//===- llvm/CodeGen/DwarfExpression.h - Dwarf Compile Unit ------*- 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 contains support for writing dwarf compile unit. // //===----------------------------------------------------------------------===// #ifndef LLVM_LIB_CODEGEN_ASMPRINTER_DWARFEXPRESSION_H #define LLVM_LIB_CODEGEN_ASMPRINTER_DWARFEXPRESSION_H #include "ByteStreamer.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/None.h" #include "llvm/ADT/Optional.h" #include "llvm/ADT/SmallVector.h" #include "llvm/IR/DebugInfoMetadata.h" #include #include #include namespace llvm { class AsmPrinter; class APInt; class DwarfCompileUnit; class DIELoc; class TargetRegisterInfo; class MachineLocation; /// Holds a DIExpression and keeps track of how many operands have been consumed /// so far. class DIExpressionCursor { DIExpression::expr_op_iterator Start, End; public: DIExpressionCursor(const DIExpression *Expr) { if (!Expr) { assert(Start == End); return; } Start = Expr->expr_op_begin(); End = Expr->expr_op_end(); } DIExpressionCursor(ArrayRef Expr) : Start(Expr.begin()), End(Expr.end()) {} DIExpressionCursor(const DIExpressionCursor &) = default; /// Consume one operation. Optional take() { if (Start == End) return None; return *(Start++); } /// Consume N operations. void consume(unsigned N) { std::advance(Start, N); } /// Return the current operation. Optional peek() const { if (Start == End) return None; return *(Start); } /// Return the next operation. Optional peekNext() const { if (Start == End) return None; auto Next = Start.getNext(); if (Next == End) return None; return *Next; } /// Determine whether there are any operations left in this expression. operator bool() const { return Start != End; } DIExpression::expr_op_iterator begin() const { return Start; } DIExpression::expr_op_iterator end() const { return End; } /// Retrieve the fragment information, if any. Optional getFragmentInfo() const { return DIExpression::getFragmentInfo(Start, End); } }; /// Base class containing the logic for constructing DWARF expressions /// independently of whether they are emitted into a DIE or into a .debug_loc /// entry. /// /// Some DWARF operations, e.g. DW_OP_entry_value, need to calculate the size /// of a succeeding DWARF block before the latter is emitted to the output. /// To handle such cases, data can conditionally be emitted to a temporary /// buffer, which can later on be committed to the main output. The size of the /// temporary buffer is queryable, allowing for the size of the data to be /// emitted before the data is committed. class DwarfExpression { protected: /// Holds information about all subregisters comprising a register location. struct Register { int DwarfRegNo; unsigned SubRegSize; const char *Comment; /// Create a full register, no extra DW_OP_piece operators necessary. static Register createRegister(int RegNo, const char *Comment) { return {RegNo, 0, Comment}; } /// Create a subregister that needs a DW_OP_piece operator with SizeInBits. static Register createSubRegister(int RegNo, unsigned SizeInBits, const char *Comment) { return {RegNo, SizeInBits, Comment}; } bool isSubRegister() const { return SubRegSize; } }; /// Whether we are currently emitting an entry value operation. bool IsEmittingEntryValue = false; DwarfCompileUnit &CU; /// The register location, if any. SmallVector DwarfRegs; /// Current Fragment Offset in Bits. uint64_t OffsetInBits = 0; /// Sometimes we need to add a DW_OP_bit_piece to describe a subregister. unsigned SubRegisterSizeInBits : 16; unsigned SubRegisterOffsetInBits : 16; /// The kind of location description being produced. enum { Unknown = 0, Register, Memory, Implicit }; /// Additional location flags which may be combined with any location kind. /// Currently, entry values are not supported for the Memory location kind. enum { EntryValue = 1 << 0, Indirect = 1 << 1, CallSiteParamValue = 1 << 2 }; unsigned LocationKind : 3; unsigned LocationFlags : 3; unsigned DwarfVersion : 4; public: /// Set the location (\p Loc) and \ref DIExpression (\p DIExpr) to describe. void setLocation(const MachineLocation &Loc, const DIExpression *DIExpr); bool isUnknownLocation() const { return LocationKind == Unknown; } bool isMemoryLocation() const { return LocationKind == Memory; } bool isRegisterLocation() const { return LocationKind == Register; } bool isImplicitLocation() const { return LocationKind == Implicit; } bool isEntryValue() const { return LocationFlags & EntryValue; } bool isIndirect() const { return LocationFlags & Indirect; } bool