| //===-- WindowsResource.cpp -------------------------------------*- C++ -*-===// |
| // |
| // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
| // See https://llvm.org/LICENSE.txt for license information. |
| // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
| // |
| //===----------------------------------------------------------------------===// |
| // |
| // This file implements the .res file class. |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #include "llvm/Object/WindowsResource.h" |
| #include "llvm/Object/COFF.h" |
| #include "llvm/Support/FileOutputBuffer.h" |
| #include "llvm/Support/FormatVariadic.h" |
| #include "llvm/Support/MathExtras.h" |
| #include "llvm/Support/ScopedPrinter.h" |
| #include <ctime> |
| #include <queue> |
| #include <system_error> |
| |
| using namespace llvm; |
| using namespace object; |
| |
| namespace llvm { |
| namespace object { |
| |
| #define RETURN_IF_ERROR(X) \ |
| if (auto EC = X) \ |
| return EC; |
| |
| #define UNWRAP_REF_OR_RETURN(Name, Expr) \ |
| auto Name##OrErr = Expr; \ |
| if (!Name##OrErr) \ |
| return Name##OrErr.takeError(); \ |
| const auto &Name = *Name##OrErr; |
| |
| #define UNWRAP_OR_RETURN(Name, Expr) \ |
| auto Name##OrErr = Expr; \ |
| if (!Name##OrErr) \ |
| return Name##OrErr.takeError(); \ |
| auto Name = *Name##OrErr; |
| |
| const uint32_t MIN_HEADER_SIZE = 7 * sizeof(uint32_t) + 2 * sizeof(uint16_t); |
| |
| // COFF files seem to be inconsistent with alignment between sections, just use |
| // 8-byte because it makes everyone happy. |
| const uint32_t SECTION_ALIGNMENT = sizeof(uint64_t); |
| |
| WindowsResource::WindowsResource(MemoryBufferRef Source) |
| : Binary(Binary::ID_WinRes, Source) { |
| size_t LeadingSize = WIN_RES_MAGIC_SIZE + WIN_RES_NULL_ENTRY_SIZE; |
| BBS = BinaryByteStream(Data.getBuffer().drop_front(LeadingSize), |
| support::little); |
| } |
| |
| // static |
| Expected<std::unique_ptr<WindowsResource>> |
| WindowsResource::createWindowsResource(MemoryBufferRef Source) { |
| if (Source.getBufferSize() < WIN_RES_MAGIC_SIZE + WIN_RES_NULL_ENTRY_SIZE) |
| return make_error<GenericBinaryError>( |
| Source.getBufferIdentifier() + ": too small to be a resource file", |
| object_error::invalid_file_type); |
| std::unique_ptr<WindowsResource> Ret(new WindowsResource(Source)); |
| return std::move(Ret); |
| } |
| |
| Expected<ResourceEntryRef> WindowsResource::getHeadEntry() { |
| if (BBS.getLength() < sizeof(WinResHeaderPrefix) + sizeof(WinResHeaderSuffix)) |
| return make_error<EmptyResError>(getFileName() + " contains no entries", |
| object_error::unexpected_eof); |
| return ResourceEntryRef::create(BinaryStreamRef(BBS), this); |
| } |
| |
| ResourceEntryRef::ResourceEntryRef(BinaryStreamRef Ref, |
| const WindowsResource *Owner) |
| : Reader(Ref), Owner(Owner) {} |
| |
| Expected<ResourceEntryRef> |
| ResourceEntryRef::create(BinaryStreamRef BSR, const WindowsResource *Owner) { |
| auto Ref = ResourceEntryRef(BSR, Owner); |
| if (auto E = Ref.loadNext()) |
| return std::move(E); |
| return Ref; |
| } |
| |
| Error ResourceEntryRef::moveNext(bool &End) { |
| // Reached end of all the entries. |
| if (Reader.bytesRemaining() == 0) { |
| End = true; |
| return Error::success(); |
| } |
| RETURN_IF_ERROR(loadNext()); |
| |
| return Error::success(); |
| } |
| |
| static Error readStringOrId(BinaryStreamReader &Reader, uint16_t &ID, |
| ArrayRef<UTF16> &Str, bool &IsString) { |
| uint16_t IDFlag; |
| RETURN_IF_ERROR(Reader.readInteger(IDFlag)); |
| IsString = IDFlag != 0xffff; |
| |
| if (IsString) { |
| Reader.setOffset( |
| Reader.getOffset() - |
| sizeof(uint16_t)); // Re-read the bytes which we used to check the flag. |
| RETURN_IF_ERROR(Reader.readWideString(Str)); |
| } else |
| RETURN_IF_ERROR(Reader.readInteger(ID)); |
| |
| return Error::success(); |
| } |
| |
| Error ResourceEntryRef::loadNext() { |
