//===- Object.cpp - C bindings to the object file library--------*- 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 defines the C bindings to the file-format-independent object // library. // //===----------------------------------------------------------------------===// #include "llvm-c/Object.h" #include "llvm/ADT/SmallVector.h" #include "llvm/IR/LLVMContext.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Object/MachOUniversal.h" #include "llvm/Support/MemAlloc.h" using namespace llvm; using namespace object; inline OwningBinary *unwrap(LLVMObjectFileRef OF) { return reinterpret_cast *>(OF); } inline LLVMObjectFileRef wrap(const OwningBinary *OF) { return reinterpret_cast( const_cast *>(OF)); } inline section_iterator *unwrap(LLVMSectionIteratorRef SI) { return reinterpret_cast(SI); } inline LLVMSectionIteratorRef wrap(const section_iterator *SI) { return reinterpret_cast (const_cast(SI)); } inline symbol_iterator *unwrap(LLVMSymbolIteratorRef SI) { return reinterpret_cast(SI); } inline LLVMSymbolIteratorRef wrap(const symbol_iterator *SI) { return reinterpret_cast (const_cast(SI)); } inline relocation_iterator *unwrap(LLVMRelocationIteratorRef SI) { return reinterpret_cast(SI); } inline LLVMRelocationIteratorRef wrap(const relocation_iterator *SI) { return reinterpret_cast (const_cast(SI)); } /*--.. Operations on binary files ..........................................--*/ LLVMBinaryRef LLVMCreateBinary(LLVMMemoryBufferRef MemBuf, LLVMContextRef Context, char **ErrorMessage) { auto maybeContext = Context ? unwrap(Context) : nullptr; Expected> ObjOrErr( createBinary(unwrap(MemBuf)->getMemBufferRef(), maybeContext)); if (!ObjOrErr) { *ErrorMessage = strdup(toString(ObjOrErr.takeError()).c_str()); return nullptr; } return wrap(ObjOrErr.get().release()); } LLVMMemoryBufferRef LLVMBinaryCopyMemoryBuffer(LLVMBinaryRef BR) { auto Buf = unwrap(BR)->getMemoryBufferRef(); return wrap(llvm::MemoryBuffer::getMemBuffer( Buf.getBuffer(), Buf.getBufferIdentifier(), /*RequiresNullTerminator*/false).release()); } void LLVMDisposeBinary(LLVMBinaryRef BR) { delete unwrap(BR); } LLVMBinaryType LLVMBinaryGetType(LLVMBinaryRef BR) { class BinaryTypeMapper final : public Binary { public: static LLVMBinaryType mapBinaryTypeToLLVMBinaryType(unsigned Kind) { switch (Kind) { case ID_Archive: return LLVMBinaryTypeArchive; case ID_MachOUniversalBinary: return LLVMBinaryTypeMachOUniversalBinary; case ID_COFFImportFile: return LLVMBinaryTypeCOFFImportFile; case ID_IR: return LLVMBinaryTypeIR; case ID_WinRes: return LLVMBinaryTypeWinRes; case ID_COFF: return LLVMBinaryTypeCOFF; case ID_ELF32L: return LLVMBinaryTypeELF32L; case ID_ELF32B: return LLVMBinaryTypeELF32B; case ID_ELF64L: return LLVMBinaryTypeELF64L; case ID_ELF64B: return LLVMBinaryTypeELF64B; case ID_MachO32L: return LLVMBinaryTypeMachO32L; case ID_MachO32B: return LLVMBinaryTypeMachO32B; case ID_MachO64L: return LLVMBinaryTypeMachO64L; case ID_MachO64B: return LLVMBinaryTypeMachO64B; case ID_Offload: return LLVMBinaryTypeOffload; case ID_Wasm: return LLVMBinaryTypeWasm; case