SMAPI/ModLoader/Mono/Cecil/PE/ImageWriter.cs

856 lines
24 KiB
C#

//
// Author:
// Jb Evain (jbevain@gmail.com)
//
// Copyright (c) 2008 - 2015 Jb Evain
// Copyright (c) 2008 - 2011 Novell, Inc.
//
// Licensed under the MIT/X11 license.
//
using System;
using System.IO;
#if !READ_ONLY
using Mono.Cecil.Cil;
using Mono.Cecil.Metadata;
using RVA = System.UInt32;
namespace Mono.Cecil.PE {
sealed class ImageWriter : BinaryStreamWriter {
readonly ModuleDefinition module;
readonly MetadataBuilder metadata;
readonly TextMap text_map;
readonly internal Disposable<Stream> stream;
readonly string runtime_version;
ImageDebugHeader debug_header;
ByteBuffer win32_resources;
const uint pe_header_size = 0x98u;
const uint section_header_size = 0x28u;
const uint file_alignment = 0x200;
const uint section_alignment = 0x2000;
const ulong image_base = 0x00400000;
internal const RVA text_rva = 0x2000;
readonly bool pe64;
readonly bool has_reloc;
internal Section text;
internal Section rsrc;
internal Section reloc;
ushort sections;
ImageWriter (ModuleDefinition module, string runtime_version, MetadataBuilder metadata, Disposable<Stream> stream, bool metadataOnly = false)
: base (stream.value)
{
this.module = module;
this.runtime_version = runtime_version;
this.text_map = metadata.text_map;
this.stream = stream;
this.metadata = metadata;
if (metadataOnly)
return;
this.pe64 = module.Architecture == TargetArchitecture.AMD64 || module.Architecture == TargetArchitecture.IA64 || module.Architecture == TargetArchitecture.ARM64;
this.has_reloc = module.Architecture == TargetArchitecture.I386;
this.GetDebugHeader ();
this.GetWin32Resources ();
this.BuildTextMap ();
this.sections = (ushort) (has_reloc ? 2 : 1); // text + reloc?
}
void GetDebugHeader ()
{
var symbol_writer = metadata.symbol_writer;
if (symbol_writer != null)
debug_header = symbol_writer.GetDebugHeader ();
if (module.HasDebugHeader) {
var header = module.GetDebugHeader ();
var deterministic = header.GetDeterministicEntry ();
if (deterministic == null)
return;
debug_header = debug_header.AddDeterministicEntry ();
}
}
void GetWin32Resources ()
{
if (!module.HasImage)
return;
DataDirectory win32_resources_directory = module.Image.Win32Resources;
var size = win32_resources_directory.Size;
if (size > 0) {
win32_resources = module.Image.GetReaderAt (win32_resources_directory.VirtualAddress, size, (s, reader) => new ByteBuffer (reader.ReadBytes ((int) s)));
}
}
public static ImageWriter CreateWriter (ModuleDefinition module, MetadataBuilder metadata, Disposable<Stream> stream)
{
var writer = new ImageWriter (module, module.runtime_version, metadata, stream);
writer.BuildSections ();
return writer;
}
public static ImageWriter CreateDebugWriter (ModuleDefinition module, MetadataBuilder metadata, Disposable<Stream> stream)
{
var writer = new ImageWriter (module, "PDB v1.0", metadata, stream, metadataOnly: true);
var length = metadata.text_map.GetLength ();
writer.text = new Section { SizeOfRawData = length, VirtualSize = length };
return writer;
}
void BuildSections ()
{
var has_win32_resources = win32_resources != null;
if (has_win32_resources)
