SymbolFileDWARF.cpp
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//===-- SymbolFileDWARF.cpp -----------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "SymbolFileDWARF.h"
#include "llvm/ADT/Optional.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/Threading.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/ModuleList.h"
#include "lldb/Core/ModuleSpec.h"
#include "lldb/Core/PluginManager.h"
#include "lldb/Core/Section.h"
#include "lldb/Core/StreamFile.h"
#include "lldb/Core/Value.h"
#include "lldb/Utility/ArchSpec.h"
#include "lldb/Utility/RegularExpression.h"
#include "lldb/Utility/Scalar.h"
#include "lldb/Utility/StreamString.h"
#include "lldb/Utility/Timer.h"
#include "Plugins/ExpressionParser/Clang/ClangModulesDeclVendor.h"
#include "Plugins/Language/CPlusPlus/CPlusPlusLanguage.h"
#include "lldb/Host/FileSystem.h"
#include "lldb/Host/Host.h"
#include "lldb/Interpreter/OptionValueFileSpecList.h"
#include "lldb/Interpreter/OptionValueProperties.h"
#include "Plugins/ExpressionParser/Clang/ClangUtil.h"
#include "Plugins/TypeSystem/Clang/TypeSystemClang.h"
#include "lldb/Symbol/Block.h"
#include "lldb/Symbol/CompileUnit.h"
#include "lldb/Symbol/CompilerDecl.h"
#include "lldb/Symbol/CompilerDeclContext.h"
#include "lldb/Symbol/DebugMacros.h"
#include "lldb/Symbol/LineTable.h"
#include "lldb/Symbol/LocateSymbolFile.h"
#include "lldb/Symbol/ObjectFile.h"
#include "lldb/Symbol/SymbolFile.h"
#include "lldb/Symbol/TypeMap.h"
#include "lldb/Symbol/TypeSystem.h"
#include "lldb/Symbol/VariableList.h"
#include "lldb/Target/Language.h"
#include "lldb/Target/Target.h"
#include "AppleDWARFIndex.h"
#include "DWARFASTParser.h"
#include "DWARFASTParserClang.h"
#include "DWARFCompileUnit.h"
#include "DWARFDebugAbbrev.h"
#include "DWARFDebugAranges.h"
#include "DWARFDebugInfo.h"
#include "DWARFDebugMacro.h"
#include "DWARFDebugRanges.h"
#include "DWARFDeclContext.h"
#include "DWARFFormValue.h"
#include "DWARFTypeUnit.h"
#include "DWARFUnit.h"
#include "DebugNamesDWARFIndex.h"
#include "LogChannelDWARF.h"
#include "ManualDWARFIndex.h"
#include "SymbolFileDWARFDebugMap.h"
#include "SymbolFileDWARFDwo.h"
#include "llvm/DebugInfo/DWARF/DWARFContext.h"
#include "llvm/Support/FileSystem.h"
#include <algorithm>
#include <map>
#include <memory>
#include <ctype.h>
#include <string.h>
//#define ENABLE_DEBUG_PRINTF // COMMENT OUT THIS LINE PRIOR TO CHECKIN
#ifdef ENABLE_DEBUG_PRINTF
#include <stdio.h>
#define DEBUG_PRINTF(fmt, ...) printf(fmt, __VA_ARGS__)
#else
#define DEBUG_PRINTF(fmt, ...)
#endif
using namespace lldb;
using namespace lldb_private;
LLDB_PLUGIN_DEFINE(SymbolFileDWARF)
char SymbolFileDWARF::ID;
// static inline bool
// child_requires_parent_class_union_or_struct_to_be_completed (dw_tag_t tag)
//{
// switch (tag)
// {
// default:
// break;
// case DW_TAG_subprogram:
// case DW_TAG_inlined_subroutine:
// case DW_TAG_class_type:
// case DW_TAG_structure_type:
// case DW_TAG_union_type:
// return true;
// }
// return false;
//}
//
namespace {
#define LLDB_PROPERTIES_symbolfiledwarf
#include "SymbolFileDWARFProperties.inc"
enum {
#define LLDB_PROPERTIES_symbolfiledwarf
#include "SymbolFileDWARFPropertiesEnum.inc"
};
class PluginProperties : public Properties {
public:
static ConstString GetSettingName() {
return SymbolFileDWARF::GetPluginNameStatic();
}
PluginProperties() {
m_collection_sp = std::make_shared<OptionValueProperties>(GetSettingName());
m_collection_sp->Initialize(g_symbolfiledwarf_properties);
}
bool IgnoreFileIndexes() const {
return m_collection_sp->GetPropertyAtIndexAsBoolean(
nullptr, ePropertyIgnoreIndexes, false);
}
};
typedef std::shared_ptr<PluginProperties> SymbolFileDWARFPropertiesSP;
static const SymbolFileDWARFPropertiesSP &GetGlobalPluginProperties() {
static const auto g_settings_sp(std::make_shared<PluginProperties>());
return g_settings_sp;
}
} // namespace
static const llvm::DWARFDebugLine::LineTable *
ParseLLVMLineTable(lldb_private::DWARFContext &context,
llvm::DWARFDebugLine &line, dw_offset_t line_offset,
dw_offset_t unit_offset) {
Log *log = LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO);
llvm::DWARFDataExtractor data = context.getOrLoadLineData().GetAsLLVM();
llvm::DWARFContext &ctx = context.GetAsLLVM();
llvm::Expected<const llvm::DWARFDebugLine::LineTable *> line_table =
line.getOrParseLineTable(
data, line_offset, ctx, nullptr, [&](llvm::Error e) {
LLDB_LOG_ERROR(
log, std::move(e),
"SymbolFileDWARF::ParseLineTable failed to parse: {0}");
});
if (!line_table) {
LLDB_LOG_ERROR(log, line_table.takeError(),
"SymbolFileDWARF::ParseLineTable failed to parse: {0}");
return nullptr;
}
return *line_table;
}
static bool ParseLLVMLineTablePrologue(lldb_private::DWARFContext &context,
llvm::DWARFDebugLine::Prologue &prologue,
dw_offset_t line_offset,
dw_offset_t unit_offset) {
Log *log = LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO);
bool success = true;
llvm::DWARFDataExtractor data = context.getOrLoadLineData().GetAsLLVM();
llvm::DWARFContext &ctx = context.GetAsLLVM();
uint64_t offset = line_offset;
llvm::Error error = prologue.parse(
data, &offset,
[&](llvm::Error e) {
success = false;
LLDB_LOG_ERROR(log, std::move(e),
"SymbolFileDWARF::ParseSupportFiles failed to parse "
"line table prologue: {0}");
},
ctx, nullptr);
if (error) {
LLDB_LOG_ERROR(log, std::move(error),
"SymbolFileDWARF::ParseSupportFiles failed to parse line "
"table prologue: {0}");
return false;
}
return success;
}
static llvm::Optional<std::string>
GetFileByIndex(const llvm::DWARFDebugLine::Prologue &prologue, size_t idx,
llvm::StringRef compile_dir, FileSpec::Style style) {
// Try to get an absolute path first.
std::string abs_path;
auto absolute = llvm::DILineInfoSpecifier::FileLineInfoKind::AbsoluteFilePath;
if (prologue.getFileNameByIndex(idx, compile_dir, absolute, abs_path, style))
return std::move(abs_path);
// Otherwise ask for a relative path.
std::string rel_path;
auto relative = llvm::DILineInfoSpecifier::FileLineInfoKind::RawValue;
if (!prologue.getFileNameByIndex(idx, compile_dir, relative, rel_path, style))
return {};
return std::move(rel_path);
}
static FileSpecList
ParseSupportFilesFromPrologue(const lldb::ModuleSP &module,
const llvm::DWARFDebugLine::Prologue &prologue,
FileSpec::Style style,
llvm::StringRef compile_dir = {}) {
FileSpecList support_files;
size_t first_file = 0;
if (prologue.getVersion() <= 4) {
// File index 0 is not valid before DWARF v5. Add a dummy entry to ensure
// support file list indices match those we get from the debug info and line
// tables.
support_files.Append(FileSpec());
first_file = 1;
}
const size_t number_of_files = prologue.FileNames.size();
for (size_t idx = first_file; idx <= number_of_files; ++idx) {
std::string remapped_file;
if (auto file_path = GetFileByIndex(prologue, idx, compile_dir, style))
if (!module->RemapSourceFile(llvm::StringRef(*file_path), remapped_file))
remapped_file = std::move(*file_path);
// Unconditionally add an entry, so the indices match up.
support_files.EmplaceBack(remapped_file, style);
}
return support_files;
}
void SymbolFileDWARF::Initialize() {
LogChannelDWARF::Initialize();
PluginManager::RegisterPlugin(GetPluginNameStatic(),
GetPluginDescriptionStatic(), CreateInstance,
DebuggerInitialize);
SymbolFileDWARFDebugMap::Initialize();
}
void SymbolFileDWARF::DebuggerInitialize(Debugger &debugger) {
if (!PluginManager::GetSettingForSymbolFilePlugin(
debugger, PluginProperties::GetSettingName())) {
const bool is_global_setting = true;
PluginManager::CreateSettingForSymbolFilePlugin(
debugger, GetGlobalPluginProperties()->GetValueProperties(),
ConstString("Properties for the dwarf symbol-file plug-in."),
is_global_setting);
}
}
void SymbolFileDWARF::Terminate() {
SymbolFileDWARFDebugMap::Terminate();
PluginManager::UnregisterPlugin(CreateInstance);
LogChannelDWARF::Terminate();
}
lldb_private::ConstString SymbolFileDWARF::GetPluginNameStatic() {
static ConstString g_name("dwarf");
return g_name;
}
const char *SymbolFileDWARF::GetPluginDescriptionStatic() {
return "DWARF and DWARF3 debug symbol file reader.";
}
SymbolFile *SymbolFileDWARF::CreateInstance(ObjectFileSP objfile_sp) {
return new SymbolFileDWARF(std::move(objfile_sp),
/*dwo_section_list*/ nullptr);
}
TypeList &SymbolFileDWARF::GetTypeList() {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
if (SymbolFileDWARFDebugMap *debug_map_symfile = GetDebugMapSymfile())
return debug_map_symfile->GetTypeList();
return SymbolFile::GetTypeList();
}
void SymbolFileDWARF::GetTypes(const DWARFDIE &die, dw_offset_t min_die_offset,
dw_offset_t max_die_offset, uint32_t type_mask,
TypeSet &type_set) {
if (die) {
const dw_offset_t die_offset = die.GetOffset();
if (die_offset >= max_die_offset)
return;
if (die_offset >= min_die_offset) {
const dw_tag_t tag = die.Tag();
bool add_type = false;
switch (tag) {
case DW_TAG_array_type:
add_type = (type_mask & eTypeClassArray) != 0;
break;
case DW_TAG_unspecified_type:
case DW_TAG_base_type:
add_type = (type_mask & eTypeClassBuiltin) != 0;
break;
case DW_TAG_class_type:
add_type = (type_mask & eTypeClassClass) != 0;
break;
case DW_TAG_structure_type:
add_type = (type_mask & eTypeClassStruct) != 0;
break;
case DW_TAG_union_type:
add_type = (type_mask & eTypeClassUnion) != 0;
break;
case DW_TAG_enumeration_type:
add_type = (type_mask & eTypeClassEnumeration) != 0;
break;
case DW_TAG_subroutine_type:
case DW_TAG_subprogram:
case DW_TAG_inlined_subroutine:
add_type = (type_mask & eTypeClassFunction) != 0;
break;
case DW_TAG_pointer_type:
add_type = (type_mask & eTypeClassPointer) != 0;
break;
case DW_TAG_rvalue_reference_type:
case DW_TAG_reference_type:
add_type = (type_mask & eTypeClassReference) != 0;
break;
case DW_TAG_typedef:
add_type = (type_mask & eTypeClassTypedef) != 0;
break;
case DW_TAG_ptr_to_member_type:
add_type = (type_mask & eTypeClassMemberPointer) != 0;
break;
default:
break;
}
if (add_type) {
const bool assert_not_being_parsed = true;
Type *type = ResolveTypeUID(die, assert_not_being_parsed);
if (type)
type_set.insert(type);
}
}
for (DWARFDIE child_die = die.GetFirstChild(); child_die.IsValid();
child_die = child_die.GetSibling()) {
GetTypes(child_die, min_die_offset, max_die_offset, type_mask, type_set);
}
}
}
void SymbolFileDWARF::GetTypes(SymbolContextScope *sc_scope,
TypeClass type_mask, TypeList &type_list)
{
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
TypeSet type_set;
CompileUnit *comp_unit = nullptr;
DWARFUnit *dwarf_cu = nullptr;
if (sc_scope)
comp_unit = sc_scope->CalculateSymbolContextCompileUnit();
if (comp_unit) {
dwarf_cu = GetDWARFCompileUnit(comp_unit);
if (!dwarf_cu)
return;
GetTypes(dwarf_cu->DIE(), dwarf_cu->GetOffset(),
dwarf_cu->GetNextUnitOffset(), type_mask, type_set);
} else {
DWARFDebugInfo &info = DebugInfo();
const size_t num_cus = info.GetNumUnits();
for (size_t cu_idx = 0; cu_idx < num_cus; ++cu_idx) {
dwarf_cu = info.GetUnitAtIndex(cu_idx);
if (dwarf_cu)
GetTypes(dwarf_cu->DIE(), 0, UINT32_MAX, type_mask, type_set);
}
}
std::set<CompilerType> compiler_type_set;
for (Type *type : type_set) {
CompilerType compiler_type = type->GetForwardCompilerType();
if (compiler_type_set.find(compiler_type) == compiler_type_set.end()) {
compiler_type_set.insert(compiler_type);
type_list.Insert(type->shared_from_this());
}
}
}
// Gets the first parent that is a lexical block, function or inlined
// subroutine, or compile unit.