ID_StartObjects: case ID_EndObjects: llvm_unreachable("Marker types are not valid binary kinds!"); default: llvm_unreachable("Unknown binary kind!"); } } }; return BinaryTypeMapper::mapBinaryTypeToLLVMBinaryType(unwrap(BR)->getType()); } LLVMBinaryRef LLVMMachOUniversalBinaryCopyObjectForArch(LLVMBinaryRef BR, const char *Arch, size_t ArchLen, char **ErrorMessage) { auto universal = cast(unwrap(BR)); Expected> ObjOrErr( universal->getMachOObjectForArch({Arch, ArchLen})); if (!ObjOrErr) { *ErrorMessage = strdup(toString(ObjOrErr.takeError()).c_str()); return nullptr; } return wrap(ObjOrErr.get().release()); } LLVMSectionIteratorRef LLVMObjectFileCopySectionIterator(LLVMBinaryRef BR) { auto OF = cast(unwrap(BR)); auto sections = OF->sections(); if (sections.begin() == sections.end()) return nullptr; return wrap(new section_iterator(sections.begin())); } LLVMBool LLVMObjectFileIsSectionIteratorAtEnd(LLVMBinaryRef BR, LLVMSectionIteratorRef SI) { auto OF = cast(unwrap(BR)); return (*unwrap(SI) == OF->section_end()) ? 1 : 0; } LLVMSymbolIteratorRef LLVMObjectFileCopySymbolIterator(LLVMBinaryRef BR) { auto OF = cast(unwrap(BR)); auto symbols = OF->symbols(); if (symbols.begin() == symbols.end()) return nullptr; return wrap(new symbol_iterator(symbols.begin())); } LLVMBool LLVMObjectFileIsSymbolIteratorAtEnd(LLVMBinaryRef BR, LLVMSymbolIteratorRef SI) { auto OF = cast(unwrap(BR)); return (*unwrap(SI) == OF->symbol_end()) ? 1 : 0; } // ObjectFile creation LLVMObjectFileRef LLVMCreateObjectFile(LLVMMemoryBufferRef MemBuf) { std::unique_ptr Buf(unwrap(MemBuf)); Expected> ObjOrErr( ObjectFile::createObjectFile(Buf->getMemBufferRef())); std::unique_ptr Obj; if (!ObjOrErr) { // TODO: Actually report errors helpfully. consumeError(ObjOrErr.takeError()); return nullptr; } auto *Ret = new OwningBinary(std::move(ObjOrErr.get()), std::move(Buf)); return wrap(Ret); } void LLVMDisposeObjectFile(LLVMObjectFileRef ObjectFile) { delete unwrap(ObjectFile); } // ObjectFile Section iterators LLVMSectionIteratorRef LLVMGetSections(LLVMObjectFileRef OF) { OwningBinary *OB = unwrap(OF); section_iterator SI = OB->getBinary()->section_begin(); return wrap(new section_iterator(SI)); } void LLVMDisposeSectionIterator(LLVMSectionIteratorRef SI) { delete unwrap(SI); } LLVMBool LLVMIsSectionIteratorAtEnd(LLVMObjectFileRef OF, LLVMSectionIteratorRef SI) { OwningBinary *OB = unwrap(OF); return (*unwrap(SI) == OB->getBinary()->section_end()) ? 1 : 0; } void LLVMMoveToNextSection(LLVMSectionIteratorRef SI) { ++(*unwrap(SI)); } void LLVMMoveToContainingSection(LLVMSectionIteratorRef Sect, LLVMSymbolIteratorRef Sym) { Expected SecOrErr = (*unwrap(Sym))->getSection(); if (!SecOrErr) { std::string Buf; raw_string_ostream OS(Buf); logAllUnhandledErrors(SecOrErr.takeError(), OS); report_fatal_error(Twine(OS.str())); } *unwrap(Sect) = *SecOrErr; } // ObjectFile Symbol iterators LLVMSymbolIteratorRef LLVMGetSymbols(LLVMObjectFileRef OF) { OwningBinary *OB = unwrap(OF); symbol_iterator SI = OB->getBinary()->symbol_begin(); return wrap(new symbol_iterator(SI)); } void LLVMDisposeSymbolIterator(LLVMSymbolIteratorRef SI) { delete unwrap(SI); } LLVMBool LLVMIsSymbolIteratorAtEnd(LLVMObjectFileRef OF, LLVMSymbolIteratorRef SI) { OwningBinary *OB = unwrap(OF); return (*unwrap(SI) == OB->getBinary()->symbol_end()) ? 