sections++;
text = CreateSection (".text", text_map.GetLength (), null);
var previous = text;
if (has_win32_resources) {
rsrc = CreateSection (".rsrc", (uint) win32_resources.length, previous);
PatchWin32Resources (win32_resources);
previous = rsrc;
}
if (has_reloc)
reloc = CreateSection (".reloc", 12u, previous);
}
Section CreateSection (string name, uint size, Section previous)
{
return new Section {
Name = name,
VirtualAddress = previous != null
? previous.VirtualAddress + Align (previous.VirtualSize, section_alignment)
: text_rva,
VirtualSize = size,
PointerToRawData = previous != null
? previous.PointerToRawData + previous.SizeOfRawData
: Align (GetHeaderSize (), file_alignment),
SizeOfRawData = Align (size, file_alignment)
};
}
static uint Align (uint value, uint align)
{
align--;
return (value + align) & ~align;
}
void WriteDOSHeader ()
{
Write (new byte [] {
// dos header start
0x4d, 0x5a, 0x90, 0x00, 0x03, 0x00, 0x00,
0x00, 0x04, 0x00, 0x00, 0x00, 0xff, 0xff,
0x00, 0x00, 0xb8, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x40, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00,
// lfanew
0x80, 0x00, 0x00, 0x00,
// dos header end
0x0e, 0x1f, 0xba, 0x0e, 0x00, 0xb4, 0x09,
0xcd, 0x21, 0xb8, 0x01, 0x4c, 0xcd, 0x21,
0x54, 0x68, 0x69, 0x73, 0x20, 0x70, 0x72,
0x6f, 0x67, 0x72, 0x61, 0x6d, 0x20, 0x63,
0x61, 0x6e, 0x6e, 0x6f, 0x74, 0x20, 0x62,
0x65, 0x20, 0x72, 0x75, 0x6e, 0x20, 0x69,
0x6e, 0x20, 0x44, 0x4f, 0x53, 0x20, 0x6d,
0x6f, 0x64, 0x65, 0x2e, 0x0d, 0x0d, 0x0a,
0x24, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00
});
}
ushort SizeOfOptionalHeader ()
{
return (ushort) (!pe64 ? 0xe0 : 0xf0);
}
void WritePEFileHeader ()
{
WriteUInt32 (0x00004550); // Magic
WriteUInt16 ((ushort) module.Architecture); // Machine
WriteUInt16 (sections); // NumberOfSections
WriteUInt32 (metadata.timestamp);
WriteUInt32 (0); // PointerToSymbolTable
WriteUInt32 (0); // NumberOfSymbols
WriteUInt16 (SizeOfOptionalHeader ()); // SizeOfOptionalHeader
// ExecutableImage | (pe64 ? 32BitsMachine : LargeAddressAware)
var characteristics = (ushort) (0x0002 | (!pe64 ? 0x0100 : 0x0020));
if (module.Kind == ModuleKind.Dll || module.Kind == ModuleKind.NetModule)
characteristics |= 0x2000;
WriteUInt16 (characteristics); // Characteristics
}
Section LastSection ()
{
if (reloc != null)
return reloc;
if (rsrc != null)
return rsrc;
return text;
}
void WriteOptionalHeaders ()
{
WriteUInt16 ((ushort) (!pe64 ? 0x10b : 0x20b)); // Magic
WriteUInt16 (module.linker_version);
WriteUInt32 (text.SizeOfRawData); // CodeSize
WriteUInt32 ((reloc != null ? reloc.SizeOfRawData : 0)
+ (rsrc != null ? rsrc.SizeOfRawData : 0)); // InitializedDataSize
WriteUInt32 (0); // UninitializedDataSize
var startub_stub = text_map.GetRange (TextSegment.StartupStub);
WriteUInt32 (startub_stub.Length > 0 ? startub_stub.Start : 0); // EntryPointRVA
WriteUInt32 (text_rva); // BaseOfCode
if (!pe64) {
WriteUInt32 (0); // BaseOfData
WriteUInt32 ((uint) image_base); // ImageBase
} else {
WriteUInt64 (image_base); // ImageBase
}
WriteUInt32 (section_alignment); // SectionAlignment
WriteUInt32 (file_alignment); // FileAlignment
