//===- LinkerScript.h -------------------------------------------*- C++ -*-===// // // The LLVM Linker // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef LLD_ELF_LINKER_SCRIPT_H #define LLD_ELF_LINKER_SCRIPT_H #include "Config.h" #include "Strings.h" #include "Writer.h" #include "lld/Core/LLVM.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/DenseSet.h" #include "llvm/ADT/StringRef.h" #include "llvm/Support/MemoryBuffer.h" #include #include #include #include #include namespace lld { namespace elf { class DefinedCommon; class ScriptParser; class SymbolBody; class InputSectionBase; class InputSection; class OutputSection; class OutputSectionFactory; class InputSectionBase; class SectionBase; struct ExprValue { SectionBase *Sec; uint64_t Val; bool ForceAbsolute; ExprValue(SectionBase *Sec, bool ForceAbsolute, uint64_t Val) : Sec(Sec), Val(Val), ForceAbsolute(ForceAbsolute) {} ExprValue(SectionBase *Sec, uint64_t Val) : ExprValue(Sec, false, Val) {} ExprValue(uint64_t Val) : ExprValue(nullptr, Val) {} bool isAbsolute() const { return ForceAbsolute || Sec == nullptr; } uint64_t getValue() const; uint64_t getSecAddr() const; }; // This represents an expression in the linker script. // ScriptParser::readExpr reads an expression and returns an Expr. // Later, we evaluate the expression by calling the function. typedef std::function Expr; // Parses a linker script. Calling this function updates // Config and ScriptConfig. void readLinkerScript(MemoryBufferRef MB); // Parses a version script. void readVersionScript(MemoryBufferRef MB); void readDynamicList(MemoryBufferRef MB); // This enum is used to implement linker script SECTIONS command. // https://sourceware.org/binutils/docs/ld/SECTIONS.html#SECTIONS enum SectionsCommandKind { AssignmentKind, // . = expr or = expr OutputSectionKind, InputSectionKind, AssertKind, // ASSERT(expr) BytesDataKind // BYTE(expr), SHORT(expr), LONG(expr) or QUAD(expr) }; struct BaseCommand { BaseCommand(int K) : Kind(K) {} virtual ~BaseCommand() = default; int Kind; }; // This represents ". = " or " = ". struct SymbolAssignment : BaseCommand { SymbolAssignment(StringRef Name, Expr E, std::string Loc) : BaseCommand(AssignmentKind), Name(Name), Expression(E), Location(Loc) {} static bool classof(const BaseCommand *C); // The LHS of an expression. Name is either a symbol name or ".". StringRef Name; SymbolBody *Sym = nullptr; // The RHS of an expression. Expr Expression; // Command attributes for PROVIDE, HIDDEN and PROVIDE_HIDDEN. bool Provide = false; bool Hidden = false; // Holds file name and line number for error reporting. std::string Location; }; // Linker scripts allow additional constraints to be put on ouput sections. // If an output section is marked as ONLY_IF_RO, the section is created // only if its input sections are read-only. Likewise, an output section // with ONLY_IF_RW is created if all input sections are RW. enum class ConstraintKind { NoConstraint, ReadOnly, ReadWrite }; struct OutputSectionCommand : BaseCommand { OutputSectionCommand(StringRef Name) : BaseCommand(OutputSectionKind), Name(Name) {} static bool classof(const BaseCommand *C); StringRef Name; Expr AddrExpr; Expr AlignExpr; Expr LMAExpr; Expr SubalignExpr; std::vector> Commands; std::vector Phdrs; uint32_t Filler = 0; ConstraintKind Constraint = ConstraintKind::NoConstraint; std::string Location; std::string MemoryRegionName; }; // This struct represents one section match pattern in SECTIONS() command. // It can optionally have negative match pattern for EXCLUDED_FILE command. // Also it may be surrounded with SORT() command, so contains sorting rules. struct SectionPattern { SectionPattern(StringMatcher &&Pat1, StringMatcher &&Pat2) : ExcludedFilePat(Pat1), SectionPat(Pat2) {} StringMatcher ExcludedFilePat; StringMatcher SectionPat; SortSectionPolicy SortOuter; SortSectionPolicy SortInner; }; struct