| const WinResHeaderPrefix *Prefix; |
| RETURN_IF_ERROR(Reader.readObject(Prefix)); |
| |
| if (Prefix->HeaderSize < MIN_HEADER_SIZE) |
| return make_error<GenericBinaryError>(Owner->getFileName() + |
| ": header size too small", |
| object_error::parse_failed); |
| |
| RETURN_IF_ERROR(readStringOrId(Reader, TypeID, Type, IsStringType)); |
| |
| RETURN_IF_ERROR(readStringOrId(Reader, NameID, Name, IsStringName)); |
| |
| RETURN_IF_ERROR(Reader.padToAlignment(WIN_RES_HEADER_ALIGNMENT)); |
| |
| RETURN_IF_ERROR(Reader.readObject(Suffix)); |
| |
| RETURN_IF_ERROR(Reader.readArray(Data, Prefix->DataSize)); |
| |
| RETURN_IF_ERROR(Reader.padToAlignment(WIN_RES_DATA_ALIGNMENT)); |
| |
| return Error::success(); |
| } |
| |
| WindowsResourceParser::WindowsResourceParser(bool MinGW) |
| : Root(false), MinGW(MinGW) {} |
| |
| void printResourceTypeName(uint16_t TypeID, raw_ostream &OS) { |
| switch (TypeID) { |
| case 1: OS << "CURSOR (ID 1)"; break; |
| case 2: OS << "BITMAP (ID 2)"; break; |
| case 3: OS << "ICON (ID 3)"; break; |
| case 4: OS << "MENU (ID 4)"; break; |
| case 5: OS << "DIALOG (ID 5)"; break; |
| case 6: OS << "STRINGTABLE (ID 6)"; break; |
| case 7: OS << "FONTDIR (ID 7)"; break; |
| case 8: OS << "FONT (ID 8)"; break; |
| case 9: OS << "ACCELERATOR (ID 9)"; break; |
| case 10: OS << "RCDATA (ID 10)"; break; |
| case 11: OS << "MESSAGETABLE (ID 11)"; break; |
| case 12: OS << "GROUP_CURSOR (ID 12)"; break; |
| case 14: OS << "GROUP_ICON (ID 14)"; break; |
| case 16: OS << "VERSIONINFO (ID 16)"; break; |
| case 17: OS << "DLGINCLUDE (ID 17)"; break; |
| case 19: OS << "PLUGPLAY (ID 19)"; break; |
| case 20: OS << "VXD (ID 20)"; break; |
| case 21: OS << "ANICURSOR (ID 21)"; break; |
| case 22: OS << "ANIICON (ID 22)"; break; |
| case 23: OS << "HTML (ID 23)"; break; |
| case 24: OS << "MANIFEST (ID 24)"; break; |
| default: OS << "ID " << TypeID; break; |
| } |
| } |
| |
| static bool convertUTF16LEToUTF8String(ArrayRef<UTF16> Src, std::string &Out) { |
| if (!sys::IsBigEndianHost) |
| return convertUTF16ToUTF8String(Src, Out); |
| |
| std::vector<UTF16> EndianCorrectedSrc; |
| EndianCorrectedSrc.resize(Src.size() + 1); |
| llvm::copy(Src, EndianCorrectedSrc.begin() + 1); |
| EndianCorrectedSrc[0] = UNI_UTF16_BYTE_ORDER_MARK_SWAPPED; |
| return convertUTF16ToUTF8String(makeArrayRef(EndianCorrectedSrc), Out); |
| } |
| |
| static std::string makeDuplicateResourceError( |
| const ResourceEntryRef &Entry, StringRef File1, StringRef File2) { |
| std::string Ret; |
| raw_string_ostream OS(Ret); |
| |
| OS << "duplicate resource:"; |
| |
| OS << " type "; |
| if (Entry.checkTypeString()) { |
| std::string UTF8; |
| if (!convertUTF16LEToUTF8String(Entry.getTypeString(), UTF8)) |
| UTF8 = "(failed conversion from UTF16)"; |
| OS << '\"' << UTF8 << '\"'; |
| } else |
| printResourceTypeName(Entry.getTypeID(), OS); |
| |
| OS << "/name "; |
| if (Entry.checkNameString()) { |
| std::string UTF8; |
| if (!convertUTF16LEToUTF8String(Entry.getNameString(), UTF8)) |
| UTF8 = "(failed conversion from UTF16)"; |
| OS << '\"' << UTF8 << '\"'; |
| } else { |
| OS << "ID " << Entry.getNameID(); |
| } |
| |
| OS << "/language " << Entry.getLanguage() << ", in " << File1 << " and in " |
| << File2; |
| |
| return OS.str(); |
| } |
| |
| static void printStringOrID(const WindowsResourceParser::StringOrID &S, |
| raw_string_ostream &OS, bool IsType, bool IsID) { |
| if (S.IsString) { |
| std::string UTF8; |
| if (!convertUTF16LEToUTF8String(S.String, UTF8)) |
| UTF8 = "(failed conversion from UTF16)"; |
| OS << '\"' << UTF8 << '\"'; |
| } else if (IsType) |
| printResourceTypeName(S.ID, OS); |
| else if (IsID) |
| OS << "ID " << S.ID; |
| else |
| OS << S.ID; |
| } |
| |
| static std::string makeDuplicateResourceError( |
| const std::vector<WindowsResourceParser::StringOrID> &Context, |
| StringRef File1, StringRef File2) { |
| std::string Ret; |