WriteUInt16 (4); // OSMajor
WriteUInt16 (0); // OSMinor
WriteUInt16 (0); // UserMajor
WriteUInt16 (0); // UserMinor
WriteUInt16 (module.subsystem_major); // SubSysMajor
WriteUInt16 (module.subsystem_minor); // SubSysMinor
WriteUInt32 (0); // Reserved
var last_section = LastSection();
WriteUInt32 (last_section.VirtualAddress + Align (last_section.VirtualSize, section_alignment)); // ImageSize
WriteUInt32 (text.PointerToRawData); // HeaderSize
WriteUInt32 (0); // Checksum
WriteUInt16 (GetSubSystem ()); // SubSystem
WriteUInt16 ((ushort) module.Characteristics); // DLLFlags
if (!pe64) {
const uint stack_reserve = 0x100000;
const uint stack_commit = 0x1000;
const uint heap_reserve = 0x100000;
const uint heap_commit = 0x1000;
WriteUInt32 (stack_reserve);
WriteUInt32 (stack_commit);
WriteUInt32 (heap_reserve);
WriteUInt32 (heap_commit);
} else {
const ulong stack_reserve = 0x400000;
const ulong stack_commit = 0x4000;
const ulong heap_reserve = 0x100000;
const ulong heap_commit = 0x2000;
WriteUInt64 (stack_reserve);
WriteUInt64 (stack_commit);
WriteUInt64 (heap_reserve);
WriteUInt64 (heap_commit);
}
WriteUInt32 (0); // LoaderFlags
WriteUInt32 (16); // NumberOfDataDir
WriteZeroDataDirectory (); // ExportTable
WriteDataDirectory (text_map.GetDataDirectory (TextSegment.ImportDirectory)); // ImportTable
if (rsrc != null) { // ResourceTable
WriteUInt32 (rsrc.VirtualAddress);
WriteUInt32 (rsrc.VirtualSize);
} else
WriteZeroDataDirectory ();
WriteZeroDataDirectory (); // ExceptionTable
WriteZeroDataDirectory (); // CertificateTable
WriteUInt32 (reloc != null ? reloc.VirtualAddress : 0); // BaseRelocationTable
WriteUInt32 (reloc != null ? reloc.VirtualSize : 0);
if (text_map.GetLength (TextSegment.DebugDirectory) > 0) {
WriteUInt32 (text_map.GetRVA (TextSegment.DebugDirectory));
WriteUInt32 ((uint) (debug_header.Entries.Length * ImageDebugDirectory.Size));
} else
WriteZeroDataDirectory ();
WriteZeroDataDirectory (); // Copyright
WriteZeroDataDirectory (); // GlobalPtr
WriteZeroDataDirectory (); // TLSTable
WriteZeroDataDirectory (); // LoadConfigTable
WriteZeroDataDirectory (); // BoundImport
WriteDataDirectory (text_map.GetDataDirectory (TextSegment.ImportAddressTable)); // IAT
WriteZeroDataDirectory (); // DelayImportDesc
WriteDataDirectory (text_map.GetDataDirectory (TextSegment.CLIHeader)); // CLIHeader
WriteZeroDataDirectory (); // Reserved
}
void WriteZeroDataDirectory ()
{
WriteUInt32 (0);
WriteUInt32 (0);
}
ushort GetSubSystem ()
{
switch (module.Kind) {
case ModuleKind.Console:
case ModuleKind.Dll:
case ModuleKind.NetModule:
return 0x3;
case ModuleKind.Windows:
return 0x2;
default:
throw new ArgumentOutOfRangeException ();
}
}
void WriteSectionHeaders ()
{
WriteSection (text, 0x60000020);
if (rsrc != null)
WriteSection (rsrc, 0x40000040);
if (reloc != null)
WriteSection (reloc, 0x42000040);
}
void WriteSection (Section section, uint characteristics)
{
var name = new byte [8];
var sect_name = section.Name;
for (int i = 0; i < sect_name.Length; i++)
name [i] = (byte) sect_name [i];
WriteBytes (name);
WriteUInt32 (section.VirtualSize);
WriteUInt32 (section.VirtualAddress);
WriteUInt32 (section.SizeOfRawData);