DWARFDIE
SymbolFileDWARF::GetParentSymbolContextDIE(const DWARFDIE &child_die) {
DWARFDIE die;
for (die = child_die.GetParent(); die; die = die.GetParent()) {
dw_tag_t tag = die.Tag();
switch (tag) {
case DW_TAG_compile_unit:
case DW_TAG_partial_unit:
case DW_TAG_subprogram:
case DW_TAG_inlined_subroutine:
case DW_TAG_lexical_block:
return die;
default:
break;
}
}
return DWARFDIE();
}
SymbolFileDWARF::SymbolFileDWARF(ObjectFileSP objfile_sp,
SectionList *dwo_section_list)
: SymbolFile(std::move(objfile_sp)),
UserID(0x7fffffff00000000), // Used by SymbolFileDWARFDebugMap to
// when this class parses .o files to
// contain the .o file index/ID
m_debug_map_module_wp(), m_debug_map_symfile(nullptr),
m_context(m_objfile_sp->GetModule()->GetSectionList(), dwo_section_list),
m_fetched_external_modules(false),
m_supports_DW_AT_APPLE_objc_complete_type(eLazyBoolCalculate) {}
SymbolFileDWARF::~SymbolFileDWARF() {}
static ConstString GetDWARFMachOSegmentName() {
static ConstString g_dwarf_section_name("__DWARF");
return g_dwarf_section_name;
}
UniqueDWARFASTTypeMap &SymbolFileDWARF::GetUniqueDWARFASTTypeMap() {
SymbolFileDWARFDebugMap *debug_map_symfile = GetDebugMapSymfile();
if (debug_map_symfile)
return debug_map_symfile->GetUniqueDWARFASTTypeMap();
else
return m_unique_ast_type_map;
}
llvm::Expected<TypeSystem &>
SymbolFileDWARF::GetTypeSystemForLanguage(LanguageType language) {
if (SymbolFileDWARFDebugMap *debug_map_symfile = GetDebugMapSymfile())
return debug_map_symfile->GetTypeSystemForLanguage(language);
auto type_system_or_err =
m_objfile_sp->GetModule()->GetTypeSystemForLanguage(language);
if (type_system_or_err) {
type_system_or_err->SetSymbolFile(this);
}
return type_system_or_err;
}
void SymbolFileDWARF::InitializeObject() {
Log *log = LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO);
if (!GetGlobalPluginProperties()->IgnoreFileIndexes()) {
DWARFDataExtractor apple_names, apple_namespaces, apple_types, apple_objc;
LoadSectionData(eSectionTypeDWARFAppleNames, apple_names);
LoadSectionData(eSectionTypeDWARFAppleNamespaces, apple_namespaces);
LoadSectionData(eSectionTypeDWARFAppleTypes, apple_types);
LoadSectionData(eSectionTypeDWARFAppleObjC, apple_objc);
m_index = AppleDWARFIndex::Create(
*GetObjectFile()->GetModule(), apple_names, apple_namespaces,
apple_types, apple_objc, m_context.getOrLoadStrData());
if (m_index)
return;
DWARFDataExtractor debug_names;
LoadSectionData(eSectionTypeDWARFDebugNames, debug_names);
if (debug_names.GetByteSize() > 0) {
llvm::Expected<std::unique_ptr<DebugNamesDWARFIndex>> index_or =
DebugNamesDWARFIndex::Create(*GetObjectFile()->GetModule(),
debug_names,
m_context.getOrLoadStrData(), *this);
if (index_or) {
m_index = std::move(*index_or);
return;
}
LLDB_LOG_ERROR(log, index_or.takeError(),
"Unable to read .debug_names data: {0}");
}
}
m_index =
std::make_unique<ManualDWARFIndex>(*GetObjectFile()->GetModule(), *this);
}
bool SymbolFileDWARF::SupportedVersion(uint16_t version) {
return version >= 2 && version <= 5;
}
uint32_t SymbolFileDWARF::CalculateAbilities() {
uint32_t abilities = 0;
if (m_objfile_sp != nullptr) {
const Section *section = nullptr;
const SectionList *section_list = m_objfile_sp->GetSectionList();
if (section_list == nullptr)
return 0;
uint64_t debug_abbrev_file_size = 0;
uint64_t debug_info_file_size = 0;
uint64_t debug_line_file_size = 0;
section = section_list->FindSectionByName(GetDWARFMachOSegmentName()).get();
if (section)
section_list = §ion->GetChildren();
section =
section_list->FindSectionByType(eSectionTypeDWARFDebugInfo, true).get();
if (section != nullptr) {
debug_info_file_size = section->GetFileSize();
section =
section_list->FindSectionByType(eSectionTypeDWARFDebugAbbrev, true)
.get();
if (section)
debug_abbrev_file_size = section->GetFileSize();
DWARFDebugAbbrev *abbrev = DebugAbbrev();
if (abbrev) {
std::set<dw_form_t> invalid_forms;
abbrev->GetUnsupportedForms(invalid_forms);
if (!invalid_forms.empty()) {
StreamString error;
error.Printf("unsupported DW_FORM value%s:",
invalid_forms.size() > 1 ? "s" : "");
for (auto form : invalid_forms)
error.Printf(" %#x", form);
m_objfile_sp->GetModule()->ReportWarning(
"%s", error.GetString().str().c_str());
return 0;
}
}
section =
section_list->FindSectionByType(eSectionTypeDWARFDebugLine, true)
.get();
if (section)
debug_line_file_size = section->GetFileSize();
} else {
const char *symfile_dir_cstr =
m_objfile_sp->GetFileSpec().GetDirectory().GetCString();
if (symfile_dir_cstr) {
if (strcasestr(symfile_dir_cstr, ".dsym")) {
if (m_objfile_sp->GetType() == ObjectFile::eTypeDebugInfo) {
// We have a dSYM file that didn't have a any debug info. If the
// string table has a size of 1, then it was made from an
// executable with no debug info, or from an executable that was
// stripped.
section =
section_list->FindSectionByType(eSectionTypeDWARFDebugStr, true)
.get();
if (section && section->GetFileSize() == 1) {
m_objfile_sp->GetModule()->ReportWarning(
"empty dSYM file detected, dSYM was created with an "
"executable with no debug info.");
}
}
}
}
}
if (debug_abbrev_file_size > 0 && debug_info_file_size > 0)
abilities |= CompileUnits | Functions | Blocks | GlobalVariables |
LocalVariables | VariableTypes;
if (debug_line_file_size > 0)
abilities |= LineTables;
}
return abilities;
}
void SymbolFileDWARF::LoadSectionData(lldb::SectionType sect_type,
DWARFDataExtractor &data) {
ModuleSP module_sp(m_objfile_sp->GetModule());
const SectionList *section_list = module_sp->GetSectionList();
if (!section_list)
return;
SectionSP section_sp(section_list->FindSectionByType(sect_type, true));
if (!section_sp)
return;
data.Clear();
m_objfile_sp->ReadSectionData(section_sp.get(), data);
}
DWARFDebugAbbrev *SymbolFileDWARF::DebugAbbrev() {
if (m_abbr)
return m_abbr.get();
const DWARFDataExtractor &debug_abbrev_data = m_context.getOrLoadAbbrevData();
if (debug_abbrev_data.GetByteSize() == 0)
return nullptr;
auto abbr = std::make_unique<DWARFDebugAbbrev>();
llvm::Error error = abbr->parse(debug_abbrev_data);
if (error) {
Log *log = LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO);
LLDB_LOG_ERROR(log, std::move(error),
"Unable to read .debug_abbrev section: {0}");
return nullptr;
}
m_abbr = std::move(abbr);
return m_abbr.get();
}
DWARFDebugInfo &SymbolFileDWARF::DebugInfo() {
llvm::call_once(m_info_once_flag, [&] {
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat, "%s this = %p", LLVM_PRETTY_FUNCTION,
static_cast<void *>(this));
m_info = std::make_unique<DWARFDebugInfo>(*this, m_context);
});
return *m_info;
}
DWARFUnit *
SymbolFileDWARF::GetDWARFCompileUnit(lldb_private::CompileUnit *comp_unit) {
if (!comp_unit)
return nullptr;
// The compile unit ID is the index of the DWARF unit.
DWARFUnit *dwarf_cu = DebugInfo().GetUnitAtIndex(comp_unit->GetID());
if (dwarf_cu && dwarf_cu->GetUserData() == nullptr)
dwarf_cu->SetUserData(comp_unit);
return dwarf_cu;
}
DWARFDebugRanges *SymbolFileDWARF::GetDebugRanges() {
if (!m_ranges) {
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat, "%s this = %p", LLVM_PRETTY_FUNCTION,
static_cast<void *>(this));
if (m_context.getOrLoadRangesData().GetByteSize() > 0)
m_ranges = std::make_unique<DWARFDebugRanges>();
if (m_ranges)
m_ranges->Extract(m_context);
}
return m_ranges.get();
}
/// Make an absolute path out of \p file_spec and remap it using the
/// module's source remapping dictionary.
static void MakeAbsoluteAndRemap(FileSpec &file_spec, DWARFUnit &dwarf_cu,
const ModuleSP &module_sp) {
if (!file_spec)
return;
// If we have a full path to the compile unit, we don't need to
// resolve the file. This can be expensive e.g. when the source
// files are NFS mounted.
file_spec.MakeAbsolute(dwarf_cu.GetCompilationDirectory());
std::string remapped_file;
if (module_sp->RemapSourceFile(file_spec.GetPath(), remapped_file))
file_spec.SetFile(remapped_file, FileSpec::Style::native);
}
lldb::CompUnitSP SymbolFileDWARF::ParseCompileUnit(DWARFCompileUnit &dwarf_cu) {
CompUnitSP cu_sp;
CompileUnit *comp_unit = (CompileUnit *)dwarf_cu.GetUserData();
if (comp_unit) {
// We already parsed this compile unit, had out a shared pointer to it
cu_sp = comp_unit->shared_from_this();
} else {
if (dwarf_cu.GetOffset() == 0 && GetDebugMapSymfile()) {
// Let the debug map create the compile unit
cu_sp = m_debug_map_symfile->GetCompileUnit(this);
dwarf_cu.SetUserData(cu_sp.get());
} else {
ModuleSP module_sp(m_objfile_sp->GetModule());
if (module_sp) {
const DWARFBaseDIE cu_die =
dwarf_cu.GetNonSkeletonUnit().GetUnitDIEOnly();
if (cu_die) {
FileSpec cu_file_spec(cu_die.GetName(), dwarf_cu.GetPathStyle());
MakeAbsoluteAndRemap(cu_file_spec, dwarf_cu, module_sp);
LanguageType cu_language = SymbolFileDWARF::LanguageTypeFromDWARF(
cu_die.GetAttributeValueAsUnsigned(DW_AT_language, 0));
bool is_optimized = dwarf_cu.GetNonSkeletonUnit().GetIsOptimized();
BuildCuTranslationTable();
cu_sp = std::make_shared<CompileUnit>(
module_sp, &dwarf_cu, cu_file_spec,
*GetDWARFUnitIndex(dwarf_cu.GetID()), cu_language,
is_optimized ? eLazyBoolYes : eLazyBoolNo);
dwarf_cu.SetUserData(cu_sp.get());
SetCompileUnitAtIndex(dwarf_cu.GetID(), cu_sp);
}
}
}
}
return cu_sp;
}
void SymbolFileDWARF::BuildCuTranslationTable() {
if (!m_lldb_cu_to_dwarf_unit.empty())
return;
DWARFDebugInfo &info = DebugInfo();
if (!info.ContainsTypeUnits()) {
// We can use a 1-to-1 mapping. No need to build a translation table.
return;
}
for (uint32_t i = 0, num = info.GetNumUnits(); i < num; ++i) {
if (auto *cu = llvm::dyn_cast<DWARFCompileUnit>(info.GetUnitAtIndex(i))) {
cu->SetID(m_lldb_cu_to_dwarf_unit.size());
m_lldb_cu_to_dwarf_unit.push_back(i);
}
}
}
llvm::Optional<uint32_t> SymbolFileDWARF::GetDWARFUnitIndex(uint32_t cu_idx) {
BuildCuTranslationTable();
if (m_lldb_cu_to_dwarf_unit.empty())
return cu_idx;
if (cu_idx >= m_lldb_cu_to_dwarf_unit.size())
return llvm::None;
return m_lldb_cu_to_dwarf_unit[cu_idx];
}
uint32_t SymbolFileDWARF::CalculateNumCompileUnits() {
BuildCuTranslationTable();
return m_lldb_cu_to_dwarf_unit.empty() ? DebugInfo().GetNumUnits()
: m_lldb_cu_to_dwarf_unit.size();
}
CompUnitSP SymbolFileDWARF::ParseCompileUnitAtIndex(uint32_t cu_idx) {
ASSERT_MODULE_LOCK(this);
if (llvm::Optional<uint32_t> dwarf_idx = GetDWARFUnitIndex(cu_idx)) {
if (auto *dwarf_cu = llvm::cast_or_null<DWARFCompileUnit>(
DebugInfo().GetUnitAtIndex(*dwarf_idx)))
return ParseCompileUnit(*dwarf_cu);
}
return {};
}
Function *SymbolFileDWARF::ParseFunction(CompileUnit &comp_unit,
const DWARFDIE &die) {
ASSERT_MODULE_LOCK(this);
if (!die.IsValid())
return nullptr;
auto type_system_or_err = GetTypeSystemForLanguage(GetLanguage(*die.GetCU()));
if (auto err = type_system_or_err.takeError()) {
LLDB_LOG_ERROR(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_SYMBOLS),
std::move(err), "Unable to parse function");
return nullptr;
}
DWARFASTParser *dwarf_ast = type_system_or_err->GetDWARFParser();
if (!dwarf_ast)
return nullptr;
return dwarf_ast->ParseFunctionFromDWARF(comp_unit, die);
}
lldb::addr_t SymbolFileDWARF::FixupAddress(lldb::addr_t file_addr) {
SymbolFileDWARFDebugMap *debug_map_symfile = GetDebugMapSymfile();
if (debug_map_symfile)
return debug_map_symfile->LinkOSOFileAddress(this, file_addr);
return file_addr;
}
bool SymbolFileDWARF::FixupAddress(Address &addr) {
SymbolFileDWARFDebugMap *debug_map_symfile = GetDebugMapSymfile();
if (debug_map_symfile) {
return debug_map_symfile->LinkOSOAddress(addr);
}
// This is a normal DWARF file, no address fixups need to happen
return true;
}
lldb::LanguageType SymbolFileDWARF::ParseLanguage(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (dwarf_cu)
return GetLanguage(*dwarf_cu);
else
return eLanguageTypeUnknown;
}
XcodeSDK SymbolFileDWARF::ParseXcodeSDK(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (!dwarf_cu)
return {};
const DWARFBaseDIE cu_die = dwarf_cu->GetNonSkeletonUnit().GetUnitDIEOnly();
if (!cu_die)
return {};
const char *sdk = cu_die.GetAttributeValueAsString(DW_AT_APPLE_sdk, nullptr);
if (!sdk)
return {};
const char *sysroot =
cu_die.GetAttributeValueAsString(DW_AT_LLVM_sysroot, "");
// Register the sysroot path remapping with the module belonging to
// the CU as well as the one belonging to the symbol file. The two
// would be different if this is an OSO object and module is the
// corresponding debug map, in which case both should be updated.
