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llvm-mirror/tools/dsymutil/DwarfLinker.h
Adrian Prantl 120d9370f9 [dsymutil] Collect parseable Swift interfaces in the .dSYM bundle.
When a Swift module built with debug info imports a library without
debug info from a textual interface, the textual interface is
necessary to reconstruct types defined in the library's interface. By
recording the Swift interface files in DWARF dsymutil can collect them
and LLDB can find them.

This patch teaches dsymutil to look for DW_TAG_imported_modules and
records all references to parseable Swift ingterfrace files and copies
them to

  a.out.dSYM/Contents/Resources/<Arch>/<ModuleName>.swiftinterface

<rdar://problem/49751748>

llvm-svn: 358921
2019-04-22 21:33:22 +00:00

511 lines
20 KiB
C++

//===- tools/dsymutil/DwarfLinker.h - Dwarf debug info linker ---*- 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
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_TOOLS_DSYMUTIL_DWARFLINKER_H
#define LLVM_TOOLS_DSYMUTIL_DWARFLINKER_H
#include "BinaryHolder.h"
#include "CompileUnit.h"
#include "DebugMap.h"
#include "DeclContext.h"
#include "DwarfStreamer.h"
#include "LinkUtils.h"
#include "llvm/DebugInfo/DWARF/DWARFContext.h"
namespace llvm {
namespace dsymutil {
/// Partial address range for debug map objects. Besides an offset, only the
/// HighPC is stored. The structure is stored in a map where the LowPC is the
/// key.
struct DebugMapObjectRange {
/// Function HighPC.
uint64_t HighPC;
/// Offset to apply to the linked address.
int64_t Offset;
DebugMapObjectRange(uint64_t EndPC, int64_t Offset)
: HighPC(EndPC), Offset(Offset) {}
DebugMapObjectRange() : HighPC(0), Offset(0) {}
};
/// Map LowPC to DebugMapObjectRange.
using RangesTy = std::map<uint64_t, DebugMapObjectRange>;
using UnitListTy = std::vector<std::unique_ptr<CompileUnit>>;
/// The core of the Dwarf linking logic.
///
/// The link of the dwarf information from the object files will be
/// driven by the selection of 'root DIEs', which are DIEs that
/// describe variables or functions that are present in the linked
/// binary (and thus have entries in the debug map). All the debug
/// information that will be linked (the DIEs, but also the line
/// tables, ranges, ...) is derived from that set of root DIEs.
///
/// The root DIEs are identified because they contain relocations that
/// correspond to a debug map entry at specific places (the low_pc for
/// a function, the location for a variable). These relocations are
/// called ValidRelocs in the DwarfLinker and are gathered as a very
/// first step when we start processing a DebugMapObject.
class DwarfLinker {
public:
DwarfLinker(raw_fd_ostream &OutFile, BinaryHolder &BinHolder,
const LinkOptions &Options)
: OutFile(OutFile), BinHolder(BinHolder), Options(Options) {}
/// Link the contents of the DebugMap.
bool link(const DebugMap &);
void reportWarning(const Twine &Warning, const DebugMapObject &DMO,
const DWARFDie *DIE = nullptr) const;
private:
/// Remembers the oldest and newest DWARF version we've seen in a unit.
void updateDwarfVersion(unsigned Version) {
MaxDwarfVersion = std::max(MaxDwarfVersion, Version);
MinDwarfVersion = std::min(MinDwarfVersion, Version);
}
/// Remembers the kinds of accelerator tables we've seen in a unit.
void updateAccelKind(DWARFContext &Dwarf);
/// Emit warnings as Dwarf compile units to leave a trail after linking.
bool emitPaperTrailWarnings(const DebugMapObject &DMO, const DebugMap &Map,
OffsetsStringPool &StringPool);
/// Keeps track of relocations.
class RelocationManager {
struct ValidReloc {
uint32_t Offset;
uint32_t Size;
uint64_t Addend;
const DebugMapObject::DebugMapEntry *Mapping;
ValidReloc(uint32_t Offset, uint32_t Size, uint64_t Addend,
const DebugMapObject::DebugMapEntry *Mapping)
: Offset(Offset), Size(Size), Addend(Addend), Mapping(Mapping) {}
bool operator<(const ValidReloc &RHS) const {
return Offset < RHS.Offset;
}
};
const DwarfLinker &Linker;
/// The valid relocations for the current DebugMapObject.