WriteUInt32 (section.PointerToRawData);
WriteUInt32 (0); // PointerToRelocations
WriteUInt32 (0); // PointerToLineNumbers
WriteUInt16 (0); // NumberOfRelocations
WriteUInt16 (0); // NumberOfLineNumbers
WriteUInt32 (characteristics);
}
void MoveTo (uint pointer)
{
BaseStream.Seek (pointer, SeekOrigin.Begin);
}
void MoveToRVA (Section section, RVA rva)
{
BaseStream.Seek (section.PointerToRawData + rva - section.VirtualAddress, SeekOrigin.Begin);
}
void MoveToRVA (TextSegment segment)
{
MoveToRVA (text, text_map.GetRVA (segment));
}
void WriteRVA (RVA rva)
{
if (!pe64)
WriteUInt32 (rva);
else
WriteUInt64 (rva);
}
void PrepareSection (Section section)
{
MoveTo (section.PointerToRawData);
const int buffer_size = 4096;
if (section.SizeOfRawData <= buffer_size) {
Write (new byte [section.SizeOfRawData]);
MoveTo (section.PointerToRawData);
return;
}
var written = 0;
var buffer = new byte [buffer_size];
while (written != section.SizeOfRawData) {
var write_size = System.Math.Min((int) section.SizeOfRawData - written, buffer_size);
Write (buffer, 0, write_size);
written += write_size;
}
MoveTo (section.PointerToRawData);
}
void WriteText ()
{
PrepareSection (text);
// ImportAddressTable
if (has_reloc) {
WriteRVA (text_map.GetRVA (TextSegment.ImportHintNameTable));
WriteRVA (0);
}
// CLIHeader
WriteUInt32 (0x48);
WriteUInt16 (2);
WriteUInt16 ((ushort) ((module.Runtime <= TargetRuntime.Net_1_1) ? 0 : 5));
WriteUInt32 (text_map.GetRVA (TextSegment.MetadataHeader));
WriteUInt32 (GetMetadataLength ());
WriteUInt32 ((uint) module.Attributes);
WriteUInt32 (metadata.entry_point.ToUInt32 ());
WriteDataDirectory (text_map.GetDataDirectory (TextSegment.Resources));
WriteDataDirectory (text_map.GetDataDirectory (TextSegment.StrongNameSignature));
WriteZeroDataDirectory (); // CodeManagerTable
WriteZeroDataDirectory (); // VTableFixups
WriteZeroDataDirectory (); // ExportAddressTableJumps
WriteZeroDataDirectory (); // ManagedNativeHeader
// Code
MoveToRVA (TextSegment.Code);
WriteBuffer (metadata.code);
// Resources
MoveToRVA (TextSegment.Resources);
WriteBuffer (metadata.resources);
// Data
if (metadata.data.length > 0) {
MoveToRVA (TextSegment.Data);
WriteBuffer (metadata.data);
}
// StrongNameSignature
// stays blank
// MetadataHeader
MoveToRVA (TextSegment.MetadataHeader);
WriteMetadataHeader ();
WriteMetadata ();
// DebugDirectory
if (text_map.GetLength (TextSegment.DebugDirectory) > 0) {
MoveToRVA (TextSegment.DebugDirectory);
WriteDebugDirectory ();
}
if (!has_reloc)
return;
// ImportDirectory
MoveToRVA (TextSegment.ImportDirectory);
WriteImportDirectory ();
// StartupStub
MoveToRVA (TextSegment.StartupStub);
WriteStartupStub ();
}
uint GetMetadataLength ()
{
return text_map.GetRVA (TextSegment.DebugDirectory) - text_map.GetRVA (TextSegment.MetadataHeader);
}
public void WriteMetadataHeader ()
{
WriteUInt32 (0x424a5342); // Signature
WriteUInt16 (1); // MajorVersion
WriteUInt16 (1); // MinorVersion
WriteUInt32 (0); // Reserved
var version = GetZeroTerminatedString (runtime_version);
WriteUInt32 ((uint) version.Length);
WriteBytes (version);
WriteUInt16 (0); // Flags