ModuleSP module_sp = comp_unit.GetModule();
if (module_sp)
module_sp->RegisterXcodeSDK(sdk, sysroot);
ModuleSP local_module_sp = m_objfile_sp->GetModule();
if (local_module_sp && local_module_sp != module_sp)
local_module_sp->RegisterXcodeSDK(sdk, sysroot);
return {sdk};
}
size_t SymbolFileDWARF::ParseFunctions(CompileUnit &comp_unit) {
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat, "SymbolFileDWARF::ParseFunctions");
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (!dwarf_cu)
return 0;
size_t functions_added = 0;
dwarf_cu = &dwarf_cu->GetNonSkeletonUnit();
for (DWARFDebugInfoEntry &entry : dwarf_cu->dies()) {
if (entry.Tag() != DW_TAG_subprogram)
continue;
DWARFDIE die(dwarf_cu, &entry);
if (comp_unit.FindFunctionByUID(die.GetID()))
continue;
if (ParseFunction(comp_unit, die))
++functions_added;
}
// FixupTypes();
return functions_added;
}
bool SymbolFileDWARF::ForEachExternalModule(
CompileUnit &comp_unit,
llvm::DenseSet<lldb_private::SymbolFile *> &visited_symbol_files,
llvm::function_ref<bool(Module &)> lambda) {
// Only visit each symbol file once.
if (!visited_symbol_files.insert(this).second)
return false;
UpdateExternalModuleListIfNeeded();
for (auto &p : m_external_type_modules) {
ModuleSP module = p.second;
if (!module)
continue;
// Invoke the action and potentially early-exit.
if (lambda(*module))
return true;
for (std::size_t i = 0; i < module->GetNumCompileUnits(); ++i) {
auto cu = module->GetCompileUnitAtIndex(i);
bool early_exit = cu->ForEachExternalModule(visited_symbol_files, lambda);
if (early_exit)
return true;
}
}
return false;
}
bool SymbolFileDWARF::ParseSupportFiles(CompileUnit &comp_unit,
FileSpecList &support_files) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (!dwarf_cu)
return false;
dw_offset_t offset = dwarf_cu->GetLineTableOffset();
if (offset == DW_INVALID_OFFSET)
return false;
llvm::DWARFDebugLine::Prologue prologue;
if (!ParseLLVMLineTablePrologue(m_context, prologue, offset,
dwarf_cu->GetOffset()))
return false;
comp_unit.SetSupportFiles(ParseSupportFilesFromPrologue(
comp_unit.GetModule(), prologue, dwarf_cu->GetPathStyle(),
dwarf_cu->GetCompilationDirectory().GetCString()));
return true;
}
FileSpec SymbolFileDWARF::GetFile(DWARFUnit &unit, size_t file_idx) {
if (auto *dwarf_cu = llvm::dyn_cast<DWARFCompileUnit>(&unit)) {
if (CompileUnit *lldb_cu = GetCompUnitForDWARFCompUnit(*dwarf_cu))
return lldb_cu->GetSupportFiles().GetFileSpecAtIndex(file_idx);
return FileSpec();
}
auto &tu = llvm::cast<DWARFTypeUnit>(unit);
return GetTypeUnitSupportFiles(tu).GetFileSpecAtIndex(file_idx);
}
const FileSpecList &
SymbolFileDWARF::GetTypeUnitSupportFiles(DWARFTypeUnit &tu) {
static FileSpecList empty_list;
dw_offset_t offset = tu.GetLineTableOffset();
if (offset == DW_INVALID_OFFSET ||
offset == llvm::DenseMapInfo<dw_offset_t>::getEmptyKey() ||
offset == llvm::DenseMapInfo<dw_offset_t>::getTombstoneKey())
return empty_list;
// Many type units can share a line table, so parse the support file list
// once, and cache it based on the offset field.
auto iter_bool = m_type_unit_support_files.try_emplace(offset);
FileSpecList &list = iter_bool.first->second;
if (iter_bool.second) {
uint64_t line_table_offset = offset;
llvm::DWARFDataExtractor data = m_context.getOrLoadLineData().GetAsLLVM();
llvm::DWARFContext &ctx = m_context.GetAsLLVM();
llvm::DWARFDebugLine::Prologue prologue;
auto report = [](llvm::Error error) {
Log *log = LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO);
LLDB_LOG_ERROR(log, std::move(error),
"SymbolFileDWARF::GetTypeUnitSupportFiles failed to parse "
"the line table prologue");
};
llvm::Error error = prologue.parse(data, &line_table_offset, report, ctx);
if (error) {
report(std::move(error));
} else {
list = ParseSupportFilesFromPrologue(GetObjectFile()->GetModule(),
prologue, tu.GetPathStyle());
}
}
return list;
}
bool SymbolFileDWARF::ParseIsOptimized(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (dwarf_cu)
return dwarf_cu->GetIsOptimized();
return false;
}
bool SymbolFileDWARF::ParseImportedModules(
const lldb_private::SymbolContext &sc,
std::vector<SourceModule> &imported_modules) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
assert(sc.comp_unit);
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(sc.comp_unit);
if (!dwarf_cu)
return false;
if (!ClangModulesDeclVendor::LanguageSupportsClangModules(
sc.comp_unit->GetLanguage()))
return false;
UpdateExternalModuleListIfNeeded();
const DWARFDIE die = dwarf_cu->DIE();
if (!die)
return false;
for (DWARFDIE child_die = die.GetFirstChild(); child_die;
child_die = child_die.GetSibling()) {
if (child_die.Tag() != DW_TAG_imported_declaration)
continue;
DWARFDIE module_die = child_die.GetReferencedDIE(DW_AT_import);
if (module_die.Tag() != DW_TAG_module)
continue;
if (const char *name =
module_die.GetAttributeValueAsString(DW_AT_name, nullptr)) {
SourceModule module;
module.path.push_back(ConstString(name));
DWARFDIE parent_die = module_die;
while ((parent_die = parent_die.GetParent())) {
if (parent_die.Tag() != DW_TAG_module)
break;
if (const char *name =
parent_die.GetAttributeValueAsString(DW_AT_name, nullptr))
module.path.push_back(ConstString(name));
}
std::reverse(module.path.begin(), module.path.end());
if (const char *include_path = module_die.GetAttributeValueAsString(
DW_AT_LLVM_include_path, nullptr)) {
FileSpec include_spec(include_path, dwarf_cu->GetPathStyle());
MakeAbsoluteAndRemap(include_spec, *dwarf_cu, m_objfile_sp->GetModule());
module.search_path = ConstString(include_spec.GetPath());
}
if (const char *sysroot = dwarf_cu->DIE().GetAttributeValueAsString(
DW_AT_LLVM_sysroot, nullptr))
module.sysroot = ConstString(sysroot);
imported_modules.push_back(module);
}
}
return true;
}
bool SymbolFileDWARF::ParseLineTable(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
if (comp_unit.GetLineTable() != nullptr)
return true;
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (!dwarf_cu)
return false;
dw_offset_t offset = dwarf_cu->GetLineTableOffset();
if (offset == DW_INVALID_OFFSET)
return false;
llvm::DWARFDebugLine line;
const llvm::DWARFDebugLine::LineTable *line_table =
ParseLLVMLineTable(m_context, line, offset, dwarf_cu->GetOffset());
if (!line_table)
return false;
// FIXME: Rather than parsing the whole line table and then copying it over
// into LLDB, we should explore using a callback to populate the line table
// while we parse to reduce memory usage.
std::vector<std::unique_ptr<LineSequence>> sequences;
// The Sequences view contains only valid line sequences. Don't iterate over
// the Rows directly.
for (const llvm::DWARFDebugLine::Sequence &seq : line_table->Sequences) {
std::unique_ptr<LineSequence> sequence =
LineTable::CreateLineSequenceContainer();
for (unsigned idx = seq.FirstRowIndex; idx < seq.LastRowIndex; ++idx) {
const llvm::DWARFDebugLine::Row &row = line_table->Rows[idx];
LineTable::AppendLineEntryToSequence(
sequence.get(), row.Address.Address, row.Line, row.Column, row.File,
row.IsStmt, row.BasicBlock, row.PrologueEnd, row.EpilogueBegin,
row.EndSequence);
}
sequences.push_back(std::move(sequence));
}
std::unique_ptr<LineTable> line_table_up =
std::make_unique<LineTable>(&comp_unit, std::move(sequences));
if (SymbolFileDWARFDebugMap *debug_map_symfile = GetDebugMapSymfile()) {
// We have an object file that has a line table with addresses that are not
// linked. We need to link the line table and convert the addresses that
// are relative to the .o file into addresses for the main executable.
comp_unit.SetLineTable(
debug_map_symfile->LinkOSOLineTable(this, line_table_up.get()));
} else {
comp_unit.SetLineTable(line_table_up.release());
}
return true;
}
lldb_private::DebugMacrosSP
SymbolFileDWARF::ParseDebugMacros(lldb::offset_t *offset) {
auto iter = m_debug_macros_map.find(*offset);
if (iter != m_debug_macros_map.end())
return iter->second;
const DWARFDataExtractor &debug_macro_data = m_context.getOrLoadMacroData();
if (debug_macro_data.GetByteSize() == 0)
return DebugMacrosSP();
lldb_private::DebugMacrosSP debug_macros_sp(new lldb_private::DebugMacros());
m_debug_macros_map[*offset] = debug_macros_sp;
const DWARFDebugMacroHeader &header =
DWARFDebugMacroHeader::ParseHeader(debug_macro_data, offset);
DWARFDebugMacroEntry::ReadMacroEntries(
debug_macro_data, m_context.getOrLoadStrData(), header.OffsetIs64Bit(),
offset, this, debug_macros_sp);
return debug_macros_sp;
}
bool SymbolFileDWARF::ParseDebugMacros(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (dwarf_cu == nullptr)
return false;
const DWARFBaseDIE dwarf_cu_die = dwarf_cu->GetUnitDIEOnly();
if (!dwarf_cu_die)
return false;
lldb::offset_t sect_offset =
dwarf_cu_die.GetAttributeValueAsUnsigned(DW_AT_macros, DW_INVALID_OFFSET);
if (sect_offset == DW_INVALID_OFFSET)
sect_offset = dwarf_cu_die.GetAttributeValueAsUnsigned(DW_AT_GNU_macros,
DW_INVALID_OFFSET);
if (sect_offset == DW_INVALID_OFFSET)
return false;
comp_unit.SetDebugMacros(ParseDebugMacros(§_offset));
return true;
}
size_t SymbolFileDWARF::ParseBlocksRecursive(
lldb_private::CompileUnit &comp_unit, Block *parent_block,
const DWARFDIE &orig_die, addr_t subprogram_low_pc, uint32_t depth) {
size_t blocks_added = 0;
DWARFDIE die = orig_die;
while (die) {
dw_tag_t tag = die.Tag();
switch (tag) {
case DW_TAG_inlined_subroutine:
case DW_TAG_subprogram:
case DW_TAG_lexical_block: {
Block *block = nullptr;
if (tag == DW_TAG_subprogram) {
// Skip any DW_TAG_subprogram DIEs that are inside of a normal or
// inlined functions. These will be parsed on their own as separate
// entities.
if (depth > 0)
break;
block = parent_block;
} else {
BlockSP block_sp(new Block(die.GetID()));
parent_block->AddChild(block_sp);
block = block_sp.get();
}
DWARFRangeList ranges;
const char *name = nullptr;
const char *mangled_name = nullptr;
int decl_file = 0;
int decl_line = 0;
int decl_column = 0;
int call_file = 0;
int call_line = 0;
int call_column = 0;
if (die.GetDIENamesAndRanges(name, mangled_name, ranges, decl_file,
decl_line, decl_column, call_file, call_line,
call_column, nullptr)) {
if (tag == DW_TAG_subprogram) {
assert(subprogram_low_pc == LLDB_INVALID_ADDRESS);
subprogram_low_pc = ranges.GetMinRangeBase(0);
} else if (tag == DW_TAG_inlined_subroutine) {
// We get called here for inlined subroutines in two ways. The first
// time is when we are making the Function object for this inlined
// concrete instance. Since we're creating a top level block at
// here, the subprogram_low_pc will be LLDB_INVALID_ADDRESS. So we
// need to adjust the containing address. The second time is when we
// are parsing the blocks inside the function that contains the
// inlined concrete instance. Since these will be blocks inside the
// containing "real" function the offset will be for that function.
if (subprogram_low_pc == LLDB_INVALID_ADDRESS) {
subprogram_low_pc = ranges.GetMinRangeBase(0);
}
}
const size_t num_ranges = ranges.GetSize();
for (size_t i = 0; i < num_ranges; ++i) {
const DWARFRangeList::Entry &range = ranges.GetEntryRef(i);
const addr_t range_base = range.GetRangeBase();
if (range_base >= subprogram_low_pc)
block->AddRange(Block::Range(range_base - subprogram_low_pc,
range.GetByteSize()));
else {
GetObjectFile()->GetModule()->ReportError(
"0x%8.8" PRIx64 ": adding range [0x%" PRIx64 "-0x%" PRIx64
") which has a base that is less than the function's low PC "
"0x%" PRIx64 ". Please file a bug and attach the file at the "
"start of this error message",
block->GetID(), range_base, range.GetRangeEnd(),
subprogram_low_pc);
}
}
block->FinalizeRanges();
if (tag != DW_TAG_subprogram &&
(name != nullptr || mangled_name != nullptr)) {
std::unique_ptr<Declaration> decl_up;
if (decl_file != 0 || decl_line != 0 || decl_column != 0)
decl_up = std::make_unique<Declaration>(
comp_unit.GetSupportFiles().GetFileSpecAtIndex(decl_file),
decl_line, decl_column);
std::unique_ptr<Declaration> call_up;
if (call_file != 0 || call_line != 0 || call_column != 0)
call_up = std::make_unique<Declaration>(
comp_unit.GetSupportFiles().GetFileSpecAtIndex(call_file),
call_line, call_column);
block->SetInlinedFunctionInfo(name, mangled_name, decl_up.get(),
call_up.get());
}
++blocks_added;
if (die.HasChildren()) {
blocks_added +=
ParseBlocksRecursive(comp_unit, block, die.GetFirstChild(),
subprogram_low_pc, depth + 1);
}
}
} break;
default:
break;
}
// Only parse siblings of the block if we are not at depth zero. A depth of
// zero indicates we are currently parsing the top level DW_TAG_subprogram
// DIE
if (depth == 0)
die.Clear();
else
die = die.GetSibling();
}
return blocks_added;
}
bool SymbolFileDWARF::ClassOrStructIsVirtual(const DWARFDIE &parent_die) {
if (parent_die) {
for (DWARFDIE die = parent_die.GetFirstChild(); die;
die = die.GetSibling()) {
dw_tag_t tag = die.Tag();
bool check_virtuality = false;
switch (tag) {
case DW_TAG_inheritance:
case DW_TAG_subprogram:
check_virtuality = true;
break;
default:
break;
}
if (check_virtuality) {
if (die.GetAttributeValueAsUnsigned(DW_AT_virtuality, 0) != 0)
return true;
}
}
}
return false;
}
void SymbolFileDWARF::ParseDeclsForContext(CompilerDeclContext decl_ctx) {
auto *type_system = decl_ctx.GetTypeSystem();
if (type_system != nullptr)
type_system->GetDWARFParser()->EnsureAllDIEsInDeclContextHaveBeenParsed(
decl_ctx);
}
user_id_t SymbolFileDWARF::GetUID(DIERef ref) {
if (GetDebugMapSymfile())
return GetID() | ref.die_offset();
return user_id_t(GetDwoNum().getValueOr(0x7fffffff)) << 32 |
ref.die_offset() |
(lldb::user_id_t(ref.section() == DIERef::Section::DebugTypes) << 63);
}
llvm::Optional<SymbolFileDWARF::DecodedUID>
SymbolFileDWARF::DecodeUID(lldb::user_id_t uid) {
// This method can be called without going through the symbol vendor so we
// need to lock the module.
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
// Anytime we get a "lldb::user_id_t" from an lldb_private::SymbolFile API we
// must make sure we use the correct DWARF file when resolving things. On
// MacOSX, when using SymbolFileDWARFDebugMap, we will use multiple
// SymbolFileDWARF classes, one for each .o file. We can often end up with
// references to other DWARF objects and we must be ready to receive a
// "lldb::user_id_t" that specifies a DIE from another SymbolFileDWARF
// instance.
if (SymbolFileDWARFDebugMap *debug_map = GetDebugMapSymfile()) {
SymbolFileDWARF *dwarf = debug_map->GetSymbolFileByOSOIndex(
debug_map->GetOSOIndexFromUserID(uid));
return DecodedUID{
*dwarf, {llvm::None, DIERef::Section::DebugInfo, dw_offset_t(uid)}};
}
dw_offset_t die_offset = uid;
if (die_offset == DW_INVALID_OFFSET)
return llvm::None;
DIERef::Section section =
uid >> 63 ? DIERef::Section::DebugTypes : DIERef::Section::DebugInfo;
llvm::Optional<uint32_t> dwo_num = uid >> 32 & 0x7fffffff;
if (*dwo_num == 0x7fffffff)
dwo_num = llvm::None;
return DecodedUID{*this, {dwo_num, section, die_offset}};
}
DWARFDIE
SymbolFileDWARF::GetDIE(lldb::user_id_t uid) {
// This method can be called without going through the symbol vendor so we
// need to lock the module.