/// This vector is sorted by relocation offset.
std::vector<ValidReloc> ValidRelocs;
/// Index into ValidRelocs of the next relocation to consider. As we walk
/// the DIEs in acsending file offset and as ValidRelocs is sorted by file
/// offset, keeping this index up to date is all we have to do to have a
/// cheap lookup during the root DIE selection and during DIE cloning.
unsigned NextValidReloc = 0;
public:
RelocationManager(DwarfLinker &Linker) : Linker(Linker) {}
bool hasValidRelocs() const { return !ValidRelocs.empty(); }
/// Reset the NextValidReloc counter.
void resetValidRelocs() { NextValidReloc = 0; }
/// \defgroup FindValidRelocations Translate debug map into a list
/// of relevant relocations
///
/// @{
bool findValidRelocsInDebugInfo(const object::ObjectFile &Obj,
const DebugMapObject &DMO);
bool findValidRelocs(const object::SectionRef &Section,
const object::ObjectFile &Obj,
const DebugMapObject &DMO);
void findValidRelocsMachO(const object::SectionRef &Section,
const object::MachOObjectFile &Obj,
const DebugMapObject &DMO);
/// @}
bool hasValidRelocation(uint32_t StartOffset, uint32_t EndOffset,
CompileUnit::DIEInfo &Info);
bool applyValidRelocs(MutableArrayRef<char> Data, uint32_t BaseOffset,
bool IsLittleEndian);
};
/// Keeps track of data associated with one object during linking.
struct LinkContext {
DebugMapObject &DMO;
const object::ObjectFile *ObjectFile;
RelocationManager RelocMgr;
std::unique_ptr<DWARFContext> DwarfContext;
RangesTy Ranges;
UnitListTy CompileUnits;
LinkContext(const DebugMap &Map, DwarfLinker &Linker, DebugMapObject &DMO)
: DMO(DMO), RelocMgr(Linker) {
// Swift ASTs are not object files.
if (DMO.getType() == MachO::N_AST) {
ObjectFile = nullptr;
return;
}
auto ErrOrObj = Linker.loadObject(DMO, Map);
ObjectFile = ErrOrObj ? &*ErrOrObj : nullptr;
DwarfContext = ObjectFile ? DWARFContext::create(*ObjectFile) : nullptr;
}
/// Clear part of the context that's no longer needed when we're done with
/// the debug object.
void Clear() {
DwarfContext.reset(nullptr);
CompileUnits.clear();
Ranges.clear();
}
};
/// Called at the start of a debug object link.
void startDebugObject(LinkContext &Context);
/// Called at the end of a debug object link.
void endDebugObject(LinkContext &Context);
/// \defgroup FindRootDIEs Find DIEs corresponding to debug map entries.
///
/// @{
/// Recursively walk the \p DIE tree and look for DIEs to
/// keep. Store that information in \p CU's DIEInfo.
///
/// The return value indicates whether the DIE is incomplete.
void lookForDIEsToKeep(RelocationManager &RelocMgr, RangesTy &Ranges,
const UnitListTy &Units, const DWARFDie &DIE,
const DebugMapObject &DMO, CompileUnit &CU,
unsigned Flags);
/// If this compile unit is really a skeleton CU that points to a
/// clang module, register it in ClangModules and return true.
///
/// A skeleton CU is a CU without children, a DW_AT_gnu_dwo_name
/// pointing to the module, and a DW_AT_gnu_dwo_id with the module
/// hash.
bool registerModuleReference(DWARFDie CUDie, const DWARFUnit &Unit,
DebugMap &ModuleMap, const DebugMapObject &DMO,
RangesTy &Ranges,
OffsetsStringPool &OffsetsStringPool,
UniquingStringPool &UniquingStringPoolStringPool,
DeclContextTree &ODRContexts,
uint64_t ModulesEndOffset, unsigned &UnitID,
bool IsLittleEndian, unsigned Indent = 0,
bool Quiet = false);
/// Recursively add the debug info in this clang module .pcm
/// file (and all the modules imported by it in a bottom-up fashion)
/// to Units.