| raw_string_ostream OS(Ret); |
| |
| OS << "duplicate resource:"; |
| |
| if (Context.size() >= 1) { |
| OS << " type "; |
| printStringOrID(Context[0], OS, /* IsType */ true, /* IsID */ true); |
| } |
| |
| if (Context.size() >= 2) { |
| OS << "/name "; |
| printStringOrID(Context[1], OS, /* IsType */ false, /* IsID */ true); |
| } |
| |
| if (Context.size() >= 3) { |
| OS << "/language "; |
| printStringOrID(Context[2], OS, /* IsType */ false, /* IsID */ false); |
| } |
| OS << ", in " << File1 << " and in " << File2; |
| |
| return OS.str(); |
| } |
| |
| // MinGW specific. Remove default manifests (with language zero) if there are |
| // other manifests present, and report an error if there are more than one |
| // manifest with a non-zero language code. |
| // GCC has the concept of a default manifest resource object, which gets |
| // linked in implicitly if present. This default manifest has got language |
| // id zero, and should be dropped silently if there's another manifest present. |
| // If the user resources surprisignly had a manifest with language id zero, |
| // we should also ignore the duplicate default manifest. |
| void WindowsResourceParser::cleanUpManifests( |
| std::vector<std::string> &Duplicates) { |
| auto TypeIt = Root.IDChildren.find(/* RT_MANIFEST */ 24); |
| if (TypeIt == Root.IDChildren.end()) |
| return; |
| |
| TreeNode *TypeNode = TypeIt->second.get(); |
| auto NameIt = |
| TypeNode->IDChildren.find(/* CREATEPROCESS_MANIFEST_RESOURCE_ID */ 1); |
| if (NameIt == TypeNode->IDChildren.end()) |
| return; |
| |
| TreeNode *NameNode = NameIt->second.get(); |
| if (NameNode->IDChildren.size() <= 1) |
| return; // None or one manifest present, all good. |
| |
| // If we have more than one manifest, drop the language zero one if present, |
| // and check again. |
| auto LangZeroIt = NameNode->IDChildren.find(0); |
| if (LangZeroIt != NameNode->IDChildren.end() && |
| LangZeroIt->second->IsDataNode) { |
| uint32_t RemovedIndex = LangZeroIt->second->DataIndex; |
| NameNode->IDChildren.erase(LangZeroIt); |
| Data.erase(Data.begin() + RemovedIndex); |
| Root.shiftDataIndexDown(RemovedIndex); |
| |
| // If we're now down to one manifest, all is good. |
| if (NameNode->IDChildren.size() <= 1) |
| return; |
| } |
| |
| // More than one non-language-zero manifest |
| auto FirstIt = NameNode->IDChildren.begin(); |
| uint32_t FirstLang = FirstIt->first; |
| TreeNode *FirstNode = FirstIt->second.get(); |
| auto LastIt = NameNode->IDChildren.rbegin(); |
| uint32_t LastLang = LastIt->first; |
| TreeNode *LastNode = LastIt->second.get(); |
| Duplicates.push_back( |
| ("duplicate non-default manifests with languages " + Twine(FirstLang) + |
| " in " + InputFilenames[FirstNode->Origin] + " and " + Twine(LastLang) + |
| " in " + InputFilenames[LastNode->Origin]) |
| .str()); |
| } |
| |
| // Ignore duplicates of manifests with language zero (the default manifest), |
| // in case the user has provided a manifest with that language id. See |
| // the function comment above for context. Only returns true if MinGW is set |
| // to true. |
| bool WindowsResourceParser::shouldIgnoreDuplicate( |
| const ResourceEntryRef &Entry) const { |
| return MinGW && !Entry.checkTypeString() && |
| Entry.getTypeID() == /* RT_MANIFEST */ 24 && |
| !Entry.checkNameString() && |
| Entry.getNameID() == /* CREATEPROCESS_MANIFEST_RESOURCE_ID */ 1 && |
| Entry.getLanguage() == 0; |
| } |
| |
| bool WindowsResourceParser::shouldIgnoreDuplicate( |
| const std::vector<StringOrID> &Context) const { |
| return MinGW && Context.size() == 3 && !Context[0].IsString && |
| Context[0].ID == /* RT_MANIFEST */ 24 && !Context[1].IsString && |
| Context[1].ID == /* CREATEPROCESS_MANIFEST_RESOURCE_ID */ 1 && |
| !Context[2].IsString && Context[2].ID == 0; |
| } |
| |
| Error WindowsResourceParser::parse(WindowsResource *WR, |
| std::vector<std::string> &Duplicates) { |