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
llvm::Optional<DecodedUID> decoded = DecodeUID(uid);
if (decoded)
return decoded->dwarf.GetDIE(decoded->ref);
return DWARFDIE();
}
CompilerDecl SymbolFileDWARF::GetDeclForUID(lldb::user_id_t type_uid) {
// This method can be called without going through the symbol vendor so we
// need to lock the module.
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
// Anytime we have a lldb::user_id_t, we must get the DIE by calling
// SymbolFileDWARF::GetDIE(). See comments inside the
// SymbolFileDWARF::GetDIE() for details.
if (DWARFDIE die = GetDIE(type_uid))
return GetDecl(die);
return CompilerDecl();
}
CompilerDeclContext
SymbolFileDWARF::GetDeclContextForUID(lldb::user_id_t type_uid) {
// This method can be called without going through the symbol vendor so we
// need to lock the module.
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
// Anytime we have a lldb::user_id_t, we must get the DIE by calling
// SymbolFileDWARF::GetDIE(). See comments inside the
// SymbolFileDWARF::GetDIE() for details.
if (DWARFDIE die = GetDIE(type_uid))
return GetDeclContext(die);
return CompilerDeclContext();
}
CompilerDeclContext
SymbolFileDWARF::GetDeclContextContainingUID(lldb::user_id_t type_uid) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
// Anytime we have a lldb::user_id_t, we must get the DIE by calling
// SymbolFileDWARF::GetDIE(). See comments inside the
// SymbolFileDWARF::GetDIE() for details.
if (DWARFDIE die = GetDIE(type_uid))
return GetContainingDeclContext(die);
return CompilerDeclContext();
}
Type *SymbolFileDWARF::ResolveTypeUID(lldb::user_id_t type_uid) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
// Anytime we have a lldb::user_id_t, we must get the DIE by calling
// SymbolFileDWARF::GetDIE(). See comments inside the
// SymbolFileDWARF::GetDIE() for details.
if (DWARFDIE type_die = GetDIE(type_uid))
return type_die.ResolveType();
else
return nullptr;
}
llvm::Optional<SymbolFile::ArrayInfo>
SymbolFileDWARF::GetDynamicArrayInfoForUID(
lldb::user_id_t type_uid, const lldb_private::ExecutionContext *exe_ctx) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
if (DWARFDIE type_die = GetDIE(type_uid))
return DWARFASTParser::ParseChildArrayInfo(type_die, exe_ctx);
else
return llvm::None;
}
Type *SymbolFileDWARF::ResolveTypeUID(const DIERef &die_ref) {
return ResolveType(GetDIE(die_ref), true);
}
Type *SymbolFileDWARF::ResolveTypeUID(const DWARFDIE &die,
bool assert_not_being_parsed) {
if (die) {
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO));
if (log)
GetObjectFile()->GetModule()->LogMessage(
log, "SymbolFileDWARF::ResolveTypeUID (die = 0x%8.8x) %s '%s'",
die.GetOffset(), die.GetTagAsCString(), die.GetName());
// We might be coming in in the middle of a type tree (a class within a
// class, an enum within a class), so parse any needed parent DIEs before
// we get to this one...
DWARFDIE decl_ctx_die = GetDeclContextDIEContainingDIE(die);
if (decl_ctx_die) {
if (log) {
switch (decl_ctx_die.Tag()) {
case DW_TAG_structure_type:
case DW_TAG_union_type:
case DW_TAG_class_type: {
// Get the type, which could be a forward declaration
if (log)
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::ResolveTypeUID (die = 0x%8.8x) %s '%s' "
"resolve parent forward type for 0x%8.8x",
die.GetOffset(), die.GetTagAsCString(), die.GetName(),
decl_ctx_die.GetOffset());
} break;
default:
break;
}
}
}
return ResolveType(die);
}
return nullptr;
}
// This function is used when SymbolFileDWARFDebugMap owns a bunch of
// SymbolFileDWARF objects to detect if this DWARF file is the one that can
// resolve a compiler_type.
bool SymbolFileDWARF::HasForwardDeclForClangType(
const CompilerType &compiler_type) {
CompilerType compiler_type_no_qualifiers =
ClangUtil::RemoveFastQualifiers(compiler_type);
if (GetForwardDeclClangTypeToDie().count(
compiler_type_no_qualifiers.GetOpaqueQualType())) {
return true;
}
TypeSystem *type_system = compiler_type.GetTypeSystem();
TypeSystemClang *clang_type_system =
llvm::dyn_cast_or_null<TypeSystemClang>(type_system);
if (!clang_type_system)
return false;
DWARFASTParserClang *ast_parser =
static_cast<DWARFASTParserClang *>(clang_type_system->GetDWARFParser());
return ast_parser->GetClangASTImporter().CanImport(compiler_type);
}
bool SymbolFileDWARF::CompleteType(CompilerType &compiler_type) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
TypeSystemClang *clang_type_system =
llvm::dyn_cast_or_null<TypeSystemClang>(compiler_type.GetTypeSystem());
if (clang_type_system) {
DWARFASTParserClang *ast_parser =
static_cast<DWARFASTParserClang *>(clang_type_system->GetDWARFParser());
if (ast_parser &&
ast_parser->GetClangASTImporter().CanImport(compiler_type))
return ast_parser->GetClangASTImporter().CompleteType(compiler_type);
}
// We have a struct/union/class/enum that needs to be fully resolved.
CompilerType compiler_type_no_qualifiers =
ClangUtil::RemoveFastQualifiers(compiler_type);
auto die_it = GetForwardDeclClangTypeToDie().find(
compiler_type_no_qualifiers.GetOpaqueQualType());
if (die_it == GetForwardDeclClangTypeToDie().end()) {
// We have already resolved this type...
return true;
}
DWARFDIE dwarf_die = GetDIE(die_it->getSecond());
if (dwarf_die) {
// Once we start resolving this type, remove it from the forward
// declaration map in case anyone child members or other types require this
// type to get resolved. The type will get resolved when all of the calls
// to SymbolFileDWARF::ResolveClangOpaqueTypeDefinition are done.
GetForwardDeclClangTypeToDie().erase(die_it);
Type *type = GetDIEToType().lookup(dwarf_die.GetDIE());
Log *log(LogChannelDWARF::GetLogIfAny(DWARF_LOG_DEBUG_INFO |
DWARF_LOG_TYPE_COMPLETION));
if (log)
GetObjectFile()->GetModule()->LogMessageVerboseBacktrace(
log, "0x%8.8" PRIx64 ": %s '%s' resolving forward declaration...",
dwarf_die.GetID(), dwarf_die.GetTagAsCString(),
type->GetName().AsCString());
assert(compiler_type);
if (DWARFASTParser *dwarf_ast = GetDWARFParser(*dwarf_die.GetCU()))
return dwarf_ast->CompleteTypeFromDWARF(dwarf_die, type, compiler_type);
}
return false;
}
Type *SymbolFileDWARF::ResolveType(const DWARFDIE &die,
bool assert_not_being_parsed,
bool resolve_function_context) {
if (die) {
Type *type = GetTypeForDIE(die, resolve_function_context).get();
if (assert_not_being_parsed) {
if (type != DIE_IS_BEING_PARSED)
return type;
GetObjectFile()->GetModule()->ReportError(
"Parsing a die that is being parsed die: 0x%8.8x: %s %s",
die.GetOffset(), die.GetTagAsCString(), die.GetName());
} else
return type;
}
return nullptr;
}
CompileUnit *
SymbolFileDWARF::GetCompUnitForDWARFCompUnit(DWARFCompileUnit &dwarf_cu) {
if (dwarf_cu.IsDWOUnit()) {
DWARFCompileUnit *non_dwo_cu =
static_cast<DWARFCompileUnit *>(dwarf_cu.GetUserData());
assert(non_dwo_cu);
return non_dwo_cu->GetSymbolFileDWARF().GetCompUnitForDWARFCompUnit(
*non_dwo_cu);
}
// Check if the symbol vendor already knows about this compile unit?
if (dwarf_cu.GetUserData() == nullptr) {
// The symbol vendor doesn't know about this compile unit, we need to parse
// and add it to the symbol vendor object.
return ParseCompileUnit(dwarf_cu).get();
}
return static_cast<CompileUnit *>(dwarf_cu.GetUserData());
}
void SymbolFileDWARF::GetObjCMethods(
ConstString class_name, llvm::function_ref<bool(DWARFDIE die)> callback) {
m_index->GetObjCMethods(class_name, callback);
}
bool SymbolFileDWARF::GetFunction(const DWARFDIE &die, SymbolContext &sc) {
sc.Clear(false);
if (die && llvm::isa<DWARFCompileUnit>(die.GetCU())) {
// Check if the symbol vendor already knows about this compile unit?
sc.comp_unit =
GetCompUnitForDWARFCompUnit(llvm::cast<DWARFCompileUnit>(*die.GetCU()));
sc.function = sc.comp_unit->FindFunctionByUID(die.GetID()).get();
if (sc.function == nullptr)
sc.function = ParseFunction(*sc.comp_unit, die);
if (sc.function) {
sc.module_sp = sc.function->CalculateSymbolContextModule();
return true;
}
}
return false;
}
lldb::ModuleSP SymbolFileDWARF::GetExternalModule(ConstString name) {
UpdateExternalModuleListIfNeeded();
const auto &pos = m_external_type_modules.find(name);
if (pos != m_external_type_modules.end())
return pos->second;
else
return lldb::ModuleSP();
}
DWARFDIE
SymbolFileDWARF::GetDIE(const DIERef &die_ref) {
if (die_ref.dwo_num()) {
SymbolFileDWARF *dwarf = *die_ref.dwo_num() == 0x3fffffff
? m_dwp_symfile.get()
: this->DebugInfo()
.GetUnitAtIndex(*die_ref.dwo_num())
->GetDwoSymbolFile();
return dwarf->DebugInfo().GetDIE(die_ref);
}
return DebugInfo().GetDIE(die_ref);
}
/// Return the DW_AT_(GNU_)dwo_name.
static const char *GetDWOName(DWARFCompileUnit &dwarf_cu,
const DWARFDebugInfoEntry &cu_die) {
const char *dwo_name =
cu_die.GetAttributeValueAsString(&dwarf_cu, DW_AT_GNU_dwo_name, nullptr);
if (!dwo_name)
dwo_name =
cu_die.GetAttributeValueAsString(&dwarf_cu, DW_AT_dwo_name, nullptr);
return dwo_name;
}
/// Return the DW_AT_(GNU_)dwo_id.
/// FIXME: Technically 0 is a valid hash.
static uint64_t GetDWOId(DWARFCompileUnit &dwarf_cu,
const DWARFDebugInfoEntry &cu_die) {
uint64_t dwo_id =
cu_die.GetAttributeValueAsUnsigned(&dwarf_cu, DW_AT_GNU_dwo_id, 0);
if (!dwo_id)
dwo_id = cu_die.GetAttributeValueAsUnsigned(&dwarf_cu, DW_AT_dwo_id, 0);
return dwo_id;
}
llvm::Optional<uint64_t> SymbolFileDWARF::GetDWOId() {
if (GetNumCompileUnits() == 1) {
if (auto comp_unit = GetCompileUnitAtIndex(0))
if (DWARFCompileUnit *cu = llvm::dyn_cast_or_null<DWARFCompileUnit>(
GetDWARFCompileUnit(comp_unit.get())))
if (DWARFDebugInfoEntry *cu_die = cu->DIE().GetDIE())
if (uint64_t dwo_id = ::GetDWOId(*cu, *cu_die))
return dwo_id;
}
return {};
}
std::shared_ptr<SymbolFileDWARFDwo>
SymbolFileDWARF::GetDwoSymbolFileForCompileUnit(
DWARFUnit &unit, const DWARFDebugInfoEntry &cu_die) {
// If this is a Darwin-style debug map (non-.dSYM) symbol file,
// never attempt to load ELF-style DWO files since the -gmodules
// support uses the same DWO machanism to specify full debug info
// files for modules. This is handled in
// UpdateExternalModuleListIfNeeded().
if (GetDebugMapSymfile())
return nullptr;
DWARFCompileUnit *dwarf_cu = llvm::dyn_cast<DWARFCompileUnit>(&unit);
// Only compile units can be split into two parts.
if (!dwarf_cu)
return nullptr;
const char *dwo_name = GetDWOName(*dwarf_cu, cu_die);
if (!dwo_name)
return nullptr;
if (std::shared_ptr<SymbolFileDWARFDwo> dwp_sp = GetDwpSymbolFile())
return dwp_sp;
FileSpec dwo_file(dwo_name);
FileSystem::Instance().Resolve(dwo_file);
if (dwo_file.IsRelative()) {
const char *comp_dir =
cu_die.GetAttributeValueAsString(dwarf_cu, DW_AT_comp_dir, nullptr);
if (!comp_dir)
return nullptr;
dwo_file.SetFile(comp_dir, FileSpec::Style::native);
FileSystem::Instance().Resolve(dwo_file);
dwo_file.AppendPathComponent(dwo_name);
}
if (!FileSystem::Instance().Exists(dwo_file))
return nullptr;
const lldb::offset_t file_offset = 0;
DataBufferSP dwo_file_data_sp;
lldb::offset_t dwo_file_data_offset = 0;
ObjectFileSP dwo_obj_file = ObjectFile::FindPlugin(
GetObjectFile()->GetModule(), &dwo_file, file_offset,
FileSystem::Instance().GetByteSize(dwo_file), dwo_file_data_sp,
dwo_file_data_offset);
if (dwo_obj_file == nullptr)
return nullptr;
return std::make_shared<SymbolFileDWARFDwo>(*this, dwo_obj_file,
dwarf_cu->GetID());
}
void SymbolFileDWARF::UpdateExternalModuleListIfNeeded() {
if (m_fetched_external_modules)
return;
m_fetched_external_modules = true;
DWARFDebugInfo &debug_info = DebugInfo();
// Follow DWO skeleton unit breadcrumbs.
const uint32_t num_compile_units = GetNumCompileUnits();
for (uint32_t cu_idx = 0; cu_idx < num_compile_units; ++cu_idx) {
auto *dwarf_cu =
llvm::dyn_cast<DWARFCompileUnit>(debug_info.GetUnitAtIndex(cu_idx));
if (!dwarf_cu)
continue;
const DWARFBaseDIE die = dwarf_cu->GetUnitDIEOnly();
if (!die || die.HasChildren() || !die.GetDIE())
continue;
const char *name = die.GetAttributeValueAsString(DW_AT_name, nullptr);
if (!name)
continue;
ConstString const_name(name);
ModuleSP &module_sp = m_external_type_modules[const_name];
if (module_sp)
continue;
const char *dwo_path = GetDWOName(*dwarf_cu, *die.GetDIE());
if (!dwo_path)
continue;
ModuleSpec dwo_module_spec;
dwo_module_spec.GetFileSpec().SetFile(dwo_path, FileSpec::Style::native);
if (dwo_module_spec.GetFileSpec().IsRelative()) {
const char *comp_dir =
die.GetAttributeValueAsString(DW_AT_comp_dir, nullptr);
if (comp_dir) {
dwo_module_spec.GetFileSpec().SetFile(comp_dir,
FileSpec::Style::native);
FileSystem::Instance().Resolve(dwo_module_spec.GetFileSpec());
dwo_module_spec.GetFileSpec().AppendPathComponent(dwo_path);
}
}
dwo_module_spec.GetArchitecture() =
m_objfile_sp->GetModule()->GetArchitecture();
// When LLDB loads "external" modules it looks at the presence of
// DW_AT_dwo_name. However, when the already created module
// (corresponding to .dwo itself) is being processed, it will see
// the presence of DW_AT_dwo_name (which contains the name of dwo
// file) and will try to call ModuleList::GetSharedModule
// again. In some cases (i.e., for empty files) Clang 4.0
// generates a *.dwo file which has DW_AT_dwo_name, but no
// DW_AT_comp_dir. In this case the method
// ModuleList::GetSharedModule will fail and the warning will be
// printed. However, as one can notice in this case we don't
// actually need to try to load the already loaded module
// (corresponding to .dwo) so we simply skip it.
if (m_objfile_sp->GetFileSpec().GetFileNameExtension() == ".dwo" &&
llvm::StringRef(m_objfile_sp->GetFileSpec().GetPath())
.endswith(dwo_module_spec.GetFileSpec().GetPath())) {
continue;
}
Status error = ModuleList::GetSharedModule(dwo_module_spec, module_sp,
nullptr, nullptr, nullptr);
if (!module_sp) {
GetObjectFile()->GetModule()->ReportWarning(
"0x%8.8x: unable to locate module needed for external types: "
"%s\nerror: %s\nDebugging will be degraded due to missing "
"types. Rebuilding the project will regenerate the needed "
"module files.",
die.GetOffset(), dwo_module_spec.GetFileSpec().GetPath().c_str(),
error.AsCString("unknown error"));
continue;
}
// Verify the DWO hash.