Error loadClangModule(DWARFDie CUDie, StringRef FilePath,
StringRef ModuleName, uint64_t DwoId,
DebugMap &ModuleMap, const DebugMapObject &DMO,
RangesTy &Ranges, OffsetsStringPool &OffsetsStringPool,
UniquingStringPool &UniquingStringPool,
DeclContextTree &ODRContexts, uint64_t ModulesEndOffset,
unsigned &UnitID, bool IsLittleEndian,
unsigned Indent = 0, bool Quiet = false);
/// Flags passed to DwarfLinker::lookForDIEsToKeep
enum TraversalFlags {
TF_Keep = 1 << 0, ///< Mark the traversed DIEs as kept.
TF_InFunctionScope = 1 << 1, ///< Current scope is a function scope.
TF_DependencyWalk = 1 << 2, ///< Walking the dependencies of a kept DIE.
TF_ParentWalk = 1 << 3, ///< Walking up the parents of a kept DIE.
TF_ODR = 1 << 4, ///< Use the ODR while keeping dependents.
TF_SkipPC = 1 << 5, ///< Skip all location attributes.
};
/// Mark the passed DIE as well as all the ones it depends on as kept.
void keepDIEAndDependencies(RelocationManager &RelocMgr, RangesTy &Ranges,
const UnitListTy &Units, const DWARFDie &DIE,
CompileUnit::DIEInfo &MyInfo,
const DebugMapObject &DMO, CompileUnit &CU,
bool UseODR);
unsigned shouldKeepDIE(RelocationManager &RelocMgr, RangesTy &Ranges,
const DWARFDie &DIE, const DebugMapObject &DMO,
CompileUnit &Unit, CompileUnit::DIEInfo &MyInfo,
unsigned Flags);
/// Check if a variable describing DIE should be kept.
/// \returns updated TraversalFlags.
unsigned shouldKeepVariableDIE(RelocationManager &RelocMgr,
const DWARFDie &DIE, CompileUnit &Unit,
CompileUnit::DIEInfo &MyInfo, unsigned Flags);
unsigned shouldKeepSubprogramDIE(RelocationManager &RelocMgr,
RangesTy &Ranges, const DWARFDie &DIE,
const DebugMapObject &DMO, CompileUnit &Unit,
CompileUnit::DIEInfo &MyInfo,
unsigned Flags);
bool hasValidRelocation(uint32_t StartOffset, uint32_t EndOffset,
CompileUnit::DIEInfo &Info);
/// @}
/// \defgroup Linking Methods used to link the debug information
///
/// @{
class DIECloner {
DwarfLinker &Linker;
RelocationManager &RelocMgr;
/// Allocator used for all the DIEValue objects.
BumpPtrAllocator &DIEAlloc;
std::vector<std::unique_ptr<CompileUnit>> &CompileUnits;
LinkOptions Options;
public:
DIECloner(DwarfLinker &Linker, RelocationManager &RelocMgr,
BumpPtrAllocator &DIEAlloc,
std::vector<std::unique_ptr<CompileUnit>> &CompileUnits,
LinkOptions &Options)
: Linker(Linker), RelocMgr(RelocMgr), DIEAlloc(DIEAlloc),
CompileUnits(CompileUnits), Options(Options) {}
/// Recursively clone \p InputDIE into an tree of DIE objects
/// where useless (as decided by lookForDIEsToKeep()) bits have been
/// stripped out and addresses have been rewritten according to the
/// debug map.
///
/// \param OutOffset is the offset the cloned DIE in the output
/// compile unit.
/// \param PCOffset (while cloning a function scope) is the offset
/// applied to the entry point of the function to get the linked address.
/// \param Die the output DIE to use, pass NULL to create one.
/// \returns the root of the cloned tree or null if nothing was selected.
DIE *cloneDIE(const DWARFDie &InputDIE, const DebugMapObject &DMO,
CompileUnit &U, OffsetsStringPool &StringPool,
int64_t PCOffset, uint32_t OutOffset, unsigned Flags,
bool IsLittleEndian, DIE *Die = nullptr);
/// Construct the output DIE tree by cloning the DIEs we
/// chose to keep above. If there are no valid relocs, then there's
/// nothing to clone/emit.
void cloneAllCompileUnits(DWARFContext &DwarfContext,
const DebugMapObject &DMO, RangesTy &Ranges,
OffsetsStringPool &StringPool,
bool IsLittleEndian);
private:
using AttributeSpec = DWARFAbbreviationDeclaration::AttributeSpec;
/// Information gathered and exchanged between the various
/// clone*Attributes helpers about the attributes of a particular DIE.
struct AttributesInfo {
/// Names.