| auto EntryOrErr = WR->getHeadEntry(); |
| if (!EntryOrErr) { |
| auto E = EntryOrErr.takeError(); |
| if (E.isA<EmptyResError>()) { |
| // Check if the .res file contains no entries. In this case we don't have |
| // to throw an error but can rather just return without parsing anything. |
| // This applies for files which have a valid PE header magic and the |
| // mandatory empty null resource entry. Files which do not fit this |
| // criteria would have already been filtered out by |
| // WindowsResource::createWindowsResource(). |
| consumeError(std::move(E)); |
| return Error::success(); |
| } |
| return E; |
| } |
| |
| ResourceEntryRef Entry = EntryOrErr.get(); |
| uint32_t Origin = InputFilenames.size(); |
| InputFilenames.push_back(std::string(WR->getFileName())); |
| bool End = false; |
| while (!End) { |
| |
| TreeNode *Node; |
| bool IsNewNode = Root.addEntry(Entry, Origin, Data, StringTable, Node); |
| if (!IsNewNode) { |
| if (!shouldIgnoreDuplicate(Entry)) |
| Duplicates.push_back(makeDuplicateResourceError( |
| Entry, InputFilenames[Node->Origin], WR->getFileName())); |
| } |
| |
| RETURN_IF_ERROR(Entry.moveNext(End)); |
| } |
| |
| return Error::success(); |
| } |
| |
| Error WindowsResourceParser::parse(ResourceSectionRef &RSR, StringRef Filename, |
| std::vector<std::string> &Duplicates) { |
| UNWRAP_REF_OR_RETURN(BaseTable, RSR.getBaseTable()); |
| uint32_t Origin = InputFilenames.size(); |
| InputFilenames.push_back(std::string(Filename)); |
| std::vector<StringOrID> Context; |
| return addChildren(Root, RSR, BaseTable, Origin, Context, Duplicates); |
| } |
| |
| void WindowsResourceParser::printTree(raw_ostream &OS) const { |
| ScopedPrinter Writer(OS); |
| Root.print(Writer, "Resource Tree"); |
| } |
| |
| bool WindowsResourceParser::TreeNode::addEntry( |
| const ResourceEntryRef &Entry, uint32_t Origin, |
| std::vector<std::vector<uint8_t>> &Data, |
| std::vector<std::vector<UTF16>> &StringTable, TreeNode *&Result) { |
| TreeNode &TypeNode = addTypeNode(Entry, StringTable); |
| TreeNode &NameNode = TypeNode.addNameNode(Entry, StringTable); |
| return NameNode.addLanguageNode(Entry, Origin, Data, Result); |
| } |
| |
| Error WindowsResourceParser::addChildren(TreeNode &Node, |
| ResourceSectionRef &RSR, |
| const coff_resource_dir_table &Table, |
| uint32_t Origin, |
| std::vector<StringOrID> &Context, |
| std::vector<std::string> &Duplicates) { |
| |
| for (int i = 0; i < Table.NumberOfNameEntries + Table.NumberOfIDEntries; |
| i++) { |
| UNWRAP_REF_OR_RETURN(Entry, RSR.getTableEntry(Table, i)); |
| TreeNode *Child; |
| |
| if (Entry.Offset.isSubDir()) { |
| |
| // Create a new subdirectory and recurse |
| if (i < Table.NumberOfNameEntries) { |
| UNWRAP_OR_RETURN(NameString, RSR.getEntryNameString(Entry)); |
| Child = &Node.addNameChild(NameString, StringTable); |
| Context.push_back(StringOrID(NameString)); |
| } else { |
| Child = &Node.addIDChild(Entry.Identifier.ID); |
| Context.push_back(StringOrID(Entry.Identifier.ID)); |
| } |
| |
| UNWRAP_REF_OR_RETURN(NextTable, RSR.getEntrySubDir(Entry)); |
| Error E = |
| addChildren(*Child, RSR, NextTable, Origin, Context, Duplicates); |
| if (E) |
| return E; |
| Context.pop_back(); |
| |
| } else { |
| |
| // Data leaves are supposed to have a numeric ID as identifier (language). |
| if (Table.NumberOfNameEntries > 0) |
| return createStringError(object_error::parse_failed, |
| "unexpected string key for data object"); |
| |
| // Try adding a data leaf |
| UNWRAP_REF_OR_RETURN(DataEntry, RSR.getEntryData(Entry)); |
| TreeNode *Child; |
| Context.push_back(StringOrID(Entry.Identifier.ID)); |
| bool Added = Node.addDataChild(Entry.Identifier.ID, Table.MajorVersion, |
| Table.MinorVersion, Table.Characteristics, |
| Origin, Data.size(), Child); |
| if (Added) { |
| UNWRAP_OR_RETURN(Contents, RSR.getContents(DataEntry)); |
| Data.push_back(ArrayRef<uint8_t>( |
