forked from OSchip/llvm-project
725 lines
26 KiB
C++
725 lines
26 KiB
C++
//===-- WindowsResource.cpp -------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the .res file class.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Object/WindowsResource.h"
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#include "llvm/Object/COFF.h"
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#include "llvm/Support/FileOutputBuffer.h"
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#include "llvm/Support/FormatVariadic.h"
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#include "llvm/Support/MathExtras.h"
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#include <ctime>
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#include <queue>
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#include <system_error>
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using namespace llvm;
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using namespace object;
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namespace llvm {
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namespace object {
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#define RETURN_IF_ERROR(X) \
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if (auto EC = X) \
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return EC;
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const uint32_t MIN_HEADER_SIZE = 7 * sizeof(uint32_t) + 2 * sizeof(uint16_t);
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// COFF files seem to be inconsistent with alignment between sections, just use
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// 8-byte because it makes everyone happy.
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const uint32_t SECTION_ALIGNMENT = sizeof(uint64_t);
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uint32_t WindowsResourceParser::TreeNode::StringCount = 0;
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uint32_t WindowsResourceParser::TreeNode::DataCount = 0;
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WindowsResource::WindowsResource(MemoryBufferRef Source)
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: Binary(Binary::ID_WinRes, Source) {
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size_t LeadingSize = WIN_RES_MAGIC_SIZE + WIN_RES_NULL_ENTRY_SIZE;
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BBS = BinaryByteStream(Data.getBuffer().drop_front(LeadingSize),
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support::little);
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}
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Expected<std::unique_ptr<WindowsResource>>
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WindowsResource::createWindowsResource(MemoryBufferRef Source) {
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if (Source.getBufferSize() < WIN_RES_MAGIC_SIZE + WIN_RES_NULL_ENTRY_SIZE)
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return make_error<GenericBinaryError>(
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"File too small to be a resource file",
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object_error::invalid_file_type);
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std::unique_ptr<WindowsResource> Ret(new WindowsResource(Source));
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return std::move(Ret);
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}
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Expected<ResourceEntryRef> WindowsResource::getHeadEntry() {
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if (BBS.getLength() < sizeof(WinResHeaderPrefix) + sizeof(WinResHeaderSuffix))
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return make_error<EmptyResError>(".res contains no entries",
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object_error::unexpected_eof);
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return ResourceEntryRef::create(BinaryStreamRef(BBS), this);
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}
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ResourceEntryRef::ResourceEntryRef(BinaryStreamRef Ref,
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const WindowsResource *Owner)
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: Reader(Ref) {}
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Expected<ResourceEntryRef>
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ResourceEntryRef::create(BinaryStreamRef BSR, const WindowsResource *Owner) {
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auto Ref = ResourceEntryRef(BSR, Owner);
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if (auto E = Ref.loadNext())
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return std::move(E);
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return Ref;
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}
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Error ResourceEntryRef::moveNext(bool &End) {
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// Reached end of all the entries.
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if (Reader.bytesRemaining() == 0) {
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End = true;
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return Error::success();
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}
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RETURN_IF_ERROR(loadNext());
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return Error::success();
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}
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static Error readStringOrId(BinaryStreamReader &Reader, uint16_t &ID,
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ArrayRef<UTF16> &Str, bool &IsString) {
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uint16_t IDFlag;
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RETURN_IF_ERROR(Reader.readInteger(IDFlag));
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IsString = IDFlag != 0xffff;
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if (IsString) {
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Reader.setOffset(
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Reader.getOffset() -
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sizeof(uint16_t)); // Re-read the bytes which we used to check the flag.