1 : 0; } void LLVMMoveToNextSymbol(LLVMSymbolIteratorRef SI) { ++(*unwrap(SI)); } // SectionRef accessors const char *LLVMGetSectionName(LLVMSectionIteratorRef SI) { auto NameOrErr = (*unwrap(SI))->getName(); if (!NameOrErr) report_fatal_error(NameOrErr.takeError()); return NameOrErr->data(); } uint64_t LLVMGetSectionSize(LLVMSectionIteratorRef SI) { return (*unwrap(SI))->getSize(); } const char *LLVMGetSectionContents(LLVMSectionIteratorRef SI) { if (Expected E = (*unwrap(SI))->getContents()) return E->data(); else report_fatal_error(E.takeError()); } uint64_t LLVMGetSectionAddress(LLVMSectionIteratorRef SI) { return (*unwrap(SI))->getAddress(); } LLVMBool LLVMGetSectionContainsSymbol(LLVMSectionIteratorRef SI, LLVMSymbolIteratorRef Sym) { return (*unwrap(SI))->containsSymbol(**unwrap(Sym)); } // Section Relocation iterators LLVMRelocationIteratorRef LLVMGetRelocations(LLVMSectionIteratorRef Section) { relocation_iterator SI = (*unwrap(Section))->relocation_begin(); return wrap(new relocation_iterator(SI)); } void LLVMDisposeRelocationIterator(LLVMRelocationIteratorRef SI) { delete unwrap(SI); } LLVMBool LLVMIsRelocationIteratorAtEnd(LLVMSectionIteratorRef Section, LLVMRelocationIteratorRef SI) { return (*unwrap(SI) == (*unwrap(Section))->relocation_end()) ? 1 : 0; } void LLVMMoveToNextRelocation(LLVMRelocationIteratorRef SI) { ++(*unwrap(SI)); } // SymbolRef accessors const char *LLVMGetSymbolName(LLVMSymbolIteratorRef SI) { Expected Ret = (*unwrap(SI))->getName(); if (!Ret) { std::string Buf; raw_string_ostream OS(Buf); logAllUnhandledErrors(Ret.takeError(), OS); report_fatal_error(Twine(OS.str())); } return Ret->data(); } uint64_t LLVMGetSymbolAddress(LLVMSymbolIteratorRef SI) { Expected Ret = (*unwrap(SI))->getAddress(); if (!Ret) { std::string Buf; raw_string_ostream OS(Buf); logAllUnhandledErrors(Ret.takeError(), OS); report_fatal_error(Twine(OS.str())); } return *Ret; } uint64_t LLVMGetSymbolSize(LLVMSymbolIteratorRef SI) { return (*unwrap(SI))->getCommonSize(); } // RelocationRef accessors uint64_t LLVMGetRelocationOffset(LLVMRelocationIteratorRef RI) { return (*unwrap(RI))->getOffset(); } LLVMSymbolIteratorRef LLVMGetRelocationSymbol(LLVMRelocationIteratorRef RI) { symbol_iterator ret = (*unwrap(RI))->getSymbol(); return wrap(new symbol_iterator(ret)); } uint64_t LLVMGetRelocationType(LLVMRelocationIteratorRef RI) { return (*unwrap(RI))->getType(); } // NOTE: Caller takes ownership of returned string. const char *LLVMGetRelocationTypeName(LLVMRelocationIteratorRef RI) { SmallVector ret; (*unwrap(RI))->getTypeName(ret); char *str = static_cast(safe_malloc(ret.size())); llvm::copy(ret, str); return str; } // NOTE: Caller takes ownership of returned string. const char *LLVMGetRelocationValueString(LLVMRelocationIteratorRef RI) { return strdup(""); }