//===-- RuntimeDyld.h - Run-time dynamic linker for MC-JIT ------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Implementation of the MC-JIT runtime dynamic linker. // //===----------------------------------------------------------------------===// #include "llvm/ADT/OwningPtr.h" #include "llvm/ADT/StringMap.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/Twine.h" #include "llvm/ExecutionEngine/RuntimeDyld.h" #include "llvm/Object/MachOObject.h" #include "llvm/Support/Memory.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/system_error.h" using namespace llvm; using namespace llvm::object; namespace llvm { class RuntimeDyldImpl { // Master symbol table. As modules are loaded and external symbols are // resolved, their addresses are stored here. StringMap SymbolTable; // FIXME: Should have multiple data blocks, one for each loaded chunk of // compiled code. sys::MemoryBlock Data; bool HasError; std::string ErrorStr; // Set the error state and record an error string. bool Error(const Twine &Msg) { ErrorStr = Msg.str(); HasError = true; return true; } bool loadSegment32(const MachOObject *Obj, const MachOObject::LoadCommandInfo *SegmentLCI, const InMemoryStruct &SymtabLC); bool loadSegment64(const MachOObject *Obj, const MachOObject::LoadCommandInfo *SegmentLCI, const InMemoryStruct &SymtabLC); public: bool loadObject(MemoryBuffer *InputBuffer); void *getSymbolAddress(StringRef Name) { // Use lookup() rather than [] because we don't want to add an entry // if there isn't one already, which the [] operator does. return SymbolTable.lookup(Name); } sys::MemoryBlock getMemoryBlock() { return Data; } // Is the linker in an error state? bool hasError() { return HasError; } // Mark the error condition as handled and continue. void clearError() { HasError = false; } // Get the error message. StringRef getErrorString() { return ErrorStr; } }; bool RuntimeDyldImpl:: loadSegment32(const MachOObject *Obj, const MachOObject::LoadCommandInfo *SegmentLCI, const InMemoryStruct &SymtabLC) { InMemoryStruct Segment32LC; Obj->ReadSegmentLoadCommand(*SegmentLCI, Segment32LC); if (!Segment32LC) return Error("unable to load segment load command"); // Map the segment into memory. std::string ErrorStr; Data = sys::Memory::AllocateRWX(Segment32LC->VMSize, 0, &ErrorStr); if (!Data.base()) return Error("unable to allocate memory block: '" + ErrorStr + "'"); memcpy(Data.base(), Obj->getData(Segment32LC->FileOffset, Segment32LC->FileSize).data(), Segment32LC->FileSize); memset((char*)Data.base() + Segment32LC->FileSize, 0, Segment32LC->VMSize - Segment32LC->FileSize); // Bind the section indices to address. void **SectionBases = new void*[Segment32LC->NumSections]; for (unsigned i = 0; i != Segment32LC->NumSections; ++i) { InMemoryStruct Sect; Obj->ReadSection(*SegmentLCI, i, Sect); if (!Sect) return Error("unable to load section: '" + Twine(i) + "'"); // FIXME: We don't support relocations yet. if (Sect->NumRelocationTableEntries != 0) return Error("not yet implemented: relocations!"); // FIXME: Improve check. if (Sect->Flags != 0x80000400) return Error("unsupported section type!"); SectionBases[i] = (char*) Data.base() + Sect->Address; } // Bind all the symbols to address. for (unsigned i = 0; i != SymtabLC->NumSymbolTableEntries; ++i) { InMemoryStruct STE; Obj->ReadSymbolTableEntry(SymtabLC->SymbolTableOffset, i, STE); if (!STE) return Error("unable to read symbol: '" + Twine(i) + "'"); if (STE->SectionIndex == 0) return Error("unexpected undefined symbol!"); unsigned Index = STE->SectionIndex - 1; if (Index >= Segment32LC->NumSections) return Error("invalid section index for symbol: '" + Twine() + "'"); // Get the symbol name. StringRef Name = Obj->getStringAtIndex(STE->StringIndex); // Get the section base address. void *SectionBase = SectionBases[Index]; // Get the symbol address. void *Address = (char*) SectionBase + STE->Value; // FIXME: Check the symbol type and flags. if (STE->Type != 0xF) return Error("unexpected symbol type!"); if (STE->Flags != 0x0) return Error("unexpected symbol type!"); SymbolTable[Name] = Address; } delete SectionBases; return false; } bool RuntimeDyldImpl:: loadSegment64(const MachOObject *Obj, const MachOObject::LoadCommandInfo *SegmentLCI, const InMemoryStruct &SymtabLC) { InMemoryStruct Segment64LC; Obj->ReadSegment64LoadCommand(*SegmentLCI, Segment64LC); if (!Segment64LC) return Error("unable to load segment load command"); // Map the segment into memory. std::string ErrorStr; Data = sys::Memory::AllocateRWX(Segment64LC->VMSize, 0, &ErrorStr); if (!Data.base()) return Error("unable to allocate memory block: '" + ErrorStr + "'"); memcpy(Data.base(), Obj->getData(Segment64LC->FileOffset, Segment64LC->FileSize).data(), Segment64LC->FileSize); memset((char*)Data.base() + Segment64LC->FileSize, 0, Segment64LC->VMSize - Segment64LC->FileSize); // Bind the section indices to address. void **SectionBases = new void*[Segment64LC->NumSections]; for (unsigned i = 0; i != Segment64LC->NumSections; ++i) { InMemoryStruct Sect; Obj->ReadSection64(*SegmentLCI, i, Sect); if (!Sect) return Error("unable to load section: '" + Twine(i) + "'"); // FIXME: We don't support relocations yet. if (Sect->NumRelocationTableEntries != 0) return Error("not yet implemented: relocations!"); // FIXME: Improve check. if (Sect->Flags != 0x80000400) return Error("unsupported section type!"); SectionBases[i] = (char*) Data.base() + Sect->Address; } // Bind all the symbols to address. for (unsigned i = 0; i != SymtabLC->NumSymbolTableEntries; ++i) { InMemoryStruct STE; Obj->ReadSymbol64TableEntry(SymtabLC->SymbolTableOffset, i, STE); if (!STE) return Error("unable to read symbol: '" + Twine(i) + "'"); if (STE->SectionIndex == 0) return Error("unexpected undefined symbol!"); unsigned Index = STE->SectionIndex - 1; if (Index >= Segment64LC->NumSections) return Error("invalid section index for symbol: '" + Twine() + "'"); // Get the symbol name. StringRef Name = Obj->getStringAtIndex(STE->StringIndex); // Get the section base address. void *SectionBase = SectionBases[Index]; // Get the symbol address. void *Address = (char*) SectionBase + STE->Value; // FIXME: Check the symbol type and flags. if (STE->Type != 0xF) return Error("unexpected symbol type!"); if (STE->Flags != 0x0) return Error("unexpected symbol type!"); SymbolTable[Name] = Address; } delete SectionBases; return false; } bool RuntimeDyldImpl::loadObject(MemoryBuffer *InputBuffer) { // If the linker is in an error state, don't do anything. if (hasError()) return true; // Load the Mach-O wrapper object. std::string ErrorStr; OwningPtr Obj( MachOObject::LoadFromBuffer(InputBuffer, &ErrorStr)); if (!Obj) return Error("unable to load object: '" + ErrorStr + "'"); // Validate that the load commands match what we expect. const MachOObject::LoadCommandInfo *SegmentLCI = 0, *SymtabLCI = 0, *DysymtabLCI = 0; for (unsigned i = 0; i != Obj->getHeader().NumLoadCommands; ++i) { const MachOObject::LoadCommandInfo &LCI = Obj->getLoadCommandInfo(i); switch (LCI.Command.Type) { case macho::LCT_Segment: case macho::LCT_Segment64: if (SegmentLCI) return Error("unexpected input object (multiple segments)"); SegmentLCI = &LCI; break; case macho::LCT_Symtab: if (SymtabLCI) return Error("unexpected input object (multiple symbol tables)"); SymtabLCI = &LCI; break; case macho::LCT_Dysymtab: if (DysymtabLCI) return Error("unexpected input object (multiple symbol tables)"); DysymtabLCI = &LCI; break; default: return Error("unexpected input object (unexpected load command"); } } if (!SymtabLCI) return Error("no symbol table found in object"); if (!SegmentLCI) return Error("no symbol table found in object"); // Read and register the symbol table data. InMemoryStruct SymtabLC; Obj->ReadSymtabLoadCommand(*SymtabLCI, SymtabLC); if (!SymtabLC) return Error("unable to load symbol table load command"); Obj->RegisterStringTable(*SymtabLC); // Read the dynamic link-edit information, if present (not present in static // objects). if (DysymtabLCI) { InMemoryStruct DysymtabLC; Obj->ReadDysymtabLoadCommand(*DysymtabLCI, DysymtabLC); if (!DysymtabLC) return Error("unable to load dynamic link-exit load command"); // FIXME: We don't support anything interesting yet. if (DysymtabLC->LocalSymbolsIndex != 0) return Error("NOT YET IMPLEMENTED: local symbol entries"); if (DysymtabLC->ExternalSymbolsIndex != 0) return Error("NOT YET IMPLEMENTED: non-external symbol entries"); if (DysymtabLC->UndefinedSymbolsIndex != SymtabLC->NumSymbolTableEntries) return Error("NOT YET IMPLEMENTED: undefined symbol entries"); } // Load the segment load command. if (SegmentLCI->Command.Type == macho::LCT_Segment) { if (loadSegment32(Obj.get(), SegmentLCI, SymtabLC)) return true; } else { if (loadSegment64(Obj.get(), SegmentLCI, SymtabLC)) return true; } return false; } //===----------------------------------------------------------------------===// // RuntimeDyld class implementation RuntimeDyld::RuntimeDyld() { Dyld = new RuntimeDyldImpl; } RuntimeDyld::~RuntimeDyld() { delete Dyld; } bool RuntimeDyld::loadObject(MemoryBuffer *InputBuffer) { return Dyld->loadObject(InputBuffer); } void *RuntimeDyld::getSymbolAddress(StringRef Name) { return Dyld->getSymbolAddress(Name); } sys::MemoryBlock RuntimeDyld::getMemoryBlock() { return Dyld->getMemoryBlock(); } } // end namespace llvm