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RETURN_IF_ERROR(Reader.readWideString(Str));
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} else
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RETURN_IF_ERROR(Reader.readInteger(ID));
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return Error::success();
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}
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Error ResourceEntryRef::loadNext() {
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const WinResHeaderPrefix *Prefix;
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RETURN_IF_ERROR(Reader.readObject(Prefix));
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if (Prefix->HeaderSize < MIN_HEADER_SIZE)
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return make_error<GenericBinaryError>("Header size is too small.",
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object_error::parse_failed);
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RETURN_IF_ERROR(readStringOrId(Reader, TypeID, Type, IsStringType));
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RETURN_IF_ERROR(readStringOrId(Reader, NameID, Name, IsStringName));
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RETURN_IF_ERROR(Reader.padToAlignment(WIN_RES_HEADER_ALIGNMENT));
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RETURN_IF_ERROR(Reader.readObject(Suffix));
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RETURN_IF_ERROR(Reader.readArray(Data, Prefix->DataSize));
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RETURN_IF_ERROR(Reader.padToAlignment(WIN_RES_DATA_ALIGNMENT));
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return Error::success();
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}
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WindowsResourceParser::WindowsResourceParser() : Root(false) {}
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Error WindowsResourceParser::parse(WindowsResource *WR) {
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auto EntryOrErr = WR->getHeadEntry();
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if (!EntryOrErr) {
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auto E = EntryOrErr.takeError();
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if (E.isA<EmptyResError>()) {
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// Check if the .res file contains no entries. In this case we don't have
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// to throw an error but can rather just return without parsing anything.
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// This applies for files which have a valid PE header magic and the
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// mandatory empty null resource entry. Files which do not fit this
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// criteria would have already been filtered out by
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// WindowsResource::createWindowsResource().
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consumeError(std::move(E));
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return Error::success();
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}
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return E;
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}
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ResourceEntryRef Entry = EntryOrErr.get();
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bool End = false;
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while (!End) {
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Data.push_back(Entry.getData());
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bool IsNewTypeString = false;
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bool IsNewNameString = false;
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Root.addEntry(Entry, IsNewTypeString, IsNewNameString);
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if (IsNewTypeString)
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StringTable.push_back(Entry.getTypeString());
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if (IsNewNameString)
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StringTable.push_back(Entry.getNameString());
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RETURN_IF_ERROR(Entry.moveNext(End));
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}
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return Error::success();
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}
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void WindowsResourceParser::printTree(raw_ostream &OS) const {
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ScopedPrinter Writer(OS);
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Root.print(Writer, "Resource Tree");
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}
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void WindowsResourceParser::TreeNode::addEntry(const ResourceEntryRef &Entry,
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bool &IsNewTypeString,
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bool &IsNewNameString) {
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TreeNode &TypeNode = addTypeNode(Entry, IsNewTypeString);
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TreeNode &NameNode = TypeNode.addNameNode(Entry, IsNewNameString);
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NameNode.addLanguageNode(Entry);
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}
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WindowsResourceParser::TreeNode::TreeNode(bool IsStringNode) {
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if (IsStringNode)
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StringIndex = StringCount++;
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}
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WindowsResourceParser::TreeNode::TreeNode(uint16_t MajorVersion,
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uint16_t MinorVersion,
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uint32_t Characteristics)
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: IsDataNode(true), MajorVersion(MajorVersion), MinorVersion(MinorVersion),
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Characteristics(Characteristics) {
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DataIndex = DataCount++;
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}
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std::unique_ptr<WindowsResourceParser::TreeNode>
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WindowsResourceParser::TreeNode::createStringNode() {
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return std::unique_ptr<TreeNode>(new TreeNode(true));
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}
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std::unique_ptr<WindowsResourceParser::TreeNode>
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WindowsResourceParser::TreeNode::createIDNode() {
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return std::unique_ptr<TreeNode>(new TreeNode(false));
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}
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std::unique_ptr<WindowsResourceParser::TreeNode>
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WindowsResourceParser::TreeNode::createDataNode(uint16_t MajorVersion,
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uint16_t MinorVersion,
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uint32_t Characteristics) {
