MethodSpec], methodDefOrRefRefSize, blobHeapRefSize, currentPointer);
currentTableSize = this.MethodSpecTable.MethodSpecTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
this.GenericParamConstraintTable = new GenericParamConstraintTableReader(rowCountArray[(int)TableIndices.GenericParamConstraint], rowRefSizeArray[(int)TableIndices.GenericParam], typeDefOrRefRefSize, currentPointer);
currentTableSize = this.GenericParamConstraintTable.GenericParamConstraintTableMemoryReader.Length;
totalRequiredSize += currentTableSize;
currentPointer += currentTableSize;
if (totalRequiredSize > metadataTablesMemoryBlock.Length) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, 0, MetadataReaderErrorKind.MetadataTablesTooSmall);
return false;
}
return true;
}
internal SubSection(
string sectionName,
int offset,
MemoryBlock memoryBlock
)
{
this.SectionName = sectionName;
this.Offset = (uint)offset;
this.MemoryBlock = memoryBlock;
}
bool ProcessAndCacheStreams(
ref MemoryBlock metadataRoot
)
//^ requires this.ReaderState >= ReaderState.PEFile;
{
foreach (StreamHeader streamHeader in this.StreamHeaders) {
switch (streamHeader.Name) {
case COR20Constants.StringStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, streamHeader.Offset, MetadataReaderErrorKind.NotEnoughSpaceForStringStream);
return false;
}
this.StringStream.MemoryReader =
new MemoryReader(
metadataRoot.Buffer + streamHeader.Offset,
streamHeader.Size
);
break;
case COR20Constants.BlobStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, streamHeader.Offset, MetadataReaderErrorKind.NotEnoughSpaceForBlobStream);
return false;
}
this.BlobStream.MemoryReader =
new MemoryReader(
metadataRoot.Buffer + streamHeader.Offset,
streamHeader.Size
);
break;
case COR20Constants.GUIDStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, streamHeader.Offset, MetadataReaderErrorKind.NotEnoughSpaceForGUIDStream);
return false;
}
this.GUIDStream.MemoryReader =
new MemoryReader(
metadataRoot.Buffer + streamHeader.Offset,
streamHeader.Size
);
break;
case COR20Constants.UserStringStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, streamHeader.Offset, MetadataReaderErrorKind.NotEnoughSpaceForBlobStream);
return false;
}
this.UserStringStream.MemoryReader =
new MemoryReader(
metadataRoot.Buffer + streamHeader.Offset,
streamHeader.Size
);
break;
case COR20Constants.CompressedMetadataTableStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, streamHeader.Offset, MetadataReaderErrorKind.NotEnoughSpaceForMetadataStream);
return false;
}
this.MetadataStreamKind = MetadataStreamKind.Compressed;
this.MetadataTableStream =
new MemoryBlock(
metadataRoot.Buffer + streamHeader.Offset,
streamHeader.Size
);
break;
case COR20Constants.UncompressedMetadataTableStreamName:
if (metadataRoot.Length < streamHeader.Offset + streamHeader.Size) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, streamHeader.Offset, MetadataReaderErrorKind.NotEnoughSpaceForMetadataStream);
return false;
}
this.MetadataStreamKind = MetadataStreamKind.UnCompressed;
this.MetadataTableStream =
new MemoryBlock(
metadataRoot.Buffer + streamHeader.Offset,
streamHeader.Size
);
break;
default:
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, streamHeader.Offset, MetadataReaderErrorKind.UnknownMetadataStream);
break;
}
}
return true;
}
bool ReadCORModuleLevelData()
//^ requires this.ReaderState >= ReaderState.PEFile;
{
if (!this.ReadCOR20Header()) {
return false;
}
MemoryBlock metadataRoot = this.DirectoryToMemoryBlock(this.COR20Header.MetaDataDirectory);
if (metadataRoot.Length < this.COR20Header.MetaDataDirectory.Size) {
this.ErrorContainer.AddDirectoryError(Directories.Cor20HeaderMetaData, 0, MetadataReaderErrorKind.NotEnoughSpaceForMetadataDirectory);
return false;
}
MemoryReader memReader = new MemoryReader(metadataRoot);
if (
!this.ReadMetadataHeader(ref memReader)
|| !this.ReadStorageHeader(ref memReader)
|| !this.ReadStreamHeaders(ref memReader)
|| !this.ProcessAndCacheStreams(ref metadataRoot)
) {
return false;
}
this.ReaderState = ReaderState.CORModule;
this.ResourceMemoryReader = new MemoryReader(this.DirectoryToMemoryBlock(this.COR20Header.ResourcesDirectory));
this.StrongNameSignature = this.DirectoryToMemoryBlock(this.COR20Header.StrongNameSignatureDirectory);
return true;
}
internal MemoryBlock RVAToMemoryBlock(
int RVA
)
//^ requires this.ReaderState >= ReaderState.PEFile;
{
foreach (SectionHeader sectionHeaderIter in this.SectionHeaders) {
if (sectionHeaderIter.VirtualAddress <= RVA && RVA < sectionHeaderIter.VirtualAddress + sectionHeaderIter.VirtualSize) {
int relativeOffset = RVA - sectionHeaderIter.VirtualAddress;
MemoryBlock retMemBlock =
new MemoryBlock(
this.BinaryDocumentMemoryBlock.Pointer + sectionHeaderIter.OffsetToRawData + relativeOffset,
sectionHeaderIter.VirtualSize - relativeOffset
);
return retMemBlock;
}
}
// Error section not found...