WriteUInt16 (GetStreamCount ());
uint offset = text_map.GetRVA (TextSegment.TableHeap) - text_map.GetRVA (TextSegment.MetadataHeader);
WriteStreamHeader (ref offset, TextSegment.TableHeap, "#~");
WriteStreamHeader (ref offset, TextSegment.StringHeap, "#Strings");
WriteStreamHeader (ref offset, TextSegment.UserStringHeap, "#US");
WriteStreamHeader (ref offset, TextSegment.GuidHeap, "#GUID");
WriteStreamHeader (ref offset, TextSegment.BlobHeap, "#Blob");
WriteStreamHeader (ref offset, TextSegment.PdbHeap, "#Pdb");
}
ushort GetStreamCount ()
{
return (ushort) (
1 // #~
+ 1 // #Strings
+ (metadata.user_string_heap.IsEmpty ? 0 : 1) // #US
+ (metadata.guid_heap.IsEmpty ? 0 : 1) // GUID
+ (metadata.blob_heap.IsEmpty ? 0 : 1)
+ (metadata.pdb_heap == null ? 0 : 1)); // #Blob
}
void WriteStreamHeader (ref uint offset, TextSegment heap, string name)
{
var length = (uint) text_map.GetLength (heap);
if (length == 0)
return;
WriteUInt32 (offset);
WriteUInt32 (length);
WriteBytes (GetZeroTerminatedString (name));
offset += length;
}
static int GetZeroTerminatedStringLength (string @string)
{
return (@string.Length + 1 + 3) & ~3;
}
static byte [] GetZeroTerminatedString (string @string)
{
return GetString (@string, GetZeroTerminatedStringLength (@string));
}
static byte [] GetSimpleString (string @string)
{
return GetString (@string, @string.Length);
}
static byte [] GetString (string @string, int length)
{
var bytes = new byte [length];
for (int i = 0; i < @string.Length; i++)
bytes [i] = (byte) @string [i];
return bytes;
}
public void WriteMetadata ()
{
WriteHeap (TextSegment.TableHeap, metadata.table_heap);
WriteHeap (TextSegment.StringHeap, metadata.string_heap);
WriteHeap (TextSegment.UserStringHeap, metadata.user_string_heap);
WriteHeap (TextSegment.GuidHeap, metadata.guid_heap);
WriteHeap (TextSegment.BlobHeap, metadata.blob_heap);
WriteHeap (TextSegment.PdbHeap, metadata.pdb_heap);
}
void WriteHeap (TextSegment heap, HeapBuffer buffer)
{
if (buffer == null || buffer.IsEmpty)
return;
MoveToRVA (heap);
WriteBuffer (buffer);
}
void WriteDebugDirectory ()
{
var data_start = (int) BaseStream.Position + (debug_header.Entries.Length * ImageDebugDirectory.Size);
for (var i = 0; i < debug_header.Entries.Length; i++) {
var entry = debug_header.Entries [i];
var directory = entry.Directory;
WriteInt32 (directory.Characteristics);
WriteInt32 (directory.TimeDateStamp);
WriteInt16 (directory.MajorVersion);
WriteInt16 (directory.MinorVersion);
WriteInt32 ((int) directory.Type);
WriteInt32 (directory.SizeOfData);
WriteInt32 (directory.AddressOfRawData);
WriteInt32 (data_start);
data_start += entry.Data.Length;
}
for (var i = 0; i < debug_header.Entries.Length; i++) {
var entry = debug_header.Entries [i];
WriteBytes (entry.Data);
}
}
void WriteImportDirectory ()
{
WriteUInt32 (text_map.GetRVA (TextSegment.ImportDirectory) + 40); // ImportLookupTable
WriteUInt32 (0); // DateTimeStamp
WriteUInt32 (0); // ForwarderChain
WriteUInt32 (text_map.GetRVA (TextSegment.ImportHintNameTable) + 14);
WriteUInt32 (text_map.GetRVA (TextSegment.ImportAddressTable));
Advance (20);
// ImportLookupTable