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return std::unique_ptr<TreeNode>(
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new TreeNode(MajorVersion, MinorVersion, Characteristics));
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}
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WindowsResourceParser::TreeNode &
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WindowsResourceParser::TreeNode::addTypeNode(const ResourceEntryRef &Entry,
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bool &IsNewTypeString) {
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if (Entry.checkTypeString())
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return addChild(Entry.getTypeString(), IsNewTypeString);
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else
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return addChild(Entry.getTypeID());
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}
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WindowsResourceParser::TreeNode &
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WindowsResourceParser::TreeNode::addNameNode(const ResourceEntryRef &Entry,
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bool &IsNewNameString) {
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if (Entry.checkNameString())
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return addChild(Entry.getNameString(), IsNewNameString);
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else
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return addChild(Entry.getNameID());
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}
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WindowsResourceParser::TreeNode &
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WindowsResourceParser::TreeNode::addLanguageNode(
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const ResourceEntryRef &Entry) {
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return addChild(Entry.getLanguage(), true, Entry.getMajorVersion(),
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Entry.getMinorVersion(), Entry.getCharacteristics());
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}
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WindowsResourceParser::TreeNode &WindowsResourceParser::TreeNode::addChild(
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uint32_t ID, bool IsDataNode, uint16_t MajorVersion, uint16_t MinorVersion,
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uint32_t Characteristics) {
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auto Child = IDChildren.find(ID);
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if (Child == IDChildren.end()) {
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auto NewChild =
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IsDataNode ? createDataNode(MajorVersion, MinorVersion, Characteristics)
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: createIDNode();
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WindowsResourceParser::TreeNode &Node = *NewChild;
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IDChildren.emplace(ID, std::move(NewChild));
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return Node;
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} else
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return *(Child->second);
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}
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WindowsResourceParser::TreeNode &
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WindowsResourceParser::TreeNode::addChild(ArrayRef<UTF16> NameRef,
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bool &IsNewString) {
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std::string NameString;
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ArrayRef<UTF16> CorrectedName;
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std::vector<UTF16> EndianCorrectedName;
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if (sys::IsBigEndianHost) {
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EndianCorrectedName.resize(NameRef.size() + 1);
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llvm::copy(NameRef, EndianCorrectedName.begin() + 1);
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EndianCorrectedName[0] = UNI_UTF16_BYTE_ORDER_MARK_SWAPPED;
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CorrectedName = makeArrayRef(EndianCorrectedName);
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} else
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CorrectedName = NameRef;
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convertUTF16ToUTF8String(CorrectedName, NameString);
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auto Child = StringChildren.find(NameString);
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if (Child == StringChildren.end()) {
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auto NewChild = createStringNode();
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IsNewString = true;
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WindowsResourceParser::TreeNode &Node = *NewChild;
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StringChildren.emplace(NameString, std::move(NewChild));
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return Node;
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} else
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return *(Child->second);
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}
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void WindowsResourceParser::TreeNode::print(ScopedPrinter &Writer,
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StringRef Name) const {
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ListScope NodeScope(Writer, Name);
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for (auto const &Child : StringChildren) {
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Child.second->print(Writer, Child.first);
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}
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for (auto const &Child : IDChildren) {
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Child.second->print(Writer, to_string(Child.first));
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}
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}
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// This function returns the size of the entire resource tree, including
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// directory tables, directory entries, and data entries. It does not include
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// the directory strings or the relocations of the .rsrc section.
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uint32_t WindowsResourceParser::TreeNode::getTreeSize() const {
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uint32_t Size = (IDChildren.size() + StringChildren.size()) *
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sizeof(coff_resource_dir_entry);
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// Reached a node pointing to a data entry.
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if (IsDataNode) {
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Size += sizeof(coff_resource_data_entry);
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return Size;
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}
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// If the node does not point to data, it must have a directory table pointing
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// to other nodes.