// FIXME: Technically "0" is a valid hash.
uint64_t dwo_id = ::GetDWOId(*dwarf_cu, *die.GetDIE());
if (!dwo_id)
continue;
auto *dwo_symfile =
llvm::dyn_cast_or_null<SymbolFileDWARF>(module_sp->GetSymbolFile());
if (!dwo_symfile)
continue;
llvm::Optional<uint64_t> dwo_dwo_id = dwo_symfile->GetDWOId();
if (!dwo_dwo_id)
continue;
if (dwo_id != dwo_dwo_id) {
GetObjectFile()->GetModule()->ReportWarning(
"0x%8.8x: Module %s is out-of-date (hash mismatch). Type information "
"from this module may be incomplete or inconsistent with the rest of "
"the program. Rebuilding the project will regenerate the needed "
"module files.",
die.GetOffset(), dwo_module_spec.GetFileSpec().GetPath().c_str());
}
}
}
SymbolFileDWARF::GlobalVariableMap &SymbolFileDWARF::GetGlobalAranges() {
if (!m_global_aranges_up) {
m_global_aranges_up = std::make_unique<GlobalVariableMap>();
ModuleSP module_sp = GetObjectFile()->GetModule();
if (module_sp) {
const size_t num_cus = module_sp->GetNumCompileUnits();
for (size_t i = 0; i < num_cus; ++i) {
CompUnitSP cu_sp = module_sp->GetCompileUnitAtIndex(i);
if (cu_sp) {
VariableListSP globals_sp = cu_sp->GetVariableList(true);
if (globals_sp) {
const size_t num_globals = globals_sp->GetSize();
for (size_t g = 0; g < num_globals; ++g) {
VariableSP var_sp = globals_sp->GetVariableAtIndex(g);
if (var_sp && !var_sp->GetLocationIsConstantValueData()) {
const DWARFExpression &location = var_sp->LocationExpression();
Value location_result;
Status error;
if (location.Evaluate(nullptr, LLDB_INVALID_ADDRESS, nullptr,
nullptr, location_result, &error)) {
if (location_result.GetValueType() ==
Value::eValueTypeFileAddress) {
lldb::addr_t file_addr =
location_result.GetScalar().ULongLong();
lldb::addr_t byte_size = 1;
if (var_sp->GetType())
byte_size =
var_sp->GetType()->GetByteSize(nullptr).getValueOr(0);
m_global_aranges_up->Append(GlobalVariableMap::Entry(
file_addr, byte_size, var_sp.get()));
}
}
}
}
}
}
}
}
m_global_aranges_up->Sort();
}
return *m_global_aranges_up;
}
void SymbolFileDWARF::ResolveFunctionAndBlock(lldb::addr_t file_vm_addr,
bool lookup_block,
SymbolContext &sc) {
assert(sc.comp_unit);
DWARFUnit &cu = GetDWARFCompileUnit(sc.comp_unit)->GetNonSkeletonUnit();
DWARFDIE function_die = cu.LookupAddress(file_vm_addr);
DWARFDIE block_die;
if (function_die) {
sc.function = sc.comp_unit->FindFunctionByUID(function_die.GetID()).get();
if (sc.function == nullptr)
sc.function = ParseFunction(*sc.comp_unit, function_die);
if (sc.function && lookup_block)
block_die = function_die.LookupDeepestBlock(file_vm_addr);
}
if (!sc.function || ! lookup_block)
return;
Block &block = sc.function->GetBlock(true);
if (block_die)
sc.block = block.FindBlockByID(block_die.GetID());
else
sc.block = block.FindBlockByID(function_die.GetID());
}
uint32_t SymbolFileDWARF::ResolveSymbolContext(const Address &so_addr,
SymbolContextItem resolve_scope,
SymbolContext &sc) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat,
"SymbolFileDWARF::"
"ResolveSymbolContext (so_addr = { "
"section = %p, offset = 0x%" PRIx64
" }, resolve_scope = 0x%8.8x)",
static_cast<void *>(so_addr.GetSection().get()),
so_addr.GetOffset(), resolve_scope);
uint32_t resolved = 0;
if (resolve_scope &
(eSymbolContextCompUnit | eSymbolContextFunction | eSymbolContextBlock |
eSymbolContextLineEntry | eSymbolContextVariable)) {
lldb::addr_t file_vm_addr = so_addr.GetFileAddress();
DWARFDebugInfo &debug_info = DebugInfo();
llvm::Expected<DWARFDebugAranges &> aranges =
debug_info.GetCompileUnitAranges();
if (!aranges) {
Log *log = LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO);
LLDB_LOG_ERROR(log, aranges.takeError(),
"SymbolFileDWARF::ResolveSymbolContext failed to get cu "
"aranges. {0}");
return 0;
}
const dw_offset_t cu_offset = aranges->FindAddress(file_vm_addr);
if (cu_offset == DW_INVALID_OFFSET) {
// Global variables are not in the compile unit address ranges. The only
// way to currently find global variables is to iterate over the
// .debug_pubnames or the __apple_names table and find all items in there
// that point to DW_TAG_variable DIEs and then find the address that
// matches.
if (resolve_scope & eSymbolContextVariable) {
GlobalVariableMap &map = GetGlobalAranges();
const GlobalVariableMap::Entry *entry =
map.FindEntryThatContains(file_vm_addr);
if (entry && entry->data) {
Variable *variable = entry->data;
SymbolContextScope *scc = variable->GetSymbolContextScope();
if (scc) {
scc->CalculateSymbolContext(&sc);
sc.variable = variable;
}
return sc.GetResolvedMask();
}
}
} else {
uint32_t cu_idx = DW_INVALID_INDEX;
if (auto *dwarf_cu = llvm::dyn_cast_or_null<DWARFCompileUnit>(
debug_info.GetUnitAtOffset(DIERef::Section::DebugInfo, cu_offset,
&cu_idx))) {
sc.comp_unit = GetCompUnitForDWARFCompUnit(*dwarf_cu);
if (sc.comp_unit) {
resolved |= eSymbolContextCompUnit;
bool force_check_line_table = false;
if (resolve_scope & (eSymbolContextFunction | eSymbolContextBlock)) {
ResolveFunctionAndBlock(file_vm_addr,
resolve_scope & eSymbolContextBlock, sc);
if (sc.function)
resolved |= eSymbolContextFunction;
else {
// We might have had a compile unit that had discontiguous address
// ranges where the gaps are symbols that don't have any debug
// info. Discontiguous compile unit address ranges should only
// happen when there aren't other functions from other compile
// units in these gaps. This helps keep the size of the aranges
// down.
force_check_line_table = true;
}
if (sc.block)
resolved |= eSymbolContextBlock;
}
if ((resolve_scope & eSymbolContextLineEntry) ||
force_check_line_table) {
LineTable *line_table = sc.comp_unit->GetLineTable();
if (line_table != nullptr) {
// And address that makes it into this function should be in terms
// of this debug file if there is no debug map, or it will be an
// address in the .o file which needs to be fixed up to be in
// terms of the debug map executable. Either way, calling
// FixupAddress() will work for us.
Address exe_so_addr(so_addr);
if (FixupAddress(exe_so_addr)) {
if (line_table->FindLineEntryByAddress(exe_so_addr,
sc.line_entry)) {
resolved |= eSymbolContextLineEntry;
}
}
}
}
if (force_check_line_table && !(resolved & eSymbolContextLineEntry)) {
// We might have had a compile unit that had discontiguous address
// ranges where the gaps are symbols that don't have any debug info.
// Discontiguous compile unit address ranges should only happen when
// there aren't other functions from other compile units in these
// gaps. This helps keep the size of the aranges down.
sc.comp_unit = nullptr;
resolved &= ~eSymbolContextCompUnit;
}
} else {
GetObjectFile()->GetModule()->ReportWarning(
"0x%8.8x: compile unit %u failed to create a valid "
"lldb_private::CompileUnit class.",
cu_offset, cu_idx);
}
}
}
}
return resolved;
}
uint32_t SymbolFileDWARF::ResolveSymbolContext(const FileSpec &file_spec,
uint32_t line,
bool check_inlines,
SymbolContextItem resolve_scope,
SymbolContextList &sc_list) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
const uint32_t prev_size = sc_list.GetSize();
if (resolve_scope & eSymbolContextCompUnit) {
for (uint32_t cu_idx = 0, num_cus = GetNumCompileUnits(); cu_idx < num_cus;
++cu_idx) {
CompileUnit *dc_cu = ParseCompileUnitAtIndex(cu_idx).get();
if (!dc_cu)
continue;
bool file_spec_matches_cu_file_spec =
FileSpec::Match(file_spec, dc_cu->GetPrimaryFile());
if (check_inlines || file_spec_matches_cu_file_spec) {
SymbolContext sc(m_objfile_sp->GetModule());
sc.comp_unit = dc_cu;
uint32_t file_idx = UINT32_MAX;
// If we are looking for inline functions only and we don't find it
// in the support files, we are done.
if (check_inlines) {
file_idx =
sc.comp_unit->GetSupportFiles().FindFileIndex(1, file_spec, true);
if (file_idx == UINT32_MAX)
continue;
}
if (line != 0) {
LineTable *line_table = sc.comp_unit->GetLineTable();
if (line_table != nullptr && line != 0) {
// We will have already looked up the file index if we are
// searching for inline entries.
if (!check_inlines)
file_idx = sc.comp_unit->GetSupportFiles().FindFileIndex(
1, file_spec, true);
if (file_idx != UINT32_MAX) {
uint32_t found_line;
uint32_t line_idx = line_table->FindLineEntryIndexByFileIndex(
0, file_idx, line, false, &sc.line_entry);
found_line = sc.line_entry.line;
while (line_idx != UINT32_MAX) {
sc.function = nullptr;
sc.block = nullptr;
if (resolve_scope &
(eSymbolContextFunction | eSymbolContextBlock)) {
const lldb::addr_t file_vm_addr =
sc.line_entry.range.GetBaseAddress().GetFileAddress();
if (file_vm_addr != LLDB_INVALID_ADDRESS) {
ResolveFunctionAndBlock(
file_vm_addr, resolve_scope & eSymbolContextBlock, sc);
}
}
sc_list.Append(sc);
line_idx = line_table->FindLineEntryIndexByFileIndex(
line_idx + 1, file_idx, found_line, true, &sc.line_entry);
}
}
} else if (file_spec_matches_cu_file_spec && !check_inlines) {
// only append the context if we aren't looking for inline call
// sites by file and line and if the file spec matches that of
// the compile unit
sc_list.Append(sc);
}
} else if (file_spec_matches_cu_file_spec && !check_inlines) {
// only append the context if we aren't looking for inline call
// sites by file and line and if the file spec matches that of
// the compile unit
sc_list.Append(sc);
}
if (!check_inlines)
break;
}
}
}
return sc_list.GetSize() - prev_size;
}
void SymbolFileDWARF::PreloadSymbols() {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
m_index->Preload();
}
std::recursive_mutex &SymbolFileDWARF::GetModuleMutex() const {
lldb::ModuleSP module_sp(m_debug_map_module_wp.lock());
if (module_sp)
return module_sp->GetMutex();
return GetObjectFile()->GetModule()->GetMutex();
}
bool SymbolFileDWARF::DeclContextMatchesThisSymbolFile(
const lldb_private::CompilerDeclContext &decl_ctx) {
if (!decl_ctx.IsValid()) {
// Invalid namespace decl which means we aren't matching only things in
// this symbol file, so return true to indicate it matches this symbol
// file.
return true;
}
TypeSystem *decl_ctx_type_system = decl_ctx.GetTypeSystem();
auto type_system_or_err = GetTypeSystemForLanguage(
decl_ctx_type_system->GetMinimumLanguage(nullptr));
if (auto err = type_system_or_err.takeError()) {
LLDB_LOG_ERROR(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_SYMBOLS),
std::move(err),
"Unable to match namespace decl using TypeSystem");
return false;
}
if (decl_ctx_type_system == &type_system_or_err.get())
return true; // The type systems match, return true
// The namespace AST was valid, and it does not match...