WriteUInt32 (text_map.GetRVA (TextSegment.ImportHintNameTable));
// ImportHintNameTable
MoveToRVA (TextSegment.ImportHintNameTable);
WriteUInt16 (0); // Hint
WriteBytes (GetRuntimeMain ());
WriteByte (0);
WriteBytes (GetSimpleString ("mscoree.dll"));
WriteUInt16 (0);
}
byte [] GetRuntimeMain ()
{
return module.Kind == ModuleKind.Dll || module.Kind == ModuleKind.NetModule
? GetSimpleString ("_CorDllMain")
: GetSimpleString ("_CorExeMain");
}
void WriteStartupStub ()
{
switch (module.Architecture) {
case TargetArchitecture.I386:
WriteUInt16 (0x25ff);
WriteUInt32 ((uint) image_base + text_map.GetRVA (TextSegment.ImportAddressTable));
return;
default:
throw new NotSupportedException ();
}
}
void WriteRsrc ()
{
PrepareSection (rsrc);
WriteBuffer (win32_resources);
}
void WriteReloc ()
{
PrepareSection (reloc);
var reloc_rva = text_map.GetRVA (TextSegment.StartupStub);
reloc_rva += module.Architecture == TargetArchitecture.IA64 ? 0x20u : 2;
var page_rva = reloc_rva & ~0xfffu;
WriteUInt32 (page_rva); // PageRVA
WriteUInt32 (0x000c); // Block Size
switch (module.Architecture) {
case TargetArchitecture.I386:
WriteUInt32 (0x3000 + reloc_rva - page_rva);
break;
default:
throw new NotSupportedException();
}
}
public void WriteImage ()
{
WriteDOSHeader ();
WritePEFileHeader ();
WriteOptionalHeaders ();
WriteSectionHeaders ();
WriteText ();
if (rsrc != null)
WriteRsrc ();
if (reloc != null)
WriteReloc ();
Flush ();
}
void BuildTextMap ()
{
var map = text_map;
map.AddMap (TextSegment.Code, metadata.code.length, !pe64 ? 4 : 16);
map.AddMap (TextSegment.Resources, metadata.resources.length, 8);
map.AddMap (TextSegment.Data, metadata.data.length, 4);
if (metadata.data.length > 0)
metadata.table_heap.FixupData (map.GetRVA (TextSegment.Data));
map.AddMap (TextSegment.StrongNameSignature, GetStrongNameLength (), 4);
BuildMetadataTextMap ();
int debug_dir_len = 0;
if (debug_header != null && debug_header.HasEntries) {
var directories_len = debug_header.Entries.Length * ImageDebugDirectory.Size;
var data_address = (int) map.GetNextRVA (TextSegment.BlobHeap) + directories_len;
var data_len = 0;
for (var i = 0; i < debug_header.Entries.Length; i++) {
var entry = debug_header.Entries [i];
var directory = entry.Directory;
directory.AddressOfRawData = entry.Data.Length == 0 ? 0 : data_address;
entry.Directory = directory;
data_len += entry.Data.Length;
data_address += data_len;
}
debug_dir_len = directories_len + data_len;
}
map.AddMap (TextSegment.DebugDirectory, debug_dir_len, 4);
if (!has_reloc) {
var start = map.GetNextRVA (TextSegment.DebugDirectory);
map.AddMap (TextSegment.ImportDirectory, new Range (start, 0));
map.AddMap (TextSegment.ImportHintNameTable, new Range (start, 0));
map.AddMap (TextSegment.StartupStub, new Range (start, 0));
return;
}
RVA import_dir_rva = map.GetNextRVA (TextSegment.DebugDirectory);
RVA import_hnt_rva = import_dir_rva + 48u;
import_hnt_rva = (import_hnt_rva + 15u) & ~15u;
uint import_dir_len = (import_hnt_rva - import_dir_rva) + 27u;
RVA startup_stub_rva = import_dir_rva + import_dir_len;
startup_stub_rva = module.Architecture == TargetArchitecture.IA64
? (startup_stub_rva + 15u) & ~15u