isParameterValue() { return LocationFlags & CallSiteParamValue; } Optional TagOffset; protected: /// Push a DW_OP_piece / DW_OP_bit_piece for emitting later, if one is needed /// to represent a subregister. void setSubRegisterPiece(unsigned SizeInBits, unsigned OffsetInBits) { assert(SizeInBits < 65536 && OffsetInBits < 65536); SubRegisterSizeInBits = SizeInBits; SubRegisterOffsetInBits = OffsetInBits; } /// Add masking operations to stencil out a subregister. void maskSubRegister(); /// Output a dwarf operand and an optional assembler comment. virtual void emitOp(uint8_t Op, const char *Comment = nullptr) = 0; /// Emit a raw signed value. virtual void emitSigned(int64_t Value) = 0; /// Emit a raw unsigned value. virtual void emitUnsigned(uint64_t Value) = 0; virtual void emitData1(uint8_t Value) = 0; virtual void emitBaseTypeRef(uint64_t Idx) = 0; /// Start emitting data to the temporary buffer. The data stored in the /// temporary buffer can be committed to the main output using /// commitTemporaryBuffer(). virtual void enableTemporaryBuffer() = 0; /// Disable emission to the temporary buffer. This does not commit data /// in the temporary buffer to the main output. virtual void disableTemporaryBuffer() = 0; /// Return the emitted size, in number of bytes, for the data stored in the /// temporary buffer. virtual unsigned getTemporaryBufferSize() = 0; /// Commit the data stored in the temporary buffer to the main output. virtual void commitTemporaryBuffer() = 0; /// Emit a normalized unsigned constant. void emitConstu(uint64_t Value); /// Return whether the given machine register is the frame register in the /// current function. virtual bool isFrameRegister(const TargetRegisterInfo &TRI, llvm::Register MachineReg) = 0; /// Emit a DW_OP_reg operation. Note that this is only legal inside a DWARF /// register location description. void addReg(int DwarfReg, const char *Comment = nullptr); /// Emit a DW_OP_breg operation. void addBReg(int DwarfReg, int Offset); /// Emit DW_OP_fbreg . void addFBReg(int Offset); /// Emit a partial DWARF register operation. /// /// \param MachineReg The register number. /// \param MaxSize If the register must be composed from /// sub-registers this is an upper bound /// for how many bits the emitted DW_OP_piece /// may cover. /// /// If size and offset is zero an operation for the entire register is /// emitted: Some targets do not provide a DWARF register number for every /// register. If this is the case, this function will attempt to emit a DWARF /// register by emitting a fragment of a super-register or by piecing together /// multiple subregisters that alias the register. /// /// \return false if no DWARF register exists for MachineReg. bool addMachineReg(const TargetRegisterInfo &TRI, llvm::Register MachineReg, unsigned MaxSize = ~1U); /// Emit a DW_OP_piece or DW_OP_bit_piece operation for a variable fragment. /// \param OffsetInBits This is an optional offset into the location that /// is at the top of the DWARF stack. void addOpPiece(unsigned SizeInBits, unsigned OffsetInBits = 0); /// Emit a shift-right dwarf operation. void addShr(unsigned ShiftBy); /// Emit a bitwise and dwarf operation. void addAnd(unsigned Mask); /// Emit a DW_OP_stack_value, if supported. /// /// The proper way to describe a constant value is DW_OP_constu , /// DW_OP_stack_value. Unfortunately, DW_OP_stack_value was not available /// until DWARF 4, so we will continue to generate DW_OP_constu for /// DWARF 2 and DWARF 3. Technically, this is incorrect since DW_OP_const /// actually describes a value at a constant address, not a constant /// value. However, in the past there was no better way to describe a /// constant value, so the producers and consumers started to rely on /// heuristics to disambiguate the value vs. location status of the /// expression. See PR21176 for more details. void addStackValue(); /// Finalize an entry value by emitting its size operand, and committing the /// DWARF block which has been emitted to the temporary buffer. void finalizeEntryValue(); /// Cancel the emission of an entry value. void cancelEntryValue(); ~DwarfExpression() = default; public: DwarfExpression(unsigned DwarfVersion, DwarfCompileUnit &CU) : CU(CU), SubRegisterSizeInBits(0), SubRegisterOffsetInBits(0), LocationKind(Unknown), LocationFlags(Unknown), DwarfVersion(DwarfVersion) {} /// This needs to be called last to commit any pending changes. void finalize(); /// Emit a signed constant. void addSignedConstant(int64_t Value); /// Emit an unsigned constant. void addUnsignedConstant(uint64_t Value); /// Emit