| reinterpret_cast<const uint8_t *>(Contents.data()), |
| Contents.size())); |
| } else { |
| if (!shouldIgnoreDuplicate(Context)) |
| Duplicates.push_back(makeDuplicateResourceError( |
| Context, InputFilenames[Child->Origin], InputFilenames.back())); |
| } |
| Context.pop_back(); |
| |
| } |
| } |
| return Error::success(); |
| } |
| |
| WindowsResourceParser::TreeNode::TreeNode(uint32_t StringIndex) |
| : StringIndex(StringIndex) {} |
| |
| WindowsResourceParser::TreeNode::TreeNode(uint16_t MajorVersion, |
| uint16_t MinorVersion, |
| uint32_t Characteristics, |
| uint32_t Origin, uint32_t DataIndex) |
| : IsDataNode(true), DataIndex(DataIndex), MajorVersion(MajorVersion), |
| MinorVersion(MinorVersion), Characteristics(Characteristics), |
| Origin(Origin) {} |
| |
| std::unique_ptr<WindowsResourceParser::TreeNode> |
| WindowsResourceParser::TreeNode::createStringNode(uint32_t Index) { |
| return std::unique_ptr<TreeNode>(new TreeNode(Index)); |
| } |
| |
| std::unique_ptr<WindowsResourceParser::TreeNode> |
| WindowsResourceParser::TreeNode::createIDNode() { |
| return std::unique_ptr<TreeNode>(new TreeNode(0)); |
| } |
| |
| std::unique_ptr<WindowsResourceParser::TreeNode> |
| WindowsResourceParser::TreeNode::createDataNode(uint16_t MajorVersion, |
| uint16_t MinorVersion, |
| uint32_t Characteristics, |
| uint32_t Origin, |
| uint32_t DataIndex) { |
| return std::unique_ptr<TreeNode>(new TreeNode( |
| MajorVersion, MinorVersion, Characteristics, Origin, DataIndex)); |
| } |
| |
| WindowsResourceParser::TreeNode &WindowsResourceParser::TreeNode::addTypeNode( |
| const ResourceEntryRef &Entry, |
| std::vector<std::vector<UTF16>> &StringTable) { |
| if (Entry.checkTypeString()) |
| return addNameChild(Entry.getTypeString(), StringTable); |
| else |
| return addIDChild(Entry.getTypeID()); |
| } |
| |
| WindowsResourceParser::TreeNode &WindowsResourceParser::TreeNode::addNameNode( |
| const ResourceEntryRef &Entry, |
| std::vector<std::vector<UTF16>> &StringTable) { |
| if (Entry.checkNameString()) |
| return addNameChild(Entry.getNameString(), StringTable); |
| else |
| return addIDChild(Entry.getNameID()); |
| } |
| |
| bool WindowsResourceParser::TreeNode::addLanguageNode( |
| const ResourceEntryRef &Entry, uint32_t Origin, |
| std::vector<std::vector<uint8_t>> &Data, TreeNode *&Result) { |
| bool Added = addDataChild(Entry.getLanguage(), Entry.getMajorVersion(), |
| Entry.getMinorVersion(), Entry.getCharacteristics(), |
| Origin, Data.size(), Result); |
| if (Added) |
| Data.push_back(Entry.getData()); |
| return Added; |
| } |
| |
| bool WindowsResourceParser::TreeNode::addDataChild( |
| uint32_t ID, uint16_t MajorVersion, uint16_t MinorVersion, |
| uint32_t Characteristics, uint32_t Origin, uint32_t DataIndex, |
| TreeNode *&Result) { |
| auto NewChild = createDataNode(MajorVersion, MinorVersion, Characteristics, |
| Origin, DataIndex); |
| auto ElementInserted = IDChildren.emplace(ID, std::move(NewChild)); |
| Result = ElementInserted.first->second.get(); |
| return ElementInserted.second; |
| } |
| |
| WindowsResourceParser::TreeNode &WindowsResourceParser::TreeNode::addIDChild( |
| uint32_t ID) { |
| auto Child = IDChildren.find(ID); |
| if (Child == IDChildren.end()) { |
| auto NewChild = createIDNode(); |
| WindowsResourceParser::TreeNode &Node = *NewChild; |
| IDChildren.emplace(ID, std::move(NewChild)); |
| return Node; |
| } else |
| return *(Child->second); |
| } |
| |
| WindowsResourceParser::TreeNode &WindowsResourceParser::TreeNode::addNameChild( |
| ArrayRef<UTF16> NameRef, std::vector<std::vector<UTF16>> &StringTable) { |
| std::string NameString; |
| convertUTF16LEToUTF8String(NameRef, NameString); |
| |
| auto Child = StringChildren.find(NameString); |
| if (Child == StringChildren.end()) { |
| auto NewChild = createStringNode(StringTable.size()); |
| StringTable.push_back(NameRef); |
