//===-- DWARFExpression.cpp -----------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/DebugInfo/DWARF/DWARFExpression.h" #include "llvm/BinaryFormat/Dwarf.h" #include "llvm/DebugInfo/DWARF/DWARFCompileUnit.h" #include "llvm/DebugInfo/DWARF/DWARFContext.h" #include "llvm/MC/MCRegisterInfo.h" #include "llvm/Support/Format.h" #include #include #include using namespace llvm; using namespace dwarf; namespace llvm { typedef std::vector DescVector; static DescVector getDescriptions() { DescVector Descriptions; typedef DWARFExpression::Operation Op; typedef Op::Description Desc; Descriptions.resize(0xff); Descriptions[DW_OP_addr] = Desc(Op::Dwarf2, Op::SizeAddr); Descriptions[DW_OP_deref] = Desc(Op::Dwarf2); Descriptions[DW_OP_const1u] = Desc(Op::Dwarf2, Op::Size1); Descriptions[DW_OP_const1s] = Desc(Op::Dwarf2, Op::SignedSize1); Descriptions[DW_OP_const2u] = Desc(Op::Dwarf2, Op::Size2); Descriptions[DW_OP_const2s] = Desc(Op::Dwarf2, Op::SignedSize2); Descriptions[DW_OP_const4u] = Desc(Op::Dwarf2, Op::Size4); Descriptions[DW_OP_const4s] = Desc(Op::Dwarf2, Op::SignedSize4); Descriptions[DW_OP_const8u] = Desc(Op::Dwarf2, Op::Size8); Descriptions[DW_OP_const8s] = Desc(Op::Dwarf2, Op::SignedSize8); Descriptions[DW_OP_constu] = Desc(Op::Dwarf2, Op::SizeLEB); Descriptions[DW_OP_consts] = Desc(Op::Dwarf2, Op::SignedSizeLEB); Descriptions[DW_OP_dup] = Desc(Op::Dwarf2); Descriptions[DW_OP_drop] = Desc(Op::Dwarf2); Descriptions[DW_OP_over] = Desc(Op::Dwarf2); Descriptions[DW_OP_pick] = Desc(Op::Dwarf2, Op::Size1); Descriptions[DW_OP_swap] = Desc(Op::Dwarf2); Descriptions[DW_OP_rot] = Desc(Op::Dwarf2); Descriptions[DW_OP_xderef] = Desc(Op::Dwarf2); Descriptions[DW_OP_abs] = Desc(Op::Dwarf2); Descriptions[DW_OP_and] = Desc(Op::Dwarf2); Descriptions[DW_OP_div] = Desc(Op::Dwarf2); Descriptions[DW_OP_minus] = Desc(Op::Dwarf2); Descriptions[DW_OP_mod] = Desc(Op::Dwarf2); Descriptions[DW_OP_mul] = Desc(Op::Dwarf2); Descriptions[DW_OP_neg] = Desc(Op::Dwarf2); Descriptions[DW_OP_not] = Desc(Op::Dwarf2); Descriptions[DW_OP_or] = Desc(Op::Dwarf2); Descriptions[DW_OP_plus] = Desc(Op::Dwarf2); Descriptions[DW_OP_plus_uconst] = Desc(Op::Dwarf2, Op::SizeLEB); Descriptions[DW_OP_shl] = Desc(Op::Dwarf2); Descriptions[DW_OP_shr] = Desc(Op::Dwarf2); Descriptions[DW_OP_shra] = Desc(Op::Dwarf2); Descriptions[DW_OP_xor] = Desc(Op::Dwarf2); Descriptions[DW_OP_skip] = Desc(Op::Dwarf2, Op::SignedSize2); Descriptions[DW_OP_bra] = Desc(Op::Dwarf2, Op::SignedSize2); Descriptions[DW_OP_eq] = Desc(Op::Dwarf2); Descriptions[DW_OP_ge] = Desc(Op::Dwarf2); Descriptions[DW_OP_gt] = Desc(Op::Dwarf2); Descriptions[DW_OP_le] = Desc(Op::Dwarf2); Descriptions[DW_OP_lt] = Desc(Op::Dwarf2); Descriptions[DW_OP_ne] = Desc(Op::Dwarf2); for (uint16_t LA = DW_OP_lit0; LA <= DW_OP_lit31; ++LA) Descriptions[LA] = Desc(Op::Dwarf2); for (uint16_t LA = DW_OP_reg0; LA <= DW_OP_reg31; ++LA) Descriptions[LA] = Desc(Op::Dwarf2); for (uint16_t LA = DW_OP_breg0; LA <= DW_OP_breg31; ++LA) Descriptions[LA] = Desc(Op::Dwarf2, Op::SignedSizeLEB); Descriptions[DW_OP_regx] = Desc(Op::Dwarf2, Op::SizeLEB); Descriptions[DW_OP_fbreg] = Desc(Op::Dwarf2, Op::SignedSizeLEB); Descriptions[DW_OP_bregx] = Desc(Op::Dwarf2, Op::SizeLEB, Op::SignedSizeLEB); Descriptions[DW_OP_piece] = Desc(Op::Dwarf2, Op::SizeLEB); Descriptions[DW_OP_deref_size] = Desc(Op::Dwarf2, Op::Size1); Descriptions[DW_OP_xderef_size] = Desc(Op::Dwarf2, Op::Size1); Descriptions[DW_OP_nop] = Desc(Op::Dwarf2); Descriptions[DW_OP_push_object_address] = Desc(Op::Dwarf3); Descriptions[DW_OP_call2] = Desc(Op::Dwarf3, Op::Size2); Descriptions[DW_OP_call4] = Desc(Op::Dwarf3, Op::Size4); Descriptions[DW_OP_call_ref] = Desc(Op::Dwarf3, Op::SizeRefAddr); Descriptions[DW_OP_form_tls_address] = Desc(Op::Dwarf3); Descriptions[DW_OP_call_frame_cfa] = Desc(Op::Dwarf3); Descriptions[DW_OP_bit_piece] = Desc(Op::Dwarf3, Op::SizeLEB, Op::SizeLEB); Descriptions[DW_OP_implicit_value] = Desc(Op::Dwarf3, Op::SizeLEB, Op::SizeBlock); Descriptions[DW_OP_stack_value] = Desc(Op::Dwarf3); Descriptions[DW_OP_GNU_push_tls_address] = Desc(Op::Dwarf3); Descriptions[DW_OP_GNU_addr_index] = Desc(Op::Dwarf4, Op::SizeLEB); Descriptions[DW_OP_GNU_const_index] = Desc(Op::Dwarf4, Op::SizeLEB); return Descriptions; } static DWARFExpression::Operation::Description getOpDesc(unsigned OpCode) { // FIXME: Make this constexpr once all compilers are smart enough to do it. static DescVector Descriptions = getDescriptions(); // Handle possible corrupted or unsupported operation. if (OpCode >= Descriptions.size()) return {}; return Descriptions[OpCode]; } static uint8_t getRefAddrSize(uint8_t AddrSize, uint16_t Version) { return (Version == 2) ? AddrSize : 4; } bool DWARFExpression::Operation::extract(DataExtractor Data, uint16_t Version, uint8_t AddressSize, uint32_t Offset) { Opcode = Data.getU8(&Offset); Desc = getOpDesc(Opcode); if (Desc.Version == Operation::DwarfNA) { EndOffset = Offset; return false; } for (unsigned Operand = 0; Operand < 2; ++Operand) { unsigned Size = Desc.Op[Operand]; unsigned Signed = Size & Operation::SignBit; if (Size == Operation::SizeNA) break; switch (Size & ~Operation::SignBit) { case Operation::Size1: Operands[Operand] = Data.getU8(&Offset); if (Signed) Operands[Operand] = (int8_t)Operands[Operand]; break; case Operation::Size2: Operands[Operand] = Data.getU16(&Offset); if (Signed) Operands[Operand] = (int16_t)Operands[Operand]; break; case Operation::Size4: Operands[Operand] = Data.getU32(&Offset); if (Signed) Operands[Operand] = (int32_t)Operands[Operand]; break; case Operation::Size8: Operands[Operand] = Data.getU64(&Offset); break; case Operation::SizeAddr: if (AddressSize == 8) { Operands[Operand] = Data.getU64(&Offset); } else { assert(AddressSize == 