return new MemoryBlock();
}
internal SubSection RVAToSubSection(
int RVA,
int size
) {
foreach (SectionHeader sectionHeaderIter in this.SectionHeaders) {
if (sectionHeaderIter.VirtualAddress <= RVA && RVA + size <= sectionHeaderIter.VirtualAddress + sectionHeaderIter.VirtualSize) {
int relativeOffset = RVA - sectionHeaderIter.VirtualAddress;
MemoryBlock memBlock =
new MemoryBlock(
this.BinaryDocumentMemoryBlock.Pointer + sectionHeaderIter.OffsetToRawData + relativeOffset,
size
);
SubSection retSubSection = new SubSection(sectionHeaderIter.Name, relativeOffset, memBlock);
return retSubSection;
}
}
// Error section not found...
return new SubSection();
}
private string ReadDebugInformationLocationFromDebugTableDirectoryData() {
if (this.OptionalHeaderDirectoryEntries.DebugTableDirectory.Size != 0x1c) return string.Empty;
var debugDirectoryReader = new MemoryReader(this.DirectoryToMemoryBlock(this.OptionalHeaderDirectoryEntries.DebugTableDirectory));
PeDebugDirectory debugDir = new PeDebugDirectory();
debugDir.Characteristics = debugDirectoryReader.ReadUInt32();
debugDir.TimeDateStamp = debugDirectoryReader.ReadUInt32();
debugDir.MajorVersion = debugDirectoryReader.ReadUInt16();
debugDir.MinorVersion = debugDirectoryReader.ReadUInt16();
debugDir.Type = debugDirectoryReader.ReadUInt32();
debugDir.SizeOfData = debugDirectoryReader.ReadUInt32();
debugDir.AddressOfRawData = debugDirectoryReader.ReadUInt32();
debugDir.PointerToRawData = debugDirectoryReader.ReadUInt32();
if (debugDir.SizeOfData == 0 ) return string.Empty;
var dataBlock = new MemoryBlock(this.BinaryDocumentMemoryBlock.Pointer + debugDir.PointerToRawData, debugDir.SizeOfData);
var ptrToDebugInfo = this.BinaryDocumentMemoryBlock.Pointer + debugDir.PointerToRawData;
var ptrToDebugInfoEnd = this.BinaryDocumentMemoryBlock.Pointer + debugDir.PointerToRawData + debugDir.SizeOfData;
if (ptrToDebugInfo >= this.BinaryDocumentMemoryBlock.Pointer + this.BinaryDocumentMemoryBlock.Length - 28) {
//TODO: error
return string.Empty;
}
if (ptrToDebugInfoEnd > this.BinaryDocumentMemoryBlock.Pointer + this.BinaryDocumentMemoryBlock.Length) {
//TODO: error
return string.Empty;
}
var debugDataReader = new MemoryReader(dataBlock);
var magic = debugDataReader.ReadUInt32();
if (magic != 0x53445352) { //RSDS in little endian format
//TODO: error
return string.Empty;
}
var unknown1 = debugDataReader.ReadUInt32();
var unknown2 = debugDataReader.ReadUInt32();
var unknown3 = debugDataReader.ReadUInt32();
var unknown4 = debugDataReader.ReadUInt32();
var unknown5 = debugDataReader.ReadUInt32();
return debugDataReader.ReadASCIINullTerminated();
}
internal MemoryBlock DirectoryToMemoryBlock(
DirectoryEntry directory
)
//^ requires this.ReaderState >= ReaderState.PEFile;
{
foreach (SectionHeader sectionHeaderIter in this.SectionHeaders) {
if (sectionHeaderIter.VirtualAddress <= directory.RelativeVirtualAddress && directory.RelativeVirtualAddress < sectionHeaderIter.VirtualAddress + sectionHeaderIter.VirtualSize) {
int relativeOffset = directory.RelativeVirtualAddress - sectionHeaderIter.VirtualAddress;
if (directory.Size > sectionHeaderIter.VirtualSize - relativeOffset) {
// PEFile Error.