| WindowsResourceParser::TreeNode &Node = *NewChild; |
| StringChildren.emplace(NameString, std::move(NewChild)); |
| return Node; |
| } else |
| return *(Child->second); |
| } |
| |
| void WindowsResourceParser::TreeNode::print(ScopedPrinter &Writer, |
| StringRef Name) const { |
| ListScope NodeScope(Writer, Name); |
| for (auto const &Child : StringChildren) { |
| Child.second->print(Writer, Child.first); |
| } |
| for (auto const &Child : IDChildren) { |
| Child.second->print(Writer, to_string(Child.first)); |
| } |
| } |
| |
| // This function returns the size of the entire resource tree, including |
| // directory tables, directory entries, and data entries. It does not include |
| // the directory strings or the relocations of the .rsrc section. |
| uint32_t WindowsResourceParser::TreeNode::getTreeSize() const { |
| uint32_t Size = (IDChildren.size() + StringChildren.size()) * |
| sizeof(coff_resource_dir_entry); |
| |
| // Reached a node pointing to a data entry. |
| if (IsDataNode) { |
| Size += sizeof(coff_resource_data_entry); |
| return Size; |
| } |
| |
| // If the node does not point to data, it must have a directory table pointing |
| // to other nodes. |
| Size += sizeof(coff_resource_dir_table); |
| |
| for (auto const &Child : StringChildren) { |
| Size += Child.second->getTreeSize(); |
| } |
| for (auto const &Child : IDChildren) { |
| Size += Child.second->getTreeSize(); |
| } |
| return Size; |
| } |
| |
| // Shift DataIndex of all data children with an Index greater or equal to the |
| // given one, to fill a gap from removing an entry from the Data vector. |
| void WindowsResourceParser::TreeNode::shiftDataIndexDown(uint32_t Index) { |
| if (IsDataNode && DataIndex >= Index) { |
| DataIndex--; |
| } else { |
| for (auto &Child : IDChildren) |
| Child.second->shiftDataIndexDown(Index); |
| for (auto &Child : StringChildren) |
| Child.second->shiftDataIndexDown(Index); |
| } |
| } |
| |
| class WindowsResourceCOFFWriter { |
| public: |
| WindowsResourceCOFFWriter(COFF::MachineTypes MachineType, |
| const WindowsResourceParser &Parser, Error &E); |
| std::unique_ptr<MemoryBuffer> write(uint32_t TimeDateStamp); |
| |
| private: |
| void performFileLayout(); |
| void performSectionOneLayout(); |
| void performSectionTwoLayout(); |
| void writeCOFFHeader(uint32_t TimeDateStamp); |
| void writeFirstSectionHeader(); |
| void writeSecondSectionHeader(); |
| void writeFirstSection(); |
| void writeSecondSection(); |
| void writeSymbolTable(); |
| void writeStringTable(); |
| void writeDirectoryTree(); |
| void writeDirectoryStringTable(); |
| void writeFirstSectionRelocations(); |
| std::unique_ptr<WritableMemoryBuffer> OutputBuffer; |
| char *BufferStart; |
| uint64_t CurrentOffset = 0; |
| COFF::MachineTypes MachineType; |
| const WindowsResourceParser::TreeNode &Resources; |
| const ArrayRef<std::vector<uint8_t>> Data; |
| uint64_t FileSize; |
| uint32_t SymbolTableOffset; |
| uint32_t SectionOneSize; |
| uint32_t SectionOneOffset; |
| uint32_t SectionOneRelocations; |
| uint32_t SectionTwoSize; |
| uint32_t SectionTwoOffset; |
| const ArrayRef<std::vector<UTF16>> StringTable; |
| std::vector<uint32_t> StringTableOffsets; |
| std::vector<uint32_t> DataOffsets; |
| std::vector<uint32_t> RelocationAddresses; |
| }; |
| |
| WindowsResourceCOFFWriter::WindowsResourceCOFFWriter( |
| COFF::MachineTypes MachineType, const WindowsResourceParser &Parser, |
| Error &E) |
| : MachineType(MachineType), Resources(Parser.getTree()), |
| Data(Parser.getData()), StringTable(Parser.getStringTable()) { |
| performFileLayout(); |
| |
| OutputBuffer = WritableMemoryBuffer::getNewMemBuffer( |
| FileSize, "internal .obj file created from .res files"); |
| } |
| |
| void WindowsResourceCOFFWriter::performFileLayout() { |
| // Add size of COFF header. |
| FileSize = COFF::Header16Size; |
| |