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS));
if (log)
GetObjectFile()->GetModule()->LogMessage(
log, "Valid namespace does not match symbol file");
return false;
}
void SymbolFileDWARF::FindGlobalVariables(
ConstString name, const CompilerDeclContext &parent_decl_ctx,
uint32_t max_matches, VariableList &variables) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS));
if (log)
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindGlobalVariables (name=\"%s\", "
"parent_decl_ctx=%p, max_matches=%u, variables)",
name.GetCString(), static_cast<const void *>(&parent_decl_ctx),
max_matches);
if (!DeclContextMatchesThisSymbolFile(parent_decl_ctx))
return;
// Remember how many variables are in the list before we search.
const uint32_t original_size = variables.GetSize();
llvm::StringRef basename;
llvm::StringRef context;
bool name_is_mangled = (bool)Mangled(name);
if (!CPlusPlusLanguage::ExtractContextAndIdentifier(name.GetCString(),
context, basename))
basename = name.GetStringRef();
// Loop invariant: Variables up to this index have been checked for context
// matches.
uint32_t pruned_idx = original_size;
SymbolContext sc;
m_index->GetGlobalVariables(ConstString(basename), [&](DWARFDIE die) {
if (!sc.module_sp)
sc.module_sp = m_objfile_sp->GetModule();
assert(sc.module_sp);
if (die.Tag() != DW_TAG_variable)
return true;
auto *dwarf_cu = llvm::dyn_cast<DWARFCompileUnit>(die.GetCU());
if (!dwarf_cu)
return true;
sc.comp_unit = GetCompUnitForDWARFCompUnit(*dwarf_cu);
if (parent_decl_ctx) {
if (DWARFASTParser *dwarf_ast = GetDWARFParser(*die.GetCU())) {
CompilerDeclContext actual_parent_decl_ctx =
dwarf_ast->GetDeclContextContainingUIDFromDWARF(die);
if (!actual_parent_decl_ctx ||
actual_parent_decl_ctx != parent_decl_ctx)
return true;
}
}
ParseVariables(sc, die, LLDB_INVALID_ADDRESS, false, false, &variables);
while (pruned_idx < variables.GetSize()) {
VariableSP var_sp = variables.GetVariableAtIndex(pruned_idx);
if (name_is_mangled ||
var_sp->GetName().GetStringRef().contains(name.GetStringRef()))
++pruned_idx;
else
variables.RemoveVariableAtIndex(pruned_idx);
}
return variables.GetSize() - original_size < max_matches;
});
// Return the number of variable that were appended to the list
const uint32_t num_matches = variables.GetSize() - original_size;
if (log && num_matches > 0) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindGlobalVariables (name=\"%s\", "
"parent_decl_ctx=%p, max_matches=%u, variables) => %u",
name.GetCString(), static_cast<const void *>(&parent_decl_ctx),
max_matches, num_matches);
}
}
void SymbolFileDWARF::FindGlobalVariables(const RegularExpression ®ex,
uint32_t max_matches,
VariableList &variables) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS));
if (log) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindGlobalVariables (regex=\"%s\", "
"max_matches=%u, variables)",
regex.GetText().str().c_str(), max_matches);
}
// Remember how many variables are in the list before we search.
const uint32_t original_size = variables.GetSize();
SymbolContext sc;
m_index->GetGlobalVariables(regex, [&](DWARFDIE die) {
if (!sc.module_sp)
sc.module_sp = m_objfile_sp->GetModule();
assert(sc.module_sp);
DWARFCompileUnit *dwarf_cu = llvm::dyn_cast<DWARFCompileUnit>(die.GetCU());
if (!dwarf_cu)
return true;
sc.comp_unit = GetCompUnitForDWARFCompUnit(*dwarf_cu);
ParseVariables(sc, die, LLDB_INVALID_ADDRESS, false, false, &variables);
return variables.GetSize() - original_size < max_matches;
});
}
bool SymbolFileDWARF::ResolveFunction(const DWARFDIE &orig_die,
bool include_inlines,
SymbolContextList &sc_list) {
SymbolContext sc;
if (!orig_die)
return false;
// If we were passed a die that is not a function, just return false...
if (!(orig_die.Tag() == DW_TAG_subprogram ||
(include_inlines && orig_die.Tag() == DW_TAG_inlined_subroutine)))
return false;
DWARFDIE die = orig_die;
DWARFDIE inlined_die;
if (die.Tag() == DW_TAG_inlined_subroutine) {
inlined_die = die;
while (true) {
die = die.GetParent();
if (die) {
if (die.Tag() == DW_TAG_subprogram)
break;
} else
break;
}
}
assert(die && die.Tag() == DW_TAG_subprogram);
if (GetFunction(die, sc)) {
Address addr;
// Parse all blocks if needed
if (inlined_die) {
Block &function_block = sc.function->GetBlock(true);
sc.block = function_block.FindBlockByID(inlined_die.GetID());
if (sc.block == nullptr)
sc.block = function_block.FindBlockByID(inlined_die.GetOffset());
if (sc.block == nullptr || !sc.block->GetStartAddress(addr))
addr.Clear();
} else {
sc.block = nullptr;
addr = sc.function->GetAddressRange().GetBaseAddress();
}
if (auto section_sp = addr.GetSection()) {
if (section_sp->GetPermissions() & ePermissionsExecutable) {
sc_list.Append(sc);
return true;
}
}
}
return false;
}
bool SymbolFileDWARF::DIEInDeclContext(const CompilerDeclContext &decl_ctx,
const DWARFDIE &die) {
// If we have no parent decl context to match this DIE matches, and if the
// parent decl context isn't valid, we aren't trying to look for any
// particular decl context so any die matches.
if (!decl_ctx.IsValid())
return true;
if (die) {
if (DWARFASTParser *dwarf_ast = GetDWARFParser(*die.GetCU())) {
if (CompilerDeclContext actual_decl_ctx =
dwarf_ast->GetDeclContextContainingUIDFromDWARF(die))
return decl_ctx.IsContainedInLookup(actual_decl_ctx);
}
}
return false;
}
void SymbolFileDWARF::FindFunctions(ConstString name,
const CompilerDeclContext &parent_decl_ctx,
FunctionNameType name_type_mask,
bool include_inlines,
SymbolContextList &sc_list) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat, "SymbolFileDWARF::FindFunctions (name = '%s')",
name.AsCString());
// eFunctionNameTypeAuto should be pre-resolved by a call to
// Module::LookupInfo::LookupInfo()
assert((name_type_mask & eFunctionNameTypeAuto) == 0);
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS));
if (log) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindFunctions (name=\"%s\", name_type_mask=0x%x, sc_list)",
name.GetCString(), name_type_mask);
}
if (!DeclContextMatchesThisSymbolFile(parent_decl_ctx))
return;
// If name is empty then we won't find anything.
if (name.IsEmpty())
return;
// Remember how many sc_list are in the list before we search in case we are
// appending the results to a variable list.
const uint32_t original_size = sc_list.GetSize();
llvm::DenseSet<const DWARFDebugInfoEntry *> resolved_dies;
m_index->GetFunctions(name, *this, parent_decl_ctx, name_type_mask,
[&](DWARFDIE die) {
if (resolved_dies.insert(die.GetDIE()).second)
ResolveFunction(die, include_inlines, sc_list);
return true;
});
// Return the number of variable that were appended to the list
const uint32_t num_matches = sc_list.GetSize() - original_size;
if (log && num_matches > 0) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindFunctions (name=\"%s\", "
"name_type_mask=0x%x, include_inlines=%d, sc_list) => %u",
name.GetCString(), name_type_mask, include_inlines,
num_matches);
}
}
void SymbolFileDWARF::FindFunctions(const RegularExpression ®ex,
bool include_inlines,
SymbolContextList &sc_list) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat, "SymbolFileDWARF::FindFunctions (regex = '%s')",
regex.GetText().str().c_str());
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS));
if (log) {
GetObjectFile()->GetModule()->LogMessage(
log, "SymbolFileDWARF::FindFunctions (regex=\"%s\", sc_list)",
regex.GetText().str().c_str());
}
llvm::DenseSet<const DWARFDebugInfoEntry *> resolved_dies;
m_index->GetFunctions(regex, [&](DWARFDIE die) {
if (resolved_dies.insert(die.GetDIE()).second)
ResolveFunction(die, include_inlines, sc_list);
return true;
});
}
void SymbolFileDWARF::GetMangledNamesForFunction(
const std::string &scope_qualified_name,
std::vector<ConstString> &mangled_names) {
DWARFDebugInfo &info = DebugInfo();
uint32_t num_comp_units = info.GetNumUnits();
for (uint32_t i = 0; i < num_comp_units; i++) {
DWARFUnit *cu = info.GetUnitAtIndex(i);
if (cu == nullptr)
continue;
SymbolFileDWARFDwo *dwo = cu->GetDwoSymbolFile();
if (dwo)
dwo->GetMangledNamesForFunction(scope_qualified_name, mangled_names);
}
for (DIERef die_ref :
m_function_scope_qualified_name_map.lookup(scope_qualified_name)) {
DWARFDIE die = GetDIE(die_ref);
mangled_names.push_back(ConstString(die.GetMangledName()));
}
}
void SymbolFileDWARF::FindTypes(
ConstString name, const CompilerDeclContext &parent_decl_ctx,
uint32_t max_matches,
llvm::DenseSet<lldb_private::SymbolFile *> &searched_symbol_files,
TypeMap &types) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
// Make sure we haven't already searched this SymbolFile before.
if (!searched_symbol_files.insert(this).second)
return;
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS));
if (log) {
if (parent_decl_ctx)
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindTypes (sc, name=\"%s\", parent_decl_ctx = "
"%p (\"%s\"), max_matches=%u, type_list)",
name.GetCString(), static_cast<const void *>(&parent_decl_ctx),
parent_decl_ctx.GetName().AsCString("<NULL>"), max_matches);
else
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindTypes (sc, name=\"%s\", parent_decl_ctx = "
"NULL, max_matches=%u, type_list)",
name.GetCString(), max_matches);
}
if (!DeclContextMatchesThisSymbolFile(parent_decl_ctx))
return;
m_index->GetTypes(name, [&](DWARFDIE die) {
if (!DIEInDeclContext(parent_decl_ctx, die))
return true; // The containing decl contexts don't match
Type *matching_type = ResolveType(die, true, true);
if (!matching_type)
return true;
// We found a type pointer, now find the shared pointer form our type
// list
types.InsertUnique(matching_type->shared_from_this());
return types.GetSize() < max_matches;
});
// Next search through the reachable Clang modules. This only applies for
// DWARF objects compiled with -gmodules that haven't been processed by
// dsymutil.
if (types.GetSize() < max_matches) {
UpdateExternalModuleListIfNeeded();
for (const auto &pair : m_external_type_modules)
if (ModuleSP external_module_sp = pair.second)
if (SymbolFile *sym_file = external_module_sp->GetSymbolFile())
sym_file->FindTypes(name, parent_decl_ctx, max_matches,
searched_symbol_files, types);
}
if (log && types.GetSize()) {
if (parent_decl_ctx) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindTypes (sc, name=\"%s\", parent_decl_ctx "
"= %p (\"%s\"), max_matches=%u, type_list) => %u",
name.GetCString(), static_cast<const void *>(&parent_decl_ctx),
parent_decl_ctx.GetName().AsCString("<NULL>"), max_matches,
types.GetSize());
} else {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindTypes (sc, name=\"%s\", parent_decl_ctx "
"= NULL, max_matches=%u, type_list) => %u",
name.GetCString(), max_matches, types.GetSize());
}
}
}
void SymbolFileDWARF::FindTypes(
llvm::ArrayRef<CompilerContext> pattern, LanguageSet languages,
llvm::DenseSet<SymbolFile *> &searched_symbol_files, TypeMap &types) {
// Make sure we haven't already searched this SymbolFile before.
if (!searched_symbol_files.insert(this).second)
return;
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
if (pattern.empty())
return;
ConstString name = pattern.back().name;
if (!name)
return;
m_index->GetTypes(name, [&](DWARFDIE die) {
if (!languages[GetLanguage(*die.GetCU())])
return true;
llvm::SmallVector<CompilerContext, 4> die_context;
die.GetDeclContext(die_context);
if (!contextMatches(die_context, pattern))
return true;
if (Type *matching_type = ResolveType(die, true, true)) {
// We found a type pointer, now find the shared pointer form our type
// list.
types.InsertUnique(matching_type->shared_from_this());
}
return true;
});
// Next search through the reachable Clang modules. This only applies for
// DWARF objects compiled with -gmodules that haven't been processed by
// dsymutil.
UpdateExternalModuleListIfNeeded();
for (const auto &pair : m_external_type_modules)
if (ModuleSP external_module_sp = pair.second)
external_module_sp->FindTypes(pattern, languages, searched_symbol_files,
types);
}
CompilerDeclContext
SymbolFileDWARF::FindNamespace(ConstString name,
const CompilerDeclContext &parent_decl_ctx) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
Log *log(LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS));
if (log) {
GetObjectFile()->GetModule()->LogMessage(
log, "SymbolFileDWARF::FindNamespace (sc, name=\"%s\")",
name.GetCString());
}
CompilerDeclContext namespace_decl_ctx;
if (!DeclContextMatchesThisSymbolFile(parent_decl_ctx))
return namespace_decl_ctx;
m_index->GetNamespaces(name, [&](DWARFDIE die) {
if (!DIEInDeclContext(parent_decl_ctx, die))
return true; // The containing decl contexts don't match
DWARFASTParser *dwarf_ast = GetDWARFParser(*die.GetCU());
if (!dwarf_ast)
return true;
namespace_decl_ctx = dwarf_ast->GetDeclContextForUIDFromDWARF(die);
return !namespace_decl_ctx.IsValid();
});
if (log && namespace_decl_ctx) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindNamespace (sc, name=\"%s\") => "
"CompilerDeclContext(%p/%p) \"%s\"",
name.GetCString(),
static_cast<const void *>(namespace_decl_ctx.GetTypeSystem()),
static_cast<const void *>(namespace_decl_ctx.GetOpaqueDeclContext()),
namespace_decl_ctx.GetName().AsCString("<NULL>"));
}
return namespace_decl_ctx;
}
TypeSP SymbolFileDWARF::GetTypeForDIE(const DWARFDIE &die,
bool resolve_function_context) {
TypeSP type_sp;
if (die) {
Type *type_ptr = GetDIEToType().lookup(die.GetDIE());
if (type_ptr == nullptr) {
SymbolContextScope *scope;
if (auto *dwarf_cu = llvm::dyn_cast<DWARFCompileUnit>(die.GetCU()))
scope = GetCompUnitForDWARFCompUnit(*dwarf_cu);
else
scope = GetObjectFile()->GetModule().get();
assert(scope);
SymbolContext sc(scope);
const DWARFDebugInfoEntry *parent_die = die.GetParent().GetDIE();
while (parent_die != nullptr) {
if (parent_die->Tag() == DW_TAG_subprogram)
break;
parent_die = parent_die->GetParent();
}
SymbolContext sc_backup = sc;
if (resolve_function_context && parent_die != nullptr &&
!GetFunction(DWARFDIE(die.GetCU(), parent_die), sc))
sc = sc_backup;
type_sp = ParseType(sc, die, nullptr);
} else if (type_ptr != DIE_IS_BEING_PARSED) {
// Grab the existing type from the master types lists
type_sp = type_ptr->shared_from_this();
}
}
return type_sp;
}
DWARFDIE
SymbolFileDWARF::GetDeclContextDIEContainingDIE(const DWARFDIE &orig_die) {
if (orig_die) {
DWARFDIE die = orig_die;
while (die) {
// If this is the original DIE that we are searching for a declaration
// for, then don't look in the cache as we don't want our own decl
// context to be our decl context...
if (orig_die != die) {
switch (die.Tag()) {
case DW_TAG_compile_unit:
case DW_TAG_partial_unit:
case DW_TAG_namespace:
case DW_TAG_structure_type:
case DW_TAG_union_type:
case DW_TAG_class_type:
case DW_TAG_lexical_block:
case DW_TAG_subprogram:
return die;
case DW_TAG_inlined_subroutine: {
DWARFDIE abs_die = die.GetReferencedDIE(DW_AT_abstract_origin);
if (abs_die) {
return abs_die;
}
break;
}
default:
break;
}
}
DWARFDIE spec_die = die.GetReferencedDIE(DW_AT_specification);
if (spec_die) {
DWARFDIE decl_ctx_die = GetDeclContextDIEContainingDIE(spec_die);
if (decl_ctx_die)
return decl_ctx_die;
}
DWARFDIE abs_die = die.GetReferencedDIE(DW_AT_abstract_origin);
if (abs_die) {
DWARFDIE decl_ctx_die = GetDeclContextDIEContainingDIE(abs_die);
if (decl_ctx_die)
return decl_ctx_die;
}
die = die.GetParent();
}
}
return DWARFDIE();
}
Symbol *SymbolFileDWARF::GetObjCClassSymbol(ConstString objc_class_name) {
Symbol *objc_class_symbol = nullptr;
if (m_objfile_sp) {
Symtab *symtab = m_objfile_sp->GetSymtab();
if (symtab) {
objc_class_symbol = symtab->FindFirstSymbolWithNameAndType(
objc_class_name, eSymbolTypeObjCClass, Symtab::eDebugNo,
Symtab::eVisibilityAny);
}
}
return objc_class_symbol;
}
// Some compilers don't emit the DW_AT_APPLE_objc_complete_type attribute. If
// they don't then we can end up looking through all class types for a complete
// type and never find the full definition. We need to know if this attribute
// is supported, so we determine this here and cache th result. We also need to
// worry about the debug map
// DWARF file
// if we are doing darwin DWARF in .o file debugging.
bool SymbolFileDWARF::Supports_DW_AT_APPLE_objc_complete_type(DWARFUnit *cu) {
if (m_supports_DW_AT_APPLE_objc_complete_type == eLazyBoolCalculate) {
m_supports_DW_AT_APPLE_objc_complete_type = eLazyBoolNo;
if (cu && cu->Supports_DW_AT_APPLE_objc_complete_type())
m_supports_DW_AT_APPLE_objc_complete_type = eLazyBoolYes;
else {
DWARFDebugInfo &debug_info = DebugInfo();
const uint32_t num_compile_units = GetNumCompileUnits();
for (uint32_t cu_idx = 0; cu_idx < num_compile_units; ++cu_idx) {
DWARFUnit *dwarf_cu = debug_info.GetUnitAtIndex(cu_idx);
if (dwarf_cu != cu &&
dwarf_cu->Supports_DW_AT_APPLE_objc_complete_type()) {
m_supports_DW_AT_APPLE_objc_complete_type = eLazyBoolYes;
break;
}
}
}
if (m_supports_DW_AT_APPLE_objc_complete_type == eLazyBoolNo &&
GetDebugMapSymfile())
return m_debug_map_symfile->Supports_DW_AT_APPLE_objc_complete_type(this);
}
return m_supports_DW_AT_APPLE_objc_complete_type == eLazyBoolYes;
}
// This function can be used when a DIE is found that is a forward declaration
// DIE and we want to try and find a type that has the complete definition.