}
MemoryBlock retMemBlock =
new MemoryBlock(
this.BinaryDocumentMemoryBlock.Pointer + sectionHeaderIter.OffsetToRawData + relativeOffset,
directory.Size
);
return retMemBlock;
}
}
// Error section not found...
return new MemoryBlock();
}
bool ReadMetadataRoot() {
var metadataRoot = new MemoryBlock(this.BinaryDocumentMemoryBlock.Pointer, (int)this.BinaryDocumentMemoryBlock.Length);
MemoryReader memReader = new MemoryReader(metadataRoot);
if (
!this.ReadMetadataHeader(ref memReader)
|| !this.ReadStorageHeader(ref memReader)
|| !this.ReadStreamHeaders(ref memReader)
|| !this.ProcessAndCacheStreams(ref metadataRoot)
) {
return false;
}
this.ReaderState = ReaderState.CORModule;
return true;
}
private PEFileDebugInformation ReadDebugInformationLocationFromDebugTableDirectoryData() {
if (this.OptionalHeaderDirectoryEntries.DebugTableDirectory.Size != 0x1c) return new PEFileDebugInformation();
var debugDirectoryReader = new MemoryReader(this.DirectoryToMemoryBlock(this.OptionalHeaderDirectoryEntries.DebugTableDirectory));
PeDebugDirectory debugDir = new PeDebugDirectory();
debugDir.Characteristics = debugDirectoryReader.ReadUInt32();
debugDir.TimeDateStamp = debugDirectoryReader.ReadUInt32();
debugDir.MajorVersion = debugDirectoryReader.ReadUInt16();
debugDir.MinorVersion = debugDirectoryReader.ReadUInt16();
debugDir.Type = debugDirectoryReader.ReadUInt32();
debugDir.SizeOfData = debugDirectoryReader.ReadUInt32();
debugDir.AddressOfRawData = debugDirectoryReader.ReadUInt32();
debugDir.PointerToRawData = debugDirectoryReader.ReadUInt32();
if (debugDir.SizeOfData == 0) return new PEFileDebugInformation();
var dataBlock = new MemoryBlock(this.BinaryDocumentMemoryBlock.Pointer + debugDir.PointerToRawData, debugDir.SizeOfData);
var ptrToDebugInfo = this.BinaryDocumentMemoryBlock.Pointer + debugDir.PointerToRawData;
var ptrToDebugInfoEnd = this.BinaryDocumentMemoryBlock.Pointer + debugDir.PointerToRawData + debugDir.SizeOfData;
if (ptrToDebugInfo >= this.BinaryDocumentMemoryBlock.Pointer + this.BinaryDocumentMemoryBlock.Length - 28) {
//TODO: error
return new PEFileDebugInformation();
}
if (ptrToDebugInfoEnd > this.BinaryDocumentMemoryBlock.Pointer + this.BinaryDocumentMemoryBlock.Length) {
//TODO: error
return new PEFileDebugInformation();
}
var debugDataReader = new MemoryReader(dataBlock);
var magic = debugDataReader.ReadUInt32();
if (magic != 0x53445352) { //RSDS in little endian format
//TODO: error
return new PEFileDebugInformation();
}
var guid = debugDataReader.PeekGuid(0);
debugDataReader.SkipBytes(16);
UInt32 age = debugDataReader.ReadUInt32();
string fileName = debugDataReader.ReadASCIINullTerminated();
var guidHex = guid.ToString("N");
string ageHex = age.ToString("X");
string version = guidHex + ageHex;
PEFileDebugInformation information = new PEFileDebugInformation();
information.Signature = guid;
information.Age = age;
information.PdbVersion = version;
information.PdbFileName = fileName;
return information;
}
//^ requires this.ReaderState >= ReaderState.PEFile;
internal MemoryBlock RVAToMemoryBlockWithSize(
int RVA,
int size
)
{
foreach (SectionHeader sectionHeaderIter in this.SectionHeaders) {
if (sectionHeaderIter.VirtualAddress <= RVA && RVA < sectionHeaderIter.VirtualAddress + sectionHeaderIter.VirtualSize) {
int relativeOffset = RVA - sectionHeaderIter.VirtualAddress;
if (size > sectionHeaderIter.VirtualSize - relativeOffset) {
// PEFile Error.
}
MemoryBlock retMemBlock =
new MemoryBlock(
this.BinaryDocumentMemoryBlock.Pointer + sectionHeaderIter.OffsetToRawData + relativeOffset,
(int)size
);
return retMemBlock;
}
}
// Error section not found...
return new MemoryBlock();
}
internal MemoryReader(
MemoryBlock memBlock
)
: this(memBlock.Buffer, memBlock.Length, 0)
//^ requires memBlock.IsValid;
{
}
internal EnumberableMemoryBlockWrapper(
MemoryBlock memBlock
)
{
this.MemBlock = memBlock;
}
