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#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===- DIContext.h ----------------------------------------------*- 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 DIContext, an abstract data structure that holds
// debug information data.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_DEBUGINFO_DICONTEXT_H
#define LLVM_DEBUGINFO_DICONTEXT_H
#include "llvm/ADT/SmallVector.h"
#include "llvm/Object/ObjectFile.h"
#include "llvm/Support/WithColor.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <cstdint>
#include <memory>
#include <string>
#include <tuple>
#include <utility>
namespace llvm {
/// A format-neutral container for source line information.
struct DILineInfo {
// DILineInfo contains "<invalid>" for function/filename it cannot fetch.
static constexpr const char *const BadString = "<invalid>";
// Use "??" instead of "<invalid>" to make our output closer to addr2line.
static constexpr const char *const Addr2LineBadString = "??";
std::string FileName;
std::string FunctionName;
std::string StartFileName;
Optional<StringRef> Source;
uint32_t Line = 0;
uint32_t Column = 0;
uint32_t StartLine = 0;
Optional<uint64_t> StartAddress;
// DWARF-specific.
uint32_t Discriminator = 0;
DILineInfo()
: FileName(BadString), FunctionName(BadString), StartFileName(BadString) {
}
bool operator==(const DILineInfo &RHS) const {
return Line == RHS.Line && Column == RHS.Column &&
FileName == RHS.FileName && FunctionName == RHS.FunctionName &&
StartFileName == RHS.StartFileName && StartLine == RHS.StartLine &&
Discriminator == RHS.Discriminator;
}
bool operator!=(const DILineInfo &RHS) const { return !(*this == RHS); }
bool operator<(const DILineInfo &RHS) const {
return std::tie(FileName, FunctionName, StartFileName, Line, Column,
StartLine, Discriminator) <
std::tie(RHS.FileName, RHS.FunctionName, RHS.StartFileName, RHS.Line,
RHS.Column, RHS.StartLine, RHS.Discriminator);
}
explicit operator bool() const { return *this != DILineInfo(); }
void dump(raw_ostream &OS) {
OS << "Line info: ";
if (FileName != BadString)
OS << "file '" << FileName << "', ";
if (FunctionName != BadString)
OS << "function '" << FunctionName << "', ";
OS << "line " << Line << ", ";
OS << "column " << Column << ", ";
if (StartFileName != BadString)
OS << "start file '" << StartFileName << "', ";
OS << "start line " << StartLine << '\n';
}
};
using DILineInfoTable = SmallVector<std::pair<uint64_t, DILineInfo>, 16>;
/// A format-neutral container for inlined code description.
class DIInliningInfo {
SmallVector<DILineInfo, 4> Frames;
public:
DIInliningInfo() = default;
const DILineInfo &getFrame(unsigned Index) const {
assert(Index < Frames.size());
return Frames[Index];
}
DILineInfo *getMutableFrame(unsigned Index) {
assert(Index < Frames.size());
return &Frames[Index];
}
uint32_t getNumberOfFrames() const { return Frames.size(); }
void addFrame(const DILineInfo &Frame) { Frames.push_back(Frame); }
void resize(unsigned i) { Frames.resize(i); }
};
/// Container for description of a global variable.
struct DIGlobal {
std::string Name;
uint64_t Start = 0;
uint64_t Size = 0;
DIGlobal() : Name(DILineInfo::BadString) {}
};
struct DILocal {
std::string FunctionName;
std::string Name;
std::string DeclFile;
uint64_t DeclLine = 0;
Optional<int64_t> FrameOffset;
Optional<uint64_t> Size;
Optional<uint64_t> TagOffset;
};
/// A DINameKind is passed to name search methods to specify a
/// preference regarding the type of name resolution the caller wants.
enum class DINameKind { None, ShortName, LinkageName };
/// Controls which fields of DILineInfo container should be filled
/// with data.
struct DILineInfoSpecifier {
enum class FileLineInfoKind {
None,
// RawValue is whatever the compiler stored in the filename table. Could be
// a full path, could be something else.
RawValue,
BaseNameOnly,
// Relative to the compilation directory.
RelativeFilePath,
AbsoluteFilePath
};
using FunctionNameKind = DINameKind;
FileLineInfoKind FLIKind;
FunctionNameKind FNKind;
DILineInfoSpecifier(FileLineInfoKind FLIKind = FileLineInfoKind::RawValue,
FunctionNameKind FNKind = FunctionNameKind::None)
: FLIKind(FLIKind), FNKind(FNKind) {}
};
/// This is just a helper to programmatically construct DIDumpType.
enum DIDumpTypeCounter {
#define HANDLE_DWARF_SECTION(ENUM_NAME, ELF_NAME, CMDLINE_NAME, OPTION) \
DIDT_ID_##ENUM_NAME,
#include "llvm/BinaryFormat/Dwarf.def"
#undef HANDLE_DWARF_SECTION
DIDT_ID_UUID,
DIDT_ID_Count
};
static_assert(DIDT_ID_Count <= 32, "section types overflow storage");
/// Selects which debug sections get dumped.