4); Operands[Operand] = Data.getU32(&Offset); } break; case Operation::SizeRefAddr: if (getRefAddrSize(AddressSize, Version) == 8) { Operands[Operand] = Data.getU64(&Offset); } else { assert(getRefAddrSize(AddressSize, Version) == 4); Operands[Operand] = Data.getU32(&Offset); } break; case Operation::SizeLEB: if (Signed) Operands[Operand] = Data.getSLEB128(&Offset); else Operands[Operand] = Data.getULEB128(&Offset); break; case Operation::SizeBlock: // We need a size, so this cannot be the first operand if (Operand == 0) return false; // Store the offset of the block as the value. Operands[Operand] = Offset; Offset += Operands[Operand - 1]; break; default: llvm_unreachable("Unknown DWARFExpression Op size"); } } EndOffset = Offset; return true; } static bool prettyPrintRegisterOp(raw_ostream &OS, uint8_t Opcode, uint64_t Operands[2], const MCRegisterInfo *MRI, bool isEH) { if (!MRI) return false; uint64_t DwarfRegNum; unsigned OpNum = 0; if (Opcode == DW_OP_bregx || Opcode == DW_OP_regx) DwarfRegNum = Operands[OpNum++]; else if (Opcode >= DW_OP_breg0 && Opcode < DW_OP_bregx) DwarfRegNum = Opcode - DW_OP_breg0; else DwarfRegNum = Opcode - DW_OP_reg0; int LLVMRegNum = MRI->getLLVMRegNum(DwarfRegNum, isEH); if (LLVMRegNum >= 0) { if (const char *RegName = MRI->getName(LLVMRegNum)) { if ((Opcode >= DW_OP_breg0 && Opcode <= DW_OP_breg31) || Opcode == DW_OP_bregx) OS << format(" %s%+" PRId64, RegName, Operands[OpNum]); else OS << ' ' << RegName; return true; } } return false; } bool DWARFExpression::Operation::print(raw_ostream &OS, const DWARFExpression *Expr, const MCRegisterInfo *RegInfo, bool isEH) { if (Error) { OS << ""; return false; } StringRef Name = OperationEncodingString(Opcode); assert(!Name.empty() && "DW_OP has no name!"); OS << Name; if ((Opcode >= DW_OP_breg0 && Opcode <= DW_OP_breg31) || (Opcode >= DW_OP_reg0 && Opcode <= DW_OP_reg31) || Opcode == DW_OP_bregx || Opcode == DW_OP_regx) if (prettyPrintRegisterOp(OS, Opcode, Operands, RegInfo, isEH)) return true; for (unsigned Operand = 0; Operand < 2; ++Operand) { unsigned Size = Desc.Op[Operand]; unsigned Signed = Size & Operation::SignBit; if (Size == Operation::SizeNA) break; if (Size == Operation::SizeBlock) { uint32_t Offset = Operands[Operand]; for (unsigned i = 0; i < Operands[Operand - 1]; ++i) OS << format(" 0x%02x", Expr->Data.getU8(&Offset)); } else { if (Signed) OS << format(" %+" PRId64, (int64_t)Operands[Operand]); else OS << format(" 0x%" PRIx64, Operands[Operand]); } } return true; } void DWARFExpression::print(raw_ostream &OS, const MCRegisterInfo *RegInfo) { for (auto &Op : *this) { if (!Op.print(OS, this, RegInfo, /* isEH */ false)) { uint32_t FailOffset = Op.getEndOffset(); while (FailOffset < Data.getData().size()) OS << format(" %02x", Data.getU8(&FailOffset)); return; } if (Op.getEndOffset() < Data.getData().size()) OS << ", "; } } } // namespace llvm