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Size += sizeof(coff_resource_dir_table);
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for (auto const &Child : StringChildren) {
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Size += Child.second->getTreeSize();
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}
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for (auto const &Child : IDChildren) {
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Size += Child.second->getTreeSize();
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}
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return Size;
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}
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class WindowsResourceCOFFWriter {
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public:
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WindowsResourceCOFFWriter(COFF::MachineTypes MachineType,
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const WindowsResourceParser &Parser, Error &E);
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std::unique_ptr<MemoryBuffer> write();
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private:
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void performFileLayout();
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void performSectionOneLayout();
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void performSectionTwoLayout();
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void writeCOFFHeader();
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void writeFirstSectionHeader();
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void writeSecondSectionHeader();
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void writeFirstSection();
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void writeSecondSection();
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void writeSymbolTable();
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void writeStringTable();
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void writeDirectoryTree();
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void writeDirectoryStringTable();
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void writeFirstSectionRelocations();
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std::unique_ptr<WritableMemoryBuffer> OutputBuffer;
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char *BufferStart;
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uint64_t CurrentOffset = 0;
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COFF::MachineTypes MachineType;
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const WindowsResourceParser::TreeNode &Resources;
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const ArrayRef<std::vector<uint8_t>> Data;
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uint64_t FileSize;
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uint32_t SymbolTableOffset;
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uint32_t SectionOneSize;
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uint32_t SectionOneOffset;
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uint32_t SectionOneRelocations;
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uint32_t SectionTwoSize;
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uint32_t SectionTwoOffset;
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const ArrayRef<std::vector<UTF16>> StringTable;
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std::vector<uint32_t> StringTableOffsets;
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std::vector<uint32_t> DataOffsets;
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std::vector<uint32_t> RelocationAddresses;
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};
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WindowsResourceCOFFWriter::WindowsResourceCOFFWriter(
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COFF::MachineTypes MachineType, const WindowsResourceParser &Parser,
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Error &E)
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: MachineType(MachineType), Resources(Parser.getTree()),
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Data(Parser.getData()), StringTable(Parser.getStringTable()) {
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performFileLayout();
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OutputBuffer = WritableMemoryBuffer::getNewMemBuffer(FileSize);
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}
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void WindowsResourceCOFFWriter::performFileLayout() {
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// Add size of COFF header.
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FileSize = COFF::Header16Size;
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// one .rsrc section header for directory tree, another for resource data.
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FileSize += 2 * COFF::SectionSize;
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performSectionOneLayout();
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performSectionTwoLayout();
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// We have reached the address of the symbol table.
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SymbolTableOffset = FileSize;
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FileSize += COFF::Symbol16Size; // size of the @feat.00 symbol.
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FileSize += 4 * COFF::Symbol16Size; // symbol + aux for each section.
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FileSize += Data.size() * COFF::Symbol16Size; // 1 symbol per resource.
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FileSize += 4; // four null bytes for the string table.
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}
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void WindowsResourceCOFFWriter::performSectionOneLayout() {
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SectionOneOffset = FileSize;
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SectionOneSize = Resources.getTreeSize();
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uint32_t CurrentStringOffset = SectionOneSize;
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uint32_t TotalStringTableSize = 0;
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for (auto const &String : StringTable) {
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StringTableOffsets.push_back(CurrentStringOffset);
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uint32_t StringSize = String.size() * sizeof(UTF16) + sizeof(uint16_t);
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CurrentStringOffset += StringSize;
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TotalStringTableSize += StringSize;
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}
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SectionOneSize += alignTo(TotalStringTableSize, sizeof(uint32_t));
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// account for the relocations of section one.
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SectionOneRelocations = FileSize + SectionOneSize;
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FileSize += SectionOneSize;
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FileSize +=
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Data.size() * COFF::RelocationSize; // one relocation for each resource.
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FileSize = alignTo(FileSize, SECTION_ALIGNMENT);
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}
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void WindowsResourceCOFFWriter::performSectionTwoLayout() {
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// add size of .rsrc$2 section, which contains all resource data on 8-byte
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// alignment.
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SectionTwoOffset = FileSize;
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SectionTwoSize = 0;
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for (auto const &Entry : Data) {
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DataOffsets.push_back(SectionTwoSize);
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SectionTwoSize += alignTo(Entry.size(), sizeof(uint64_t));
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}
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FileSize += SectionTwoSize;
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FileSize = alignTo(FileSize, SECTION_ALIGNMENT);
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}
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static std::time_t getTime() {
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std::time_t Now = time(nullptr);
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if (Now < 0 || !isUInt<32>(Now))
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return UINT32_MAX;
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return Now;
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}
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std::unique_ptr<MemoryBuffer> WindowsResourceCOFFWriter::write() {
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BufferStart = OutputBuffer->getBufferStart();
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writeCOFFHeader();
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writeFirstSectionHeader();
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writeSecondSectionHeader();
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writeFirstSection();
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writeSecondSection();
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writeSymbolTable();
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writeStringTable();
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return std::move(OutputBuffer);
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}
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void WindowsResourceCOFFWriter::writeCOFFHeader() {
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// Write the COFF header.