DwarfStringPoolEntryRef Name, MangledName, NameWithoutTemplate;
/// Offsets in the string pool.
uint32_t NameOffset = 0;
uint32_t MangledNameOffset = 0;
/// Value of AT_low_pc in the input DIE
uint64_t OrigLowPc = std::numeric_limits<uint64_t>::max();
/// Value of AT_high_pc in the input DIE
uint64_t OrigHighPc = 0;
/// Offset to apply to PC addresses inside a function.
int64_t PCOffset = 0;
/// Does the DIE have a low_pc attribute?
bool HasLowPc = false;
/// Does the DIE have a ranges attribute?
bool HasRanges = false;
/// Is this DIE only a declaration?
bool IsDeclaration = false;
AttributesInfo() = default;
};
/// Helper for cloneDIE.
unsigned cloneAttribute(DIE &Die, const DWARFDie &InputDIE,
const DebugMapObject &DMO, CompileUnit &U,
OffsetsStringPool &StringPool,
const DWARFFormValue &Val,
const AttributeSpec AttrSpec, unsigned AttrSize,
AttributesInfo &AttrInfo, bool IsLittleEndian);
/// Clone a string attribute described by \p AttrSpec and add
/// it to \p Die.
/// \returns the size of the new attribute.
unsigned cloneStringAttribute(DIE &Die, AttributeSpec AttrSpec,
const DWARFFormValue &Val, const DWARFUnit &U,
OffsetsStringPool &StringPool,
AttributesInfo &Info);
/// Clone an attribute referencing another DIE and add
/// it to \p Die.
/// \returns the size of the new attribute.
unsigned cloneDieReferenceAttribute(DIE &Die, const DWARFDie &InputDIE,
AttributeSpec AttrSpec,
unsigned AttrSize,
const DWARFFormValue &Val,
const DebugMapObject &DMO,
CompileUnit &Unit);
/// Clone a DWARF expression that may be referencing another DIE.
void cloneExpression(DataExtractor &Data, DWARFExpression Expression,
const DebugMapObject &DMO, CompileUnit &Unit,
SmallVectorImpl<uint8_t> &OutputBuffer);
/// Clone an attribute referencing another DIE and add
/// it to \p Die.
/// \returns the size of the new attribute.
unsigned cloneBlockAttribute(DIE &Die, const DebugMapObject &DMO,
CompileUnit &Unit, AttributeSpec AttrSpec,
const DWARFFormValue &Val, unsigned AttrSize,
bool IsLittleEndian);
/// Clone an attribute referencing another DIE and add
/// it to \p Die.
/// \returns the size of the new attribute.
unsigned cloneAddressAttribute(DIE &Die, AttributeSpec AttrSpec,
const DWARFFormValue &Val,
const CompileUnit &Unit,
AttributesInfo &Info);
/// Clone a scalar attribute and add it to \p Die.
/// \returns the size of the new attribute.
unsigned cloneScalarAttribute(DIE &Die, const DWARFDie &InputDIE,
const DebugMapObject &DMO, CompileUnit &U,
AttributeSpec AttrSpec,
const DWARFFormValue &Val, unsigned AttrSize,
AttributesInfo &Info);
/// Get the potential name and mangled name for the entity
/// described by \p Die and store them in \Info if they are not
/// already there.