enum DIDumpType : unsigned {
DIDT_Null,
DIDT_All = ~0U,
#define HANDLE_DWARF_SECTION(ENUM_NAME, ELF_NAME, CMDLINE_NAME, OPTION) \
DIDT_##ENUM_NAME = 1U << DIDT_ID_##ENUM_NAME,
#include "llvm/BinaryFormat/Dwarf.def"
#undef HANDLE_DWARF_SECTION
DIDT_UUID = 1 << DIDT_ID_UUID,
};
/// Container for dump options that control which debug information will be
/// dumped.
struct DIDumpOptions {
unsigned DumpType = DIDT_All;
unsigned ChildRecurseDepth = -1U;
unsigned ParentRecurseDepth = -1U;
uint16_t Version = 0; // DWARF version to assume when extracting.
uint8_t AddrSize = 4; // Address byte size to assume when extracting.
bool ShowAddresses = true;
bool ShowChildren = false;
bool ShowParents = false;
bool ShowForm = false;
bool SummarizeTypes = false;
bool Verbose = false;
bool DisplayRawContents = false;
/// Return default option set for printing a single DIE without children.
static DIDumpOptions getForSingleDIE() {
DIDumpOptions Opts;
Opts.ChildRecurseDepth = 0;
Opts.ParentRecurseDepth = 0;
return Opts;
}
/// Return the options with RecurseDepth set to 0 unless explicitly required.
DIDumpOptions noImplicitRecursion() const {
DIDumpOptions Opts = *this;
if (ChildRecurseDepth == -1U && !ShowChildren)
Opts.ChildRecurseDepth = 0;
if (ParentRecurseDepth == -1U && !ShowParents)
Opts.ParentRecurseDepth = 0;
return Opts;
}
std::function<void(Error)> RecoverableErrorHandler =
WithColor::defaultErrorHandler;
std::function<void(Error)> WarningHandler = WithColor::defaultWarningHandler;
};
class DIContext {
public:
enum DIContextKind { CK_DWARF, CK_PDB };
DIContext(DIContextKind K) : Kind(K) {}
virtual ~DIContext() = default;
DIContextKind getKind() const { return Kind; }
virtual void dump(raw_ostream &OS, DIDumpOptions DumpOpts) = 0;
virtual bool verify(raw_ostream &OS, DIDumpOptions DumpOpts = {}) {
// No verifier? Just say things went well.
return true;
}
virtual DILineInfo getLineInfoForAddress(
object::SectionedAddress Address,
DILineInfoSpecifier Specifier = DILineInfoSpecifier()) = 0;
virtual DILineInfoTable getLineInfoForAddressRange(
object::SectionedAddress Address, uint64_t Size,
DILineInfoSpecifier Specifier = DILineInfoSpecifier()) = 0;
virtual DIInliningInfo getInliningInfoForAddress(
object::SectionedAddress Address,
DILineInfoSpecifier Specifier = DILineInfoSpecifier()) = 0;
virtual std::vector<DILocal>
getLocalsForAddress(object::SectionedAddress Address) = 0;
private:
const DIContextKind Kind;
};
/// An inferface for inquiring the load address of a loaded object file
/// to be used by the DIContext implementations when applying relocations
/// on the fly.
class LoadedObjectInfo {
protected:
LoadedObjectInfo() = default;
LoadedObjectInfo(const LoadedObjectInfo &) = default;
public:
virtual ~LoadedObjectInfo() = default;
/// Obtain the Load Address of a section by SectionRef.
///
/// Calculate the address of the given section.
/// The section need not be present in the local address space. The addresses
/// need to be consistent with the addresses used to query the DIContext and
/// the output of this function should be deterministic, i.e. repeated calls
/// with the same Sec should give the same address.
virtual uint64_t getSectionLoadAddress(const object::SectionRef &Sec) const {
return 0;
}
/// If conveniently available, return the content of the given Section.
///
/// When the section is available in the local address space, in relocated
/// (loaded) form, e.g. because it was relocated by a JIT for execution, this
/// function should provide the contents of said section in `Data`. If the
/// loaded section is not available, or the cost of retrieving it would be
/// prohibitive, this function should return false. In that case, relocations
/// will be read from the local (unrelocated) object file and applied on the
/// fly. Note that this method is used purely for optimzation purposes in the
/// common case of JITting in the local address space, so returning false
/// should always be correct.
virtual bool getLoadedSectionContents(const object::SectionRef &Sec,
StringRef &Data) const {
return false;
}
// FIXME: This is untested and unused anywhere in the LLVM project, it's
// used/needed by Julia (an external project). It should have some coverage
// (at least tests, but ideally example functionality).
/// Obtain a copy of this LoadedObjectInfo.
virtual std::unique_ptr<LoadedObjectInfo> clone() const = 0;
};
template <typename Derived, typename Base = LoadedObjectInfo>
struct LoadedObjectInfoHelper : Base {
protected:
LoadedObjectInfoHelper(const LoadedObjectInfoHelper &) = default;
LoadedObjectInfoHelper() = default;
public:
template <typename... Ts>
LoadedObjectInfoHelper(Ts &&...Args) : Base(std::forward<Ts>(Args)...) {}
std::unique_ptr<llvm::LoadedObjectInfo> clone() const override {
return std::make_unique<Derived>(static_cast<const Derived &>(*this));
}
};
} // end namespace llvm
#endif // LLVM_DEBUGINFO_DICONTEXT_H
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
|