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auto *Header = reinterpret_cast<coff_file_header *>(BufferStart);
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Header->Machine = MachineType;
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Header->NumberOfSections = 2;
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Header->TimeDateStamp = getTime();
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Header->PointerToSymbolTable = SymbolTableOffset;
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// One symbol for every resource plus 2 for each section and @feat.00
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Header->NumberOfSymbols = Data.size() + 5;
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Header->SizeOfOptionalHeader = 0;
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Header->Characteristics = COFF::IMAGE_FILE_32BIT_MACHINE;
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}
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void WindowsResourceCOFFWriter::writeFirstSectionHeader() {
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// Write the first section header.
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CurrentOffset += sizeof(coff_file_header);
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auto *SectionOneHeader =
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reinterpret_cast<coff_section *>(BufferStart + CurrentOffset);
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strncpy(SectionOneHeader->Name, ".rsrc$01", (size_t)COFF::NameSize);
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SectionOneHeader->VirtualSize = 0;
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SectionOneHeader->VirtualAddress = 0;
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SectionOneHeader->SizeOfRawData = SectionOneSize;
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SectionOneHeader->PointerToRawData = SectionOneOffset;
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SectionOneHeader->PointerToRelocations = SectionOneRelocations;
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SectionOneHeader->PointerToLinenumbers = 0;
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SectionOneHeader->NumberOfRelocations = Data.size();
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SectionOneHeader->NumberOfLinenumbers = 0;
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SectionOneHeader->Characteristics += COFF::IMAGE_SCN_CNT_INITIALIZED_DATA;
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SectionOneHeader->Characteristics += COFF::IMAGE_SCN_MEM_READ;
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}
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void WindowsResourceCOFFWriter::writeSecondSectionHeader() {
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// Write the second section header.
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CurrentOffset += sizeof(coff_section);
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auto *SectionTwoHeader =
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reinterpret_cast<coff_section *>(BufferStart + CurrentOffset);
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strncpy(SectionTwoHeader->Name, ".rsrc$02", (size_t)COFF::NameSize);
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SectionTwoHeader->VirtualSize = 0;
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SectionTwoHeader->VirtualAddress = 0;
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SectionTwoHeader->SizeOfRawData = SectionTwoSize;
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SectionTwoHeader->PointerToRawData = SectionTwoOffset;
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SectionTwoHeader->PointerToRelocations = 0;
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SectionTwoHeader->PointerToLinenumbers = 0;
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SectionTwoHeader->NumberOfRelocations = 0;
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SectionTwoHeader->NumberOfLinenumbers = 0;
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SectionTwoHeader->Characteristics = COFF::IMAGE_SCN_CNT_INITIALIZED_DATA;
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SectionTwoHeader->Characteristics += COFF::IMAGE_SCN_MEM_READ;
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}
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void WindowsResourceCOFFWriter::writeFirstSection() {
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// Write section one.
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CurrentOffset += sizeof(coff_section);
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writeDirectoryTree();
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writeDirectoryStringTable();
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writeFirstSectionRelocations();
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CurrentOffset = alignTo(CurrentOffset, SECTION_ALIGNMENT);
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}
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void WindowsResourceCOFFWriter::writeSecondSection() {
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// Now write the .rsrc$02 section.
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for (auto const &RawDataEntry : Data) {
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llvm::copy(RawDataEntry, BufferStart + CurrentOffset);
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CurrentOffset += alignTo(RawDataEntry.size(), sizeof(uint64_t));
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}
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CurrentOffset = alignTo(CurrentOffset, SECTION_ALIGNMENT);
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}
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void WindowsResourceCOFFWriter::writeSymbolTable() {
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|
// Now write the symbol table.
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// First, the feat symbol.