| // one .rsrc section header for directory tree, another for resource data. |
| FileSize += 2 * COFF::SectionSize; |
| |
| performSectionOneLayout(); |
| performSectionTwoLayout(); |
| |
| // We have reached the address of the symbol table. |
| SymbolTableOffset = FileSize; |
| |
| FileSize += COFF::Symbol16Size; // size of the @feat.00 symbol. |
| FileSize += 4 * COFF::Symbol16Size; // symbol + aux for each section. |
| FileSize += Data.size() * COFF::Symbol16Size; // 1 symbol per resource. |
| FileSize += 4; // four null bytes for the string table. |
| } |
| |
| void WindowsResourceCOFFWriter::performSectionOneLayout() { |
| SectionOneOffset = FileSize; |
| |
| SectionOneSize = Resources.getTreeSize(); |
| uint32_t CurrentStringOffset = SectionOneSize; |
| uint32_t TotalStringTableSize = 0; |
| for (auto const &String : StringTable) { |
| StringTableOffsets.push_back(CurrentStringOffset); |
| uint32_t StringSize = String.size() * sizeof(UTF16) + sizeof(uint16_t); |
| CurrentStringOffset += StringSize; |
| TotalStringTableSize += StringSize; |
| } |
| SectionOneSize += alignTo(TotalStringTableSize, sizeof(uint32_t)); |
| |
| // account for the relocations of section one. |
| SectionOneRelocations = FileSize + SectionOneSize; |
| FileSize += SectionOneSize; |
| FileSize += |
| Data.size() * COFF::RelocationSize; // one relocation for each resource. |
| FileSize = alignTo(FileSize, SECTION_ALIGNMENT); |
| } |
| |
| void WindowsResourceCOFFWriter::performSectionTwoLayout() { |
| // add size of .rsrc$2 section, which contains all resource data on 8-byte |
| // alignment. |
| SectionTwoOffset = FileSize; |
| SectionTwoSize = 0; |
| for (auto const &Entry : Data) { |
| DataOffsets.push_back(SectionTwoSize); |
| SectionTwoSize += alignTo(Entry.size(), sizeof(uint64_t)); |
| } |
| FileSize += SectionTwoSize; |
| FileSize = alignTo(FileSize, SECTION_ALIGNMENT); |
| } |
| |
| std::unique_ptr<MemoryBuffer> |
| WindowsResourceCOFFWriter::write(uint32_t TimeDateStamp) { |
| BufferStart = OutputBuffer->getBufferStart(); |
| |
| writeCOFFHeader(TimeDateStamp); |
| writeFirstSectionHeader(); |
| writeSecondSectionHeader(); |
| writeFirstSection(); |
| writeSecondSection(); |
| writeSymbolTable(); |
| writeStringTable(); |
| |
| return std::move(OutputBuffer); |
| } |
| |
| // According to COFF specification, if the Src has a size equal to Dest, |
| // it's okay to *not* copy the trailing zero. |
| static void coffnamecpy(char (&Dest)[COFF::NameSize], StringRef Src) { |
| assert(Src.size() <= COFF::NameSize && |
| "Src is larger than COFF::NameSize"); |
| assert((Src.size() == COFF::NameSize || Dest[Src.size()] == '\0') && |
| "Dest not zeroed upon initialization"); |
| memcpy(Dest, Src.data(), Src.size()); |
| } |
| |
| void WindowsResourceCOFFWriter::writeCOFFHeader(uint32_t TimeDateStamp) { |
| // Write the COFF header. |
| auto *Header = reinterpret_cast<coff_file_header *>(BufferStart); |
| Header->Machine = MachineType; |
| Header->NumberOfSections = 2; |
| Header->TimeDateStamp = TimeDateStamp; |
| Header->PointerToSymbolTable = SymbolTableOffset; |
| // One symbol for every resource plus 2 for each section and 1 for @feat.00 |
| Header->NumberOfSymbols = Data.size() + 5; |
| Header->SizeOfOptionalHeader = 0; |
| // cvtres.exe sets 32BIT_MACHINE even for 64-bit machine types. Match it. |
| Header->Characteristics = COFF::IMAGE_FILE_32BIT_MACHINE; |
| } |
| |
| void WindowsResourceCOFFWriter::writeFirstSectionHeader() { |
| // Write the first section header. |
| CurrentOffset += sizeof(coff_file_header); |
| auto *SectionOneHeader = |
| reinterpret_cast<coff_section *>(BufferStart + CurrentOffset); |
| coffnamecpy(SectionOneHeader->Name, ".rsrc$01"); |
| SectionOneHeader->VirtualSize = 0; |
| SectionOneHeader->VirtualAddress = 0; |
| SectionOneHeader->SizeOfRawData = SectionOneSize; |
| SectionOneHeader->PointerToRawData = SectionOneOffset; |