InputSectionDescription : BaseCommand { InputSectionDescription(StringRef FilePattern) : BaseCommand(InputSectionKind), FilePat(FilePattern) {} static bool classof(const BaseCommand *C); StringMatcher FilePat; // Input sections that matches at least one of SectionPatterns // will be associated with this InputSectionDescription. std::vector SectionPatterns; std::vector Sections; }; // Represents an ASSERT(). struct AssertCommand : BaseCommand { AssertCommand(Expr E) : BaseCommand(AssertKind), Expression(E) {} static bool classof(const BaseCommand *C); Expr Expression; }; // Represents BYTE(), SHORT(), LONG(), or QUAD(). struct BytesDataCommand : BaseCommand { BytesDataCommand(Expr E, unsigned Size) : BaseCommand(BytesDataKind), Expression(E), Size(Size) {} static bool classof(const BaseCommand *C); Expr Expression; unsigned Offset; unsigned Size; }; struct PhdrsCommand { StringRef Name; unsigned Type; bool HasFilehdr; bool HasPhdrs; unsigned Flags; Expr LMAExpr; }; // This struct is used to represent the location and size of regions of // target memory. Instances of the struct are created by parsing the // MEMORY command. struct MemoryRegion { std::string Name; uint64_t Origin; uint64_t Length; uint64_t Offset; uint32_t Flags; uint32_t NegFlags; }; // ScriptConfiguration holds linker script parse results. struct ScriptConfiguration { // Used to assign addresses to sections. std::vector> Commands; // Used to assign sections to headers. std::vector PhdrsCommands; bool HasSections = false; // List of section patterns specified with KEEP commands. They will // be kept even if they are unused and --gc-sections is specified. std::vector KeptSections; // A map from memory region name to a memory region descriptor. llvm::DenseMap MemoryRegions; }; extern ScriptConfiguration *ScriptConfig; class LinkerScript { protected: void assignSymbol(SymbolAssignment *Cmd, bool InSec = false); void computeInputSections(InputSectionDescription *); void setDot(Expr E, const Twine &Loc, bool InSec = false); std::vector createInputSectionList(OutputSectionCommand &Cmd); std::vector getPhdrIndices(StringRef SectionName); size_t getPhdrIndex(const Twine &Loc, StringRef PhdrName); MemoryRegion *findMemoryRegion(OutputSectionCommand *Cmd, OutputSection *Sec); void switchTo(OutputSection *Sec); void flush(); void output(InputSection *Sec); void process(BaseCommand &Base); OutputSection *Aether; bool ErrorOnMissingSection = false; // "ScriptConfig" is a bit too long, so define a short name for it. ScriptConfiguration &Opt = *ScriptConfig; uint64_t Dot; uint64_t ThreadBssOffset = 0; std::function LMAOffset; OutputSection *CurOutSec = nullptr; MemoryRegion *CurMemRegion = nullptr; llvm::DenseSet AlreadyOutputOS; llvm::DenseSet AlreadyOutputIS; public: bool hasPhdrsCommands() { return !Opt.PhdrsCommands.empty(); } uint64_t getDot() { return Dot; } OutputSection *getOutputSection(const Twine &Loc, StringRef S); uint64_t getOutputSectionSize(StringRef S); void discard(ArrayRef V); ExprValue getSymbolValue(const Twine &Loc, StringRef S); bool isDefined(StringRef S); std::vector *OutputSections; void addOrphanSections(OutputSectionFactory &Factory); void removeEmptyCommands(); void adjustSectionsBeforeSorting(); void adjustSectionsAfterSorting(); std::vector createPhdrs(); bool ignoreInterpSection(); uint32_t getFiller(StringRef Name); bool hasLMA(StringRef Name); bool shouldKeep(InputSectionBase *S); void assignOffsets(OutputSectionCommand *Cmd); void placeOrphanSections(); void processNonSectionCommands(); void assignAddresses(std::vector &Phdrs); int getSectionIndex(StringRef Name); void writeDataBytes(StringRef Name, uint8_t *Buf); void addSymbol(SymbolAssignment *Cmd); void processCommands(OutputSectionFactory &Factory); }; extern LinkerScript *Script; } // end namespace elf } // end namespace lld #endif // LLD_ELF_LINKER_SCRIPT_H