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auto *Symbol = reinterpret_cast<coff_symbol16 *>(BufferStart + CurrentOffset);
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|
strncpy(Symbol->Name.ShortName, "@feat.00", (size_t)COFF::NameSize);
|
|
Symbol->Value = 0x11;
|
|
Symbol->SectionNumber = 0xffff;
|
|
Symbol->Type = COFF::IMAGE_SYM_DTYPE_NULL;
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Symbol->StorageClass = COFF::IMAGE_SYM_CLASS_STATIC;
|
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Symbol->NumberOfAuxSymbols = 0;
|
|
CurrentOffset += sizeof(coff_symbol16);
|
|
|
|
// Now write the .rsrc1 symbol + aux.
|
|
Symbol = reinterpret_cast<coff_symbol16 *>(BufferStart + CurrentOffset);
|
|
strncpy(Symbol->Name.ShortName, ".rsrc$01", (size_t)COFF::NameSize);
|
|
Symbol->Value = 0;
|
|
Symbol->SectionNumber = 1;
|
|
Symbol->Type = COFF::IMAGE_SYM_DTYPE_NULL;
|
|
Symbol->StorageClass = COFF::IMAGE_SYM_CLASS_STATIC;
|
|
Symbol->NumberOfAuxSymbols = 1;
|
|
CurrentOffset += sizeof(coff_symbol16);
|
|
auto *Aux = reinterpret_cast<coff_aux_section_definition *>(BufferStart +
|
|
CurrentOffset);
|
|
Aux->Length = SectionOneSize;
|
|
Aux->NumberOfRelocations = Data.size();
|
|
Aux->NumberOfLinenumbers = 0;
|
|
Aux->CheckSum = 0;
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|
Aux->NumberLowPart = 0;
|
|
Aux->Selection = 0;
|
|
CurrentOffset += sizeof(coff_aux_section_definition);
|
|
|
|
// Now write the .rsrc2 symbol + aux.
|
|
Symbol = reinterpret_cast<coff_symbol16 *>(BufferStart + CurrentOffset);
|
|
strncpy(Symbol->Name.ShortName, ".rsrc$02", (size_t)COFF::NameSize);
|
|
Symbol->Value = 0;
|
|
Symbol->SectionNumber = 2;
|
|
Symbol->Type = COFF::IMAGE_SYM_DTYPE_NULL;
|
|
Symbol->StorageClass = COFF::IMAGE_SYM_CLASS_STATIC;
|
|
Symbol->NumberOfAuxSymbols = 1;
|
|
CurrentOffset += sizeof(coff_symbol16);
|
|
Aux = reinterpret_cast<coff_aux_section_definition *>(BufferStart +
|
|
CurrentOffset);
|
|
Aux->Length = SectionTwoSize;
|
|
Aux->NumberOfRelocations = 0;
|
|
Aux->NumberOfLinenumbers = 0;
|
|
Aux->CheckSum = 0;
|
|
Aux->NumberLowPart = 0;
|
|
Aux->Selection = 0;
|
|
CurrentOffset += sizeof(coff_aux_section_definition);
|
|
|
|
// Now write a symbol for each relocation.
|
|
for (unsigned i = 0; i < Data.size(); i++) {
|
|
auto RelocationName = formatv("$R{0:X-6}", i & 0xffffff).sstr<COFF::NameSize>();
|
|
Symbol = reinterpret_cast<coff_symbol16 *>(BufferStart + CurrentOffset);
|
|
memcpy(Symbol->Name.ShortName, RelocationName.data(), (size_t) COFF::NameSize);
|
|
Symbol->Value = DataOffsets[i];
|
|
Symbol->SectionNumber = 2;
|
|
Symbol->Type = COFF::IMAGE_SYM_DTYPE_NULL;
|
|
Symbol->StorageClass = COFF::IMAGE_SYM_CLASS_STATIC;
|
|
Symbol->NumberOfAuxSymbols = 0;
|
|
CurrentOffset += sizeof(coff_symbol16);
|
|
}
|
|
}
|
|
|
|
void WindowsResourceCOFFWriter::writeStringTable() {
|
|
// Just 4 null bytes for the string table.