: 2 + ((startup_stub_rva + 3u) & ~3u);
map.AddMap (TextSegment.ImportDirectory, new Range (import_dir_rva, import_dir_len));
map.AddMap (TextSegment.ImportHintNameTable, new Range (import_hnt_rva, 0));
map.AddMap (TextSegment.StartupStub, new Range (startup_stub_rva, GetStartupStubLength ()));
}
public void BuildMetadataTextMap ()
{
var map = text_map;
map.AddMap (TextSegment.MetadataHeader, GetMetadataHeaderLength (module.RuntimeVersion));
map.AddMap (TextSegment.TableHeap, metadata.table_heap.length, 4);
map.AddMap (TextSegment.StringHeap, metadata.string_heap.length, 4);
map.AddMap (TextSegment.UserStringHeap, metadata.user_string_heap.IsEmpty ? 0 : metadata.user_string_heap.length, 4);
map.AddMap (TextSegment.GuidHeap, metadata.guid_heap.length, 4);
map.AddMap (TextSegment.BlobHeap, metadata.blob_heap.IsEmpty ? 0 : metadata.blob_heap.length, 4);
map.AddMap (TextSegment.PdbHeap, metadata.pdb_heap == null ? 0 : metadata.pdb_heap.length, 4);
}
uint GetStartupStubLength ()
{
switch (module.Architecture) {
case TargetArchitecture.I386:
return 6;
default:
throw new NotSupportedException ();
}
}
int GetMetadataHeaderLength (string runtimeVersion)
{
return
// MetadataHeader
20 + GetZeroTerminatedStringLength (runtimeVersion)
// #~ header
+ 12
// #Strings header
+ 20
// #US header
+ (metadata.user_string_heap.IsEmpty ? 0 : 12)
// #GUID header
+ 16
// #Blob header
+ (metadata.blob_heap.IsEmpty ? 0 : 16)
//
+ (metadata.pdb_heap == null ? 0 : 16);
}
int GetStrongNameLength ()
{
if (module.Assembly == null)
return 0;
var public_key = module.Assembly.Name.PublicKey;
if (public_key.IsNullOrEmpty ())
return 0;
// in fx 2.0 the key may be from 384 to 16384 bits
// so we must calculate the signature size based on
// the size of the public key (minus the 32 byte header)
int size = public_key.Length;
if (size > 32)
return size - 32;
// note: size == 16 for the ECMA "key" which is replaced
// by the runtime with a 1024 bits key (128 bytes)
return 128; // default strongname signature size
}
public DataDirectory GetStrongNameSignatureDirectory ()
{
return text_map.GetDataDirectory (TextSegment.StrongNameSignature);
}
public uint GetHeaderSize ()
{
return pe_header_size + SizeOfOptionalHeader () + (sections * section_header_size);
}
void PatchWin32Resources (ByteBuffer resources)
{
PatchResourceDirectoryTable (resources);
}
void PatchResourceDirectoryTable (ByteBuffer resources)
{
resources.Advance (12);
var entries = resources.ReadUInt16 () + resources.ReadUInt16 ();
for (int i = 0; i < entries; i++)
PatchResourceDirectoryEntry (resources);
}
void PatchResourceDirectoryEntry (ByteBuffer resources)
{
resources.Advance (4);
var child = resources.ReadUInt32 ();
var position = resources.position;
resources.position = (int) child & 0x7fffffff;
if ((child & 0x80000000) != 0)
PatchResourceDirectoryTable (resources);
else
PatchResourceDataEntry (resources);
resources.position = position;
}
void PatchResourceDataEntry (ByteBuffer resources)
{
var rva = resources.ReadUInt32 ();
resources.position -= 4;
resources.WriteUInt32 (rva - module.Image.Win32Resources.VirtualAddress + rsrc.VirtualAddress);
}
}
}
#endif