TypeSP SymbolFileDWARF::FindCompleteObjCDefinitionTypeForDIE(
const DWARFDIE &die, ConstString type_name, bool must_be_implementation) {
TypeSP type_sp;
if (!type_name || (must_be_implementation && !GetObjCClassSymbol(type_name)))
return type_sp;
m_index->GetCompleteObjCClass(
type_name, must_be_implementation, [&](DWARFDIE type_die) {
bool try_resolving_type = false;
// Don't try and resolve the DIE we are looking for with the DIE
// itself!
if (type_die != die) {
switch (type_die.Tag()) {
case DW_TAG_class_type:
case DW_TAG_structure_type:
try_resolving_type = true;
break;
default:
break;
}
}
if (!try_resolving_type)
return true;
if (must_be_implementation &&
type_die.Supports_DW_AT_APPLE_objc_complete_type())
try_resolving_type = type_die.GetAttributeValueAsUnsigned(
DW_AT_APPLE_objc_complete_type, 0);
if (!try_resolving_type)
return true;
Type *resolved_type = ResolveType(type_die, false, true);
if (!resolved_type || resolved_type == DIE_IS_BEING_PARSED)
return true;
DEBUG_PRINTF(
"resolved 0x%8.8" PRIx64 " from %s to 0x%8.8" PRIx64
" (cu 0x%8.8" PRIx64 ")\n",
die.GetID(),
m_objfile_sp->GetFileSpec().GetFilename().AsCString("<Unknown>"),
type_die.GetID(), type_cu->GetID());
if (die)
GetDIEToType()[die.GetDIE()] = resolved_type;
type_sp = resolved_type->shared_from_this();
return false;
});
return type_sp;
}
// This function helps to ensure that the declaration contexts match for two
// different DIEs. Often times debug information will refer to a forward
// declaration of a type (the equivalent of "struct my_struct;". There will
// often be a declaration of that type elsewhere that has the full definition.
// When we go looking for the full type "my_struct", we will find one or more
// matches in the accelerator tables and we will then need to make sure the
// type was in the same declaration context as the original DIE. This function
// can efficiently compare two DIEs and will return true when the declaration
// context matches, and false when they don't.
bool SymbolFileDWARF::DIEDeclContextsMatch(const DWARFDIE &die1,
const DWARFDIE &die2) {
if (die1 == die2)
return true;
std::vector<DWARFDIE> decl_ctx_1;
std::vector<DWARFDIE> decl_ctx_2;
// The declaration DIE stack is a stack of the declaration context DIEs all
// the way back to the compile unit. If a type "T" is declared inside a class
// "B", and class "B" is declared inside a class "A" and class "A" is in a
// namespace "lldb", and the namespace is in a compile unit, there will be a
// stack of DIEs:
//
// [0] DW_TAG_class_type for "B"
// [1] DW_TAG_class_type for "A"
// [2] DW_TAG_namespace for "lldb"
// [3] DW_TAG_compile_unit or DW_TAG_partial_unit for the source file.
//
// We grab both contexts and make sure that everything matches all the way
// back to the compiler unit.
// First lets grab the decl contexts for both DIEs
decl_ctx_1 = die1.GetDeclContextDIEs();
decl_ctx_2 = die2.GetDeclContextDIEs();
// Make sure the context arrays have the same size, otherwise we are done
const size_t count1 = decl_ctx_1.size();
const size_t count2 = decl_ctx_2.size();
if (count1 != count2)
return false;
// Make sure the DW_TAG values match all the way back up the compile unit. If
// they don't, then we are done.
DWARFDIE decl_ctx_die1;
DWARFDIE decl_ctx_die2;
size_t i;
for (i = 0; i < count1; i++) {
decl_ctx_die1 = decl_ctx_1[i];
decl_ctx_die2 = decl_ctx_2[i];
if (decl_ctx_die1.Tag() != decl_ctx_die2.Tag())
return false;
}
#ifndef NDEBUG
// Make sure the top item in the decl context die array is always
// DW_TAG_compile_unit or DW_TAG_partial_unit. If it isn't then
// something went wrong in the DWARFDIE::GetDeclContextDIEs()
// function.
dw_tag_t cu_tag = decl_ctx_1[count1 - 1].Tag();
UNUSED_IF_ASSERT_DISABLED(cu_tag);
assert(cu_tag == DW_TAG_compile_unit || cu_tag == DW_TAG_partial_unit);
#endif
// Always skip the compile unit when comparing by only iterating up to "count
// - 1". Here we compare the names as we go.
for (i = 0; i < count1 - 1; i++) {
decl_ctx_die1 = decl_ctx_1[i];
decl_ctx_die2 = decl_ctx_2[i];
const char *name1 = decl_ctx_die1.GetName();
const char *name2 = decl_ctx_die2.GetName();
// If the string was from a DW_FORM_strp, then the pointer will often be
// the same!
if (name1 == name2)
continue;
// Name pointers are not equal, so only compare the strings if both are not
// NULL.
if (name1 && name2) {
// If the strings don't compare, we are done...
if (strcmp(name1, name2) != 0)
return false;
} else {
// One name was NULL while the other wasn't
return false;
}
}
// We made it through all of the checks and the declaration contexts are
// equal.
return true;
}
TypeSP SymbolFileDWARF::FindDefinitionTypeForDWARFDeclContext(
const DWARFDeclContext &dwarf_decl_ctx) {
TypeSP type_sp;
const uint32_t dwarf_decl_ctx_count = dwarf_decl_ctx.GetSize();
if (dwarf_decl_ctx_count > 0) {
const ConstString type_name(dwarf_decl_ctx[0].name);
const dw_tag_t tag = dwarf_decl_ctx[0].tag;
if (type_name) {
Log *log(LogChannelDWARF::GetLogIfAny(DWARF_LOG_TYPE_COMPLETION |
DWARF_LOG_LOOKUPS));
if (log) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::FindDefinitionTypeForDWARFDeclContext(tag=%"
"s, qualified-name='%s')",
DW_TAG_value_to_name(dwarf_decl_ctx[0].tag),
dwarf_decl_ctx.GetQualifiedName());
}
// Get the type system that we are looking to find a type for. We will
// use this to ensure any matches we find are in a language that this
// type system supports
const LanguageType language = dwarf_decl_ctx.GetLanguage();
TypeSystem *type_system = nullptr;
if (language != eLanguageTypeUnknown) {
auto type_system_or_err = GetTypeSystemForLanguage(language);
if (auto err = type_system_or_err.takeError()) {
LLDB_LOG_ERROR(
lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_SYMBOLS),
std::move(err), "Cannot get TypeSystem for language {}",
Language::GetNameForLanguageType(language));
} else {
type_system = &type_system_or_err.get();
}
}
m_index->GetTypes(dwarf_decl_ctx, [&](DWARFDIE type_die) {
// Make sure type_die's langauge matches the type system we are
// looking for. We don't want to find a "Foo" type from Java if we
// are looking for a "Foo" type for C, C++, ObjC, or ObjC++.
if (type_system &&
!type_system->SupportsLanguage(GetLanguage(*type_die.GetCU())))
return true;
bool try_resolving_type = false;
// Don't try and resolve the DIE we are looking for with the DIE
// itself!
const dw_tag_t type_tag = type_die.Tag();
// Make sure the tags match
if (type_tag == tag) {
// The tags match, lets try resolving this type
try_resolving_type = true;
} else {
// The tags don't match, but we need to watch our for a forward
// declaration for a struct and ("struct foo") ends up being a
// class ("class foo { ... };") or vice versa.
switch (type_tag) {
case DW_TAG_class_type:
// We had a "class foo", see if we ended up with a "struct foo
// { ... };"
try_resolving_type = (tag == DW_TAG_structure_type);
break;
case DW_TAG_structure_type:
// We had a "struct foo", see if we ended up with a "class foo
// { ... };"
try_resolving_type = (tag == DW_TAG_class_type);
break;
default:
// Tags don't match, don't event try to resolve using this type
// whose name matches....
break;
}
}
if (!try_resolving_type) {
if (log) {
std::string qualified_name;
type_die.GetQualifiedName(qualified_name);
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::"
"FindDefinitionTypeForDWARFDeclContext(tag=%s, "
"qualified-name='%s') ignoring die=0x%8.8x (%s)",
DW_TAG_value_to_name(dwarf_decl_ctx[0].tag),
dwarf_decl_ctx.GetQualifiedName(), type_die.GetOffset(),
qualified_name.c_str());
}
return true;
}
DWARFDeclContext type_dwarf_decl_ctx = GetDWARFDeclContext(type_die);
if (log) {
GetObjectFile()->GetModule()->LogMessage(
log,
"SymbolFileDWARF::"
"FindDefinitionTypeForDWARFDeclContext(tag=%s, "
"qualified-name='%s') trying die=0x%8.8x (%s)",
DW_TAG_value_to_name(dwarf_decl_ctx[0].tag),
dwarf_decl_ctx.GetQualifiedName(), type_die.GetOffset(),
type_dwarf_decl_ctx.GetQualifiedName());
}
// Make sure the decl contexts match all the way up
if (dwarf_decl_ctx != type_dwarf_decl_ctx)
return true;
Type *resolved_type = ResolveType(type_die, false);
if (!resolved_type || resolved_type == DIE_IS_BEING_PARSED)
return true;
type_sp = resolved_type->shared_from_this();
return false;
});
}
}
return type_sp;
}
TypeSP SymbolFileDWARF::ParseType(const SymbolContext &sc, const DWARFDIE &die,
bool *type_is_new_ptr) {
if (!die)
return {};
auto type_system_or_err = GetTypeSystemForLanguage(GetLanguage(*die.GetCU()));
if (auto err = type_system_or_err.takeError()) {
LLDB_LOG_ERROR(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_SYMBOLS),
std::move(err), "Unable to parse type");
return {};
}
DWARFASTParser *dwarf_ast = type_system_or_err->GetDWARFParser();
if (!dwarf_ast)
return {};
TypeSP type_sp = dwarf_ast->ParseTypeFromDWARF(sc, die, type_is_new_ptr);
if (type_sp) {
GetTypeList().Insert(type_sp);
if (die.Tag() == DW_TAG_subprogram) {
std::string scope_qualified_name(GetDeclContextForUID(die.GetID())
.GetScopeQualifiedName()
.AsCString(""));
if (scope_qualified_name.size()) {
m_function_scope_qualified_name_map[scope_qualified_name].insert(
*die.GetDIERef());
}
}
}
return type_sp;
}
size_t SymbolFileDWARF::ParseTypes(const SymbolContext &sc,
const DWARFDIE &orig_die,
bool parse_siblings, bool parse_children) {
size_t types_added = 0;
DWARFDIE die = orig_die;
while (die) {
const dw_tag_t tag = die.Tag();
bool type_is_new = false;
Tag dwarf_tag = static_cast<Tag>(tag);
// TODO: Currently ParseTypeFromDWARF(...) which is called by ParseType(...)