|
|
auto COFFStringTable = reinterpret_cast<void *>(BufferStart + CurrentOffset);
|
|
memset(COFFStringTable, 0, 4);
|
|
}
|
|
|
|
void WindowsResourceCOFFWriter::writeDirectoryTree() {
|
|
// Traverse parsed resource tree breadth-first and write the corresponding
|
|
// COFF objects.
|
|
std::queue<const WindowsResourceParser::TreeNode *> Queue;
|
|
Queue.push(&Resources);
|
|
uint32_t NextLevelOffset =
|
|
sizeof(coff_resource_dir_table) + (Resources.getStringChildren().size() +
|
|
Resources.getIDChildren().size()) *
|
|
sizeof(coff_resource_dir_entry);
|
|
std::vector<const WindowsResourceParser::TreeNode *> DataEntriesTreeOrder;
|
|
uint32_t CurrentRelativeOffset = 0;
|
|
|
|
while (!Queue.empty()) {
|
|
auto CurrentNode = Queue.front();
|
|
Queue.pop();
|
|
auto *Table = reinterpret_cast<coff_resource_dir_table *>(BufferStart +
|
|
CurrentOffset);
|
|
Table->Characteristics = CurrentNode->getCharacteristics();
|
|
Table->TimeDateStamp = 0;
|
|
Table->MajorVersion = CurrentNode->getMajorVersion();
|
|
Table->MinorVersion = CurrentNode->getMinorVersion();
|
|
auto &IDChildren = CurrentNode->getIDChildren();
|
|
auto &StringChildren = CurrentNode->getStringChildren();
|
|
Table->NumberOfNameEntries = StringChildren.size();
|
|
Table->NumberOfIDEntries = IDChildren.size();
|
|
CurrentOffset += sizeof(coff_resource_dir_table);
|
|
CurrentRelativeOffset += sizeof(coff_resource_dir_table);
|
|
|
|
// Write the directory entries immediately following each directory table.
|
|
for (auto const &Child : StringChildren) {
|
|
auto *Entry = reinterpret_cast<coff_resource_dir_entry *>(BufferStart +
|
|
CurrentOffset);
|
|
Entry->Identifier.setNameOffset(
|
|
StringTableOffsets[Child.second->getStringIndex()]);
|
|
if (Child.second->checkIsDataNode()) {
|
|
Entry->Offset.DataEntryOffset = NextLevelOffset;
|
|
NextLevelOffset += sizeof(coff_resource_data_entry);
|
|
DataEntriesTreeOrder.push_back(Child.second.get());
|
|
} else {
|
|
Entry->Offset.SubdirOffset = NextLevelOffset + (1 << 31);
|
|
NextLevelOffset += sizeof(coff_resource_dir_table) +
|
|
(Child.second->getStringChildren().size() +
|
|
Child.second->getIDChildren().size()) *
|
|
sizeof(coff_resource_dir_entry);
|
|
Queue.push(Child.second.get());
|
|
}
|
|
CurrentOffset += sizeof(coff_resource_dir_entry);
|
|
CurrentRelativeOffset += sizeof(coff_resource_dir_entry);
|
|
}
|
|
for (auto const &Child : IDChildren) {
|
|
auto *Entry = reinterpret_cast<coff_resource_dir_entry *>(BufferStart +
|
|
CurrentOffset);
|
|
Entry->Identifier.ID = Child.first;
|
|
if (Child.second->checkIsDataNode()) {
|
|
Entry->Offset.DataEntryOffset = NextLevelOffset;
|
|
NextLevelOffset += sizeof(coff_resource_data_entry);
|
|
DataEntriesTreeOrder.push_back(Child.second.get());
|
|
} else {
|
|
Entry->Offset.SubdirOffset = NextLevelOffset + (1 << 31);
|
|
NextLevelOffset += sizeof(coff_resource_dir_table) +
|
|
(Child.second->getStringChildren().size() +
|
|
Child.second->getIDChildren().size()) *
|
|
sizeof(coff_resource_dir_entry);
|
|
Queue.push(Child.second.get());
|
|
}
|
|
CurrentOffset += sizeof(coff_resource_dir_entry);
|
|
CurrentRelativeOffset += sizeof(coff_resource_dir_entry);
|
|
}
|
|
}
|
|
|
|
RelocationAddresses.resize(Data.size());
|
|
// Now write all the resource data entries.