an unsigned constant. void addUnsignedConstant(const APInt &Value); /// Emit an floating point constant. void addConstantFP(const APFloat &Value, const AsmPrinter &AP); /// Lock this down to become a memory location description. void setMemoryLocationKind() { assert(isUnknownLocation()); LocationKind = Memory; } /// Lock this down to become an entry value location. void setEntryValueFlags(const MachineLocation &Loc); /// Lock this down to become a call site parameter location. void setCallSiteParamValueFlag() { LocationFlags |= CallSiteParamValue; } /// Emit a machine register location. As an optimization this may also consume /// the prefix of a DwarfExpression if a more efficient representation for /// combining the register location and the first operation exists. /// /// \param FragmentOffsetInBits If this is one fragment out of a /// fragmented /// location, this is the offset of the /// fragment inside the entire variable. /// \return false if no DWARF register exists /// for MachineReg. bool addMachineRegExpression(const TargetRegisterInfo &TRI, DIExpressionCursor &Expr, llvm::Register MachineReg, unsigned FragmentOffsetInBits = 0); /// Begin emission of an entry value dwarf operation. The entry value's /// first operand is the size of the DWARF block (its second operand), /// which needs to be calculated at time of emission, so we don't emit /// any operands here. void beginEntryValueExpression(DIExpressionCursor &ExprCursor); /// Return the index of a base type with the given properties and /// create one if necessary. unsigned getOrCreateBaseType(unsigned BitSize, dwarf::TypeKind Encoding); /// Emit all remaining operations in the DIExpressionCursor. /// /// \param FragmentOffsetInBits If this is one fragment out of multiple /// locations, this is the offset of the /// fragment inside the entire variable. void addExpression(DIExpressionCursor &&Expr, unsigned FragmentOffsetInBits = 0); /// If applicable, emit an empty DW_OP_piece / DW_OP_bit_piece to advance to /// the fragment described by \c Expr. void addFragmentOffset(const DIExpression *Expr); void emitLegacySExt(unsigned FromBits); void emitLegacyZExt(unsigned FromBits); /// Emit location information expressed via WebAssembly location + offset /// The Index is an identifier for locals, globals or operand stack. void addWasmLocation(unsigned Index, uint64_t Offset); }; /// DwarfExpression implementation for .debug_loc entries. class DebugLocDwarfExpression final : public DwarfExpression { struct TempBuffer { SmallString<32> Bytes; std::vector Comments; BufferByteStreamer BS; TempBuffer(bool GenerateComments) : BS(Bytes, Comments, GenerateComments) {} }; std::unique_ptr TmpBuf; BufferByteStreamer &OutBS; bool IsBuffering = false; /// Return the byte streamer that currently is being emitted to. ByteStreamer &getActiveStreamer() { return IsBuffering ? TmpBuf->BS : OutBS; } void emitOp(uint8_t Op, const char *Comment = nullptr) override; void emitSigned(int64_t Value) override; void emitUnsigned(uint64_t Value) override; void emitData1(uint8_t Value) override; void emitBaseTypeRef(uint64_t Idx) override; void enableTemporaryBuffer() override; void disableTemporaryBuffer() override; unsigned getTemporaryBufferSize() override; void commitTemporaryBuffer() override; bool isFrameRegister(const TargetRegisterInfo &TRI, llvm::Register MachineReg) override; public: DebugLocDwarfExpression(unsigned DwarfVersion, BufferByteStreamer &BS, DwarfCompileUnit &CU) : DwarfExpression(DwarfVersion, CU), OutBS(BS) {} }; /// DwarfExpression implementation for singular DW_AT_location. class DIEDwarfExpression final : public DwarfExpression { const AsmPrinter &AP; DIELoc &OutDIE; DIELoc TmpDIE; bool IsBuffering = false; /// Return the DIE that currently is being emitted to. DIELoc &getActiveDIE() { return IsBuffering ? TmpDIE : OutDIE; } void emitOp(uint8_t Op, const char *Comment = nullptr) override; void emitSigned(int64_t Value) override; void emitUnsigned(uint64_t Value) override; void emitData1(uint8_t Value) override; void emitBaseTypeRef(uint64_t Idx) override; void enableTemporaryBuffer() override; void disableTemporaryBuffer() override; unsigned getTemporaryBufferSize() override; void commitTemporaryBuffer() override; bool isFrameRegister(const TargetRegisterInfo &TRI, llvm::Register MachineReg) override; public: DIEDwarfExpression(const AsmPrinter &AP, DwarfCompileUnit &CU, DIELoc &DIE); DIELoc *finalize() { DwarfExpression::finalize(); return &OutDIE; } }; } // end namespace llvm #endif // LLVM_LIB_CODEGEN_ASMPRINTER_DWARFEXPRESSION_H