/// \returns is a name was found.
bool getDIENames(const DWARFDie &Die, AttributesInfo &Info,
OffsetsStringPool &StringPool, bool StripTemplate = false);
/// Create a copy of abbreviation Abbrev.
void copyAbbrev(const DWARFAbbreviationDeclaration &Abbrev, bool hasODR);
uint32_t hashFullyQualifiedName(DWARFDie DIE, CompileUnit &U,
const DebugMapObject &DMO,
int RecurseDepth = 0);
/// Helper for cloneDIE.
void addObjCAccelerator(CompileUnit &Unit, const DIE *Die,
DwarfStringPoolEntryRef Name,
OffsetsStringPool &StringPool, bool SkipPubSection);
};
/// Assign an abbreviation number to \p Abbrev
void AssignAbbrev(DIEAbbrev &Abbrev);
/// Compute and emit debug_ranges section for \p Unit, and
/// patch the attributes referencing it.
void patchRangesForUnit(const CompileUnit &Unit, DWARFContext &Dwarf,
const DebugMapObject &DMO) const;
/// Generate and emit the DW_AT_ranges attribute for a compile_unit if it had
/// one.
void generateUnitRanges(CompileUnit &Unit) const;
/// Extract the line tables from the original dwarf, extract the relevant
/// parts according to the linked function ranges and emit the result in the
/// debug_line section.
void patchLineTableForUnit(CompileUnit &Unit, DWARFContext &OrigDwarf,
RangesTy &Ranges, const DebugMapObject &DMO);
/// Emit the accelerator entries for \p Unit.
void emitAcceleratorEntriesForUnit(CompileUnit &Unit);
void emitDwarfAcceleratorEntriesForUnit(CompileUnit &Unit);
void emitAppleAcceleratorEntriesForUnit(CompileUnit &Unit);
/// Patch the frame info for an object file and emit it.
void patchFrameInfoForObject(const DebugMapObject &, RangesTy &Ranges,
DWARFContext &, unsigned AddressSize);
/// FoldingSet that uniques the abbreviations.
FoldingSet<DIEAbbrev> AbbreviationsSet;
/// Storage for the unique Abbreviations.
/// This is passed to AsmPrinter::emitDwarfAbbrevs(), thus it cannot be
/// changed to a vector of unique_ptrs.
std::vector<std::unique_ptr<DIEAbbrev>> Abbreviations;
/// DIELoc objects that need to be destructed (but not freed!).
std::vector<DIELoc *> DIELocs;
/// DIEBlock objects that need to be destructed (but not freed!).
std::vector<DIEBlock *> DIEBlocks;
/// Allocator used for all the DIEValue objects.
BumpPtrAllocator DIEAlloc;
/// @}
/// \defgroup Helpers Various helper methods.
///
/// @{
bool createStreamer(const Triple &TheTriple, raw_fd_ostream &OutFile);
/// Attempt to load a debug object from disk.
ErrorOr<const object::ObjectFile &> loadObject(const DebugMapObject &Obj,
const DebugMap &Map);
/// @}
raw_fd_ostream &OutFile;
BinaryHolder &BinHolder;
LinkOptions Options;
std::unique_ptr<DwarfStreamer> Streamer;
uint64_t OutputDebugInfoSize;
unsigned MaxDwarfVersion = 0;
unsigned MinDwarfVersion = std::numeric_limits<unsigned>::max();
bool AtLeastOneAppleAccelTable = false;
bool AtLeastOneDwarfAccelTable = false;
/// The CIEs that have been emitted in the output section. The actual CIE
/// data serves a the key to this StringMap, this takes care of comparing the
/// semantics of CIEs defined in different object files.
StringMap<uint32_t> EmittedCIEs;
/// Offset of the last CIE that has been emitted in the output
/// debug_frame section.
uint32_t LastCIEOffset = 0;
/// Apple accelerator tables.
AccelTable<DWARF5AccelTableStaticData> DebugNames;
AccelTable<AppleAccelTableStaticOffsetData> AppleNames;
AccelTable<AppleAccelTableStaticOffsetData> AppleNamespaces;
AccelTable<AppleAccelTableStaticOffsetData> AppleObjc;
AccelTable<AppleAccelTableStaticTypeData> AppleTypes;
/// Mapping the PCM filename to the DwoId.
StringMap<uint64_t> ClangModules;
/// A list of all .swiftinterface files referenced by the debug
/// info, mapping Module name to path on disk. The entries need to
/// be uniqued and sorted and there are only few entries expected
/// per compile unit, which is why this is a std::map.
std::map<std::string, std::string> ParseableSwiftInterfaces;
bool ModuleCacheHintDisplayed = false;
bool ArchiveHintDisplayed = false;
};
} // end namespace dsymutil
} // end namespace llvm
#endif // LLVM_TOOLS_DSYMUTIL_DWARFLINKER_H