| SectionOneHeader->PointerToRelocations = SectionOneRelocations; |
| SectionOneHeader->PointerToLinenumbers = 0; |
| SectionOneHeader->NumberOfRelocations = Data.size(); |
| SectionOneHeader->NumberOfLinenumbers = 0; |
| SectionOneHeader->Characteristics += COFF::IMAGE_SCN_CNT_INITIALIZED_DATA; |
| SectionOneHeader->Characteristics += COFF::IMAGE_SCN_MEM_READ; |
| } |
| |
| void WindowsResourceCOFFWriter::writeSecondSectionHeader() { |
| // Write the second section header. |
| CurrentOffset += sizeof(coff_section); |
| auto *SectionTwoHeader = |
| reinterpret_cast<coff_section *>(BufferStart + CurrentOffset); |
| coffnamecpy(SectionTwoHeader->Name, ".rsrc$02"); |
| SectionTwoHeader->VirtualSize = 0; |
| SectionTwoHeader->VirtualAddress = 0; |
| SectionTwoHeader->SizeOfRawData = SectionTwoSize; |
| SectionTwoHeader->PointerToRawData = SectionTwoOffset; |
| SectionTwoHeader->PointerToRelocations = 0; |
| SectionTwoHeader->PointerToLinenumbers = 0; |
| SectionTwoHeader->NumberOfRelocations = 0; |
| SectionTwoHeader->NumberOfLinenumbers = 0; |
| SectionTwoHeader->Characteristics = COFF::IMAGE_SCN_CNT_INITIALIZED_DATA; |
| SectionTwoHeader->Characteristics += COFF::IMAGE_SCN_MEM_READ; |
| } |
| |
| void WindowsResourceCOFFWriter::writeFirstSection() { |
| // Write section one. |
| CurrentOffset += sizeof(coff_section); |
| |
| writeDirectoryTree(); |
| writeDirectoryStringTable(); |
| writeFirstSectionRelocations(); |
| |
| CurrentOffset = alignTo(CurrentOffset, SECTION_ALIGNMENT); |
| } |
| |
| void WindowsResourceCOFFWriter::writeSecondSection() { |
| // Now write the .rsrc$02 section. |
| for (auto const &RawDataEntry : Data) { |
| llvm::copy(RawDataEntry, BufferStart + CurrentOffset); |
| CurrentOffset += alignTo(RawDataEntry.size(), sizeof(uint64_t)); |
| } |
| |
| CurrentOffset = alignTo(CurrentOffset, SECTION_ALIGNMENT); |
| } |
| |
| void WindowsResourceCOFFWriter::writeSymbolTable() { |
| // Now write the symbol table. |
| // First, the feat symbol. |
| auto *Symbol = reinterpret_cast<coff_symbol16 *>(BufferStart + CurrentOffset); |
| coffnamecpy(Symbol->Name.ShortName, "@feat.00"); |
| Symbol->Value = 0x11; |
| Symbol->SectionNumber = 0xffff; |
| Symbol->Type = COFF::IMAGE_SYM_DTYPE_NULL; |
| Symbol->StorageClass = COFF::IMAGE_SYM_CLASS_STATIC; |
| Symbol->NumberOfAuxSymbols = 0; |
| CurrentOffset += sizeof(coff_symbol16); |
| |
| // Now write the .rsrc1 symbol + aux. |
| Symbol = reinterpret_cast<coff_symbol16 *>(BufferStart + CurrentOffset); |
| coffnamecpy(Symbol->Name.ShortName, ".rsrc$01"); |
| 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; |
| 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); |
| coffnamecpy(Symbol->Name.ShortName, ".rsrc$02"); |
| Symbol->Value = 0; |
| Symbol->SectionNumber = 2; |
| Symbol->Type = COFF::IMAGE_SYM_DTYPE_NULL; |
| Symbol->StorageClass = COFF::IMAGE_SYM_CLASS_STATIC; |
| Symbol->NumberOfAuxSymbols = 1; |
| CurrentOffset += sizeof(coff_symbol16); |
| Aux = reinterpret_cast<coff_aux_section_definition *>(BufferStart + |
| CurrentOffset); |
| Aux->Length = SectionTwoSize; |
| Aux->NumberOfRelocations = 0; |
| Aux->NumberOfLinenumbers = 0; |
| Aux->CheckSum = 0; |
| Aux->NumberLowPart = 0; |
| Aux->Selection = 0; |
| CurrentOffset += sizeof(coff_aux_section_definition); |
| |
| // Now write a symbol for each relocation. |
| for (unsigned i = 0; i < Data.size(); i++) { |
| auto RelocationName = formatv("$R{0:X-6}", i & 0xffffff).sstr<COFF::NameSize>(); |
| Symbol = reinterpret_cast<coff_symbol16 *>(BufferStart + CurrentOffset); |
| coffnamecpy(Symbol->Name.ShortName, RelocationName); |
| 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, |
| uint32_t TimeDateStamp) { |
| Error E = Error::success(); |
| WindowsResourceCOFFWriter Writer(MachineType, Parser, E); |
| if (E) |
| return std::move(E); |
| return Writer.write(TimeDateStamp); |
| } |
| |
| } // namespace object |
| } // namespace llvm |