|
|
for (auto DataNodes : DataEntriesTreeOrder) {
|
|
auto *Entry = reinterpret_cast<coff_resource_data_entry *>(BufferStart +
|
|
CurrentOffset);
|
|
RelocationAddresses[DataNodes->getDataIndex()] = CurrentRelativeOffset;
|
|
Entry->DataRVA = 0; // Set to zero because it is a relocation.
|
|
Entry->DataSize = Data[DataNodes->getDataIndex()].size();
|
|
Entry->Codepage = 0;
|
|
Entry->Reserved = 0;
|
|
CurrentOffset += sizeof(coff_resource_data_entry);
|
|
CurrentRelativeOffset += sizeof(coff_resource_data_entry);
|
|
}
|
|
}
|
|
|
|
void WindowsResourceCOFFWriter::writeDirectoryStringTable() {
|
|
// Now write the directory string table for .rsrc$01
|
|
uint32_t TotalStringTableSize = 0;
|
|
for (auto &String : StringTable) {
|
|
uint16_t Length = String.size();
|
|
support::endian::write16le(BufferStart + CurrentOffset, Length);
|
|
CurrentOffset += sizeof(uint16_t);
|
|
auto *Start = reinterpret_cast<UTF16 *>(BufferStart + CurrentOffset);
|
|
llvm::copy(String, Start);
|
|
CurrentOffset += Length * sizeof(UTF16);
|
|
TotalStringTableSize += Length * sizeof(UTF16) + sizeof(uint16_t);
|
|
}
|
|
CurrentOffset +=
|
|
alignTo(TotalStringTableSize, sizeof(uint32_t)) - TotalStringTableSize;
|
|
}
|
|
|
|
void WindowsResourceCOFFWriter::writeFirstSectionRelocations() {
|
|
|
|
// Now write the relocations for .rsrc$01
|
|
// Five symbols already in table before we start, @feat.00 and 2 for each
|
|
// .rsrc section.
|
|
uint32_t NextSymbolIndex = 5;
|
|
for (unsigned i = 0; i < Data.size(); i++) {
|
|
auto *Reloc =
|
|
reinterpret_cast<coff_relocation *>(BufferStart + CurrentOffset);
|
|
Reloc->VirtualAddress = RelocationAddresses[i];
|
|
Reloc->SymbolTableIndex = NextSymbolIndex++;
|
|
switch (MachineType) {
|
|
case COFF::IMAGE_FILE_MACHINE_ARMNT:
|
|
Reloc->Type = COFF::IMAGE_REL_ARM_ADDR32NB;
|
|
break;
|
|
case COFF::IMAGE_FILE_MACHINE_AMD64:
|
|
Reloc->Type = COFF::IMAGE_REL_AMD64_ADDR32NB;
|
|
break;
|
|
case COFF::IMAGE_FILE_MACHINE_I386:
|
|
Reloc->Type = COFF::IMAGE_REL_I386_DIR32NB;
|
|
break;
|
|
case COFF::IMAGE_FILE_MACHINE_ARM64:
|
|
Reloc->Type = COFF::IMAGE_REL_ARM64_ADDR32NB;
|
|
break;
|
|
default:
|
|
llvm_unreachable("unknown machine type");
|
|
}
|
|
CurrentOffset += sizeof(coff_relocation);
|
|
}
|
|
}
|
|
|
|
Expected<std::unique_ptr<MemoryBuffer>>
|
|
writeWindowsResourceCOFF(COFF::MachineTypes MachineType,
|
|
const WindowsResourceParser &Parser) {
|
|
Error E = Error::success();
|
|
WindowsResourceCOFFWriter Writer(MachineType, Parser, E);
|
|
if (E)
|
|
return std::move(E);
|
|
return Writer.write();
|
|
}
|
|
|
|
} // namespace object
|
|
} // namespace llvm
|