// does not handle DW_TAG_subrange_type. It is not clear if this is a bug or
// not.
if (isType(dwarf_tag) && tag != DW_TAG_subrange_type)
ParseType(sc, die, &type_is_new);
if (type_is_new)
++types_added;
if (parse_children && die.HasChildren()) {
if (die.Tag() == DW_TAG_subprogram) {
SymbolContext child_sc(sc);
child_sc.function = sc.comp_unit->FindFunctionByUID(die.GetID()).get();
types_added += ParseTypes(child_sc, die.GetFirstChild(), true, true);
} else
types_added += ParseTypes(sc, die.GetFirstChild(), true, true);
}
if (parse_siblings)
die = die.GetSibling();
else
die.Clear();
}
return types_added;
}
size_t SymbolFileDWARF::ParseBlocksRecursive(Function &func) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
CompileUnit *comp_unit = func.GetCompileUnit();
lldbassert(comp_unit);
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(comp_unit);
if (!dwarf_cu)
return 0;
size_t functions_added = 0;
const dw_offset_t function_die_offset = func.GetID();
DWARFDIE function_die =
dwarf_cu->GetNonSkeletonUnit().GetDIE(function_die_offset);
if (function_die) {
ParseBlocksRecursive(*comp_unit, &func.GetBlock(false), function_die,
LLDB_INVALID_ADDRESS, 0);
}
return functions_added;
}
size_t SymbolFileDWARF::ParseTypes(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
size_t types_added = 0;
DWARFUnit *dwarf_cu = GetDWARFCompileUnit(&comp_unit);
if (dwarf_cu) {
DWARFDIE dwarf_cu_die = dwarf_cu->DIE();
if (dwarf_cu_die && dwarf_cu_die.HasChildren()) {
SymbolContext sc;
sc.comp_unit = &comp_unit;
types_added = ParseTypes(sc, dwarf_cu_die.GetFirstChild(), true, true);
}
}
return types_added;
}
size_t SymbolFileDWARF::ParseVariablesForContext(const SymbolContext &sc) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
if (sc.comp_unit != nullptr) {
if (sc.function) {
DWARFDIE function_die = GetDIE(sc.function->GetID());
const dw_addr_t func_lo_pc = function_die.GetAttributeValueAsAddress(
DW_AT_low_pc, LLDB_INVALID_ADDRESS);
if (func_lo_pc != LLDB_INVALID_ADDRESS) {
const size_t num_variables = ParseVariables(
sc, function_die.GetFirstChild(), func_lo_pc, true, true);
// Let all blocks know they have parse all their variables
sc.function->GetBlock(false).SetDidParseVariables(true, true);
return num_variables;
}
} else if (sc.comp_unit) {
DWARFUnit *dwarf_cu = DebugInfo().GetUnitAtIndex(sc.comp_unit->GetID());
if (dwarf_cu == nullptr)
return 0;
uint32_t vars_added = 0;
VariableListSP variables(sc.comp_unit->GetVariableList(false));
if (variables.get() == nullptr) {
variables = std::make_shared<VariableList>();
sc.comp_unit->SetVariableList(variables);
m_index->GetGlobalVariables(
dwarf_cu->GetNonSkeletonUnit(), [&](DWARFDIE die) {
VariableSP var_sp(
ParseVariableDIE(sc, die, LLDB_INVALID_ADDRESS));
if (var_sp) {
variables->AddVariableIfUnique(var_sp);
++vars_added;
}
return true;
});
}
return vars_added;
}
}
return 0;
}
VariableSP SymbolFileDWARF::ParseVariableDIE(const SymbolContext &sc,
const DWARFDIE &die,
const lldb::addr_t func_low_pc) {
if (die.GetDWARF() != this)
return die.GetDWARF()->ParseVariableDIE(sc, die, func_low_pc);
if (!die)
return nullptr;
if (VariableSP var_sp = GetDIEToVariable()[die.GetDIE()])
return var_sp; // Already been parsed!
const dw_tag_t tag = die.Tag();
ModuleSP module = GetObjectFile()->GetModule();
if (tag != DW_TAG_variable && tag != DW_TAG_constant &&
(tag != DW_TAG_formal_parameter || !sc.function))
return nullptr;
DWARFAttributes attributes;
const size_t num_attributes = die.GetAttributes(attributes);
DWARFDIE spec_die;
VariableSP var_sp;
const char *name = nullptr;
const char *mangled = nullptr;
Declaration decl;
DWARFFormValue type_die_form;
DWARFExpression location;
bool is_external = false;
bool is_artificial = false;
DWARFFormValue const_value_form, location_form;
Variable::RangeList scope_ranges;
for (size_t i = 0; i < num_attributes; ++i) {
dw_attr_t attr = attributes.AttributeAtIndex(i);
DWARFFormValue form_value;
if (!attributes.ExtractFormValueAtIndex(i, form_value))
continue;
switch (attr) {
case DW_AT_decl_file:
decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(
form_value.Unsigned()));
break;
case DW_AT_decl_line:
decl.SetLine(form_value.Unsigned());
break;
case DW_AT_decl_column:
decl.SetColumn(form_value.Unsigned());
break;
case DW_AT_name:
name = form_value.AsCString();
break;
case DW_AT_linkage_name:
case DW_AT_MIPS_linkage_name:
mangled = form_value.AsCString();
break;
case DW_AT_type:
type_die_form = form_value;
break;
case DW_AT_external:
is_external = form_value.Boolean();
break;
case DW_AT_const_value:
const_value_form = form_value;
break;
case DW_AT_location:
location_form = form_value;
break;
case DW_AT_specification:
spec_die = form_value.Reference();
break;
case DW_AT_start_scope:
// TODO: Implement this.
break;
case DW_AT_artificial:
is_artificial = form_value.Boolean();
break;
case DW_AT_declaration:
case DW_AT_description:
case DW_AT_endianity:
case DW_AT_segment:
case DW_AT_visibility:
default:
case DW_AT_abstract_origin:
case DW_AT_sibling:
break;
}
}
// Prefer DW_AT_location over DW_AT_const_value. Both can be emitted e.g.
// for static constexpr member variables -- DW_AT_const_value will be
// present in the class declaration and DW_AT_location in the DIE defining
// the member.
bool location_is_const_value_data = false;
bool has_explicit_location = false;
bool use_type_size_for_value = false;
if (location_form.IsValid()) {
has_explicit_location = true;
if (DWARFFormValue::IsBlockForm(location_form.Form())) {
const DWARFDataExtractor &data = die.GetData();
uint32_t block_offset = location_form.BlockData() - data.GetDataStart();
uint32_t block_length = location_form.Unsigned();
location = DWARFExpression(
module, DataExtractor(data, block_offset, block_length), die.GetCU());
} else {
DataExtractor data = die.GetCU()->GetLocationData();
dw_offset_t offset = location_form.Unsigned();
if (location_form.Form() == DW_FORM_loclistx)
offset = die.GetCU()->GetLoclistOffset(offset).getValueOr(-1);
if (data.ValidOffset(offset)) {
data = DataExtractor(data, offset, data.GetByteSize() - offset);
location = DWARFExpression(module, data, die.GetCU());
assert(func_low_pc != LLDB_INVALID_ADDRESS);
location.SetLocationListAddresses(
location_form.GetUnit()->GetBaseAddress(), func_low_pc);
}
}
} else if (const_value_form.IsValid()) {
location_is_const_value_data = true;
// The constant value will be either a block, a data value or a
// string.
const DWARFDataExtractor &debug_info_data = die.GetData();
if (DWARFFormValue::IsBlockForm(const_value_form.Form())) {
// Retrieve the value as a block expression.
uint32_t block_offset =
const_value_form.BlockData() - debug_info_data.GetDataStart();
uint32_t block_length = const_value_form.Unsigned();
location = DWARFExpression(
module, DataExtractor(debug_info_data, block_offset, block_length),
die.GetCU());
} else if (DWARFFormValue::IsDataForm(const_value_form.Form())) {
// Constant value size does not have to match the size of the
// variable. We will fetch the size of the type after we create
// it.
use_type_size_for_value = true;
} else if (const char *str = const_value_form.AsCString()) {
uint32_t string_length = strlen(str) + 1;
location = DWARFExpression(
module,
DataExtractor(str, string_length, die.GetCU()->GetByteOrder(),
die.GetCU()->GetAddressByteSize()),
die.GetCU());
}
}
const DWARFDIE parent_context_die = GetDeclContextDIEContainingDIE(die);
const dw_tag_t parent_tag = die.GetParent().Tag();
bool is_static_member = (parent_tag == DW_TAG_compile_unit ||
parent_tag == DW_TAG_partial_unit) &&
(parent_context_die.Tag() == DW_TAG_class_type ||
parent_context_die.Tag() == DW_TAG_structure_type);
ValueType scope = eValueTypeInvalid;
const DWARFDIE sc_parent_die = GetParentSymbolContextDIE(die);
SymbolContextScope *symbol_context_scope = nullptr;
bool has_explicit_mangled = mangled != nullptr;
if (!mangled) {
// LLDB relies on the mangled name (DW_TAG_linkage_name or
// DW_AT_MIPS_linkage_name) to generate fully qualified names
// of global variables with commands like "frame var j". For
// example, if j were an int variable holding a value 4 and
// declared in a namespace B which in turn is contained in a
// namespace A, the command "frame var j" returns
// "(int) A::B::j = 4".
// If the compiler does not emit a linkage name, we should be
// able to generate a fully qualified name from the
// declaration context.
if ((parent_tag == DW_TAG_compile_unit ||
parent_tag == DW_TAG_partial_unit) &&
Language::LanguageIsCPlusPlus(GetLanguage(*die.GetCU())))
mangled =
GetDWARFDeclContext(die).GetQualifiedNameAsConstString().GetCString();
}
if (tag == DW_TAG_formal_parameter)
scope = eValueTypeVariableArgument;
else {
// DWARF doesn't specify if a DW_TAG_variable is a local, global
// or static variable, so we have to do a little digging:
// 1) DW_AT_linkage_name implies static lifetime (but may be missing)
// 2) An empty DW_AT_location is an (optimized-out) static lifetime var.
// 3) DW_AT_location containing a DW_OP_addr implies static lifetime.
// Clang likes to combine small global variables into the same symbol
// with locations like: DW_OP_addr(0x1000), DW_OP_constu(2), DW_OP_plus
// so we need to look through the whole expression.
bool is_static_lifetime =
has_explicit_mangled || (has_explicit_location && !location.IsValid());
// Check if the location has a DW_OP_addr with any address value...
lldb::addr_t location_DW_OP_addr = LLDB_INVALID_ADDRESS;
if (!location_is_const_value_data) {
bool op_error = false;
location_DW_OP_addr = location.GetLocation_DW_OP_addr(0, op_error);
if (op_error) {
StreamString strm;
location.DumpLocationForAddress(&strm, eDescriptionLevelFull, 0, 0,
nullptr);
GetObjectFile()->GetModule()->ReportError(
"0x%8.8x: %s has an invalid location: %s", die.GetOffset(),
die.GetTagAsCString(), strm.GetData());
}
if (location_DW_OP_addr != LLDB_INVALID_ADDRESS)
is_static_lifetime = true;
}
SymbolFileDWARFDebugMap *debug_map_symfile = GetDebugMapSymfile();
if (debug_map_symfile)
// Set the module of the expression to the linked module
// instead of the oject file so the relocated address can be
// found there.
location.SetModule(debug_map_symfile->GetObjectFile()->GetModule());
if (is_static_lifetime) {
if (is_external)
scope = eValueTypeVariableGlobal;
else
scope = eValueTypeVariableStatic;
if (debug_map_symfile) {
// When leaving the DWARF in the .o files on darwin, when we have a
// global variable that wasn't initialized, the .o file might not
// have allocated a virtual address for the global variable. In
// this case it will have created a symbol for the global variable
// that is undefined/data and external and the value will be the
// byte size of the variable. When we do the address map in
// SymbolFileDWARFDebugMap we rely on having an address, we need to
// do some magic here so we can get the correct address for our
// global variable. The address for all of these entries will be
// zero, and there will be an undefined symbol in this object file,
// and the executable will have a matching symbol with a good
// address. So here we dig up the correct address and replace it in
// the location for the variable, and set the variable's symbol
// context scope to be that of the main executable so the file
// address will resolve correctly.
bool linked_oso_file_addr = false;
if (is_external && location_DW_OP_addr == 0) {
// we have a possible uninitialized extern global
ConstString const_name(mangled ? mangled : name);
ObjectFile *debug_map_objfile = debug_map_symfile->GetObjectFile();
if (debug_map_objfile) {
Symtab *debug_map_symtab = debug_map_objfile->GetSymtab();
if (debug_map_symtab) {
Symbol *exe_symbol =
debug_map_symtab->FindFirstSymbolWithNameAndType(
const_name, eSymbolTypeData, Symtab::eDebugYes,
Symtab::eVisibilityExtern);
if (exe_symbol) {
if (exe_symbol->ValueIsAddress()) {
const addr_t exe_file_addr =
exe_symbol->GetAddressRef().GetFileAddress();
if (exe_file_addr != LLDB_INVALID_ADDRESS) {
if (location.Update_DW_OP_addr(exe_file_addr)) {
linked_oso_file_addr = true;
symbol_context_scope = exe_symbol;
}
}
}
}
}
}
}
if (!linked_oso_file_addr) {
// The DW_OP_addr is not zero, but it contains a .o file address
// which needs to be linked up correctly.
const lldb::addr_t exe_file_addr =
debug_map_symfile->LinkOSOFileAddress(this, location_DW_OP_addr);
if (exe_file_addr != LLDB_INVALID_ADDRESS) {
// Update the file address for this variable
location.Update_DW_OP_addr(exe_file_addr);
} else {
// Variable didn't make it into the final executable
return var_sp;
}
}
}
} else {
if (location_is_const_value_data &&
die.GetDIE()->IsGlobalOrStaticScopeVariable())
scope = eValueTypeVariableStatic;
else {
scope = eValueTypeVariableLocal;
if (debug_map_symfile) {
// We need to check for TLS addresses that we need to fixup
if (location.ContainsThreadLocalStorage()) {
location.LinkThreadLocalStorage(
debug_map_symfile->GetObjectFile()->GetModule(),
[this, debug_map_symfile](
lldb::addr_t unlinked_file_addr) -> lldb::addr_t {
return debug_map_symfile->LinkOSOFileAddress(
this, unlinked_file_addr);
});
scope = eValueTypeVariableThreadLocal;
}
}
}
}
}
if (symbol_context_scope == nullptr) {
switch (parent_tag) {
case DW_TAG_subprogram:
case DW_TAG_inlined_subroutine:
case DW_TAG_lexical_block:
if (sc.function) {
symbol_context_scope =
sc.function->GetBlock(true).FindBlockByID(sc_parent_die.GetID());
if (symbol_context_scope == nullptr)
symbol_context_scope = sc.function;
}
break;
default:
symbol_context_scope = sc.comp_unit;
break;
}
}
if (symbol_context_scope) {
auto type_sp = std::make_shared<SymbolFileType>(
*this, GetUID(type_die_form.Reference()));
if (use_type_size_for_value && type_sp->GetType())
location.UpdateValue(
const_value_form.Unsigned(),
type_sp->GetType()->GetByteSize(nullptr).getValueOr(0),
die.GetCU()->GetAddressByteSize());
var_sp = std::make_shared<Variable>(
die.GetID(), name, mangled, type_sp, scope, symbol_context_scope,
scope_ranges, &decl, location, is_external, is_artificial,
is_static_member);
var_sp->SetLocationIsConstantValueData(location_is_const_value_data);
} else {
// Not ready to parse this variable yet. It might be a global or static
// variable that is in a function scope and the function in the symbol
// context wasn't filled in yet
return var_sp;
}
// Cache var_sp even if NULL (the variable was just a specification or was
// missing vital information to be able to be displayed in the debugger
// (missing location due to optimization, etc)) so we don't re-parse this
// DIE over and over later...
GetDIEToVariable()[die.GetDIE()] = var_sp;
if (spec_die)
GetDIEToVariable()[spec_die.GetDIE()] = var_sp;
return var_sp;
}
DWARFDIE
SymbolFileDWARF::FindBlockContainingSpecification(
const DIERef &func_die_ref, dw_offset_t spec_block_die_offset) {
// Give the concrete function die specified by "func_die_offset", find the
// concrete block whose DW_AT_specification or DW_AT_abstract_origin points
// to "spec_block_die_offset"
return FindBlockContainingSpecification(DebugInfo().GetDIE(func_die_ref),
spec_block_die_offset);
}
DWARFDIE
SymbolFileDWARF::FindBlockContainingSpecification(
const DWARFDIE &die, dw_offset_t spec_block_die_offset) {
if (die) {
switch (die.Tag()) {
case DW_TAG_subprogram:
case DW_TAG_inlined_subroutine:
case DW_TAG_lexical_block: {
if (die.GetReferencedDIE(DW_AT_specification).GetOffset() ==
spec_block_die_offset)
return die;
if (die.GetReferencedDIE(DW_AT_abstract_origin).GetOffset() ==
spec_block_die_offset)
return die;
} break;
default:
break;
}
// Give the concrete function die specified by "func_die_offset", find the
// concrete block whose DW_AT_specification or DW_AT_abstract_origin points
// to "spec_block_die_offset"
for (DWARFDIE child_die = die.GetFirstChild(); child_die;
child_die = child_die.GetSibling()) {
DWARFDIE result_die =
FindBlockContainingSpecification(child_die, spec_block_die_offset);
if (result_die)
return result_die;
}
}
return DWARFDIE();
}
size_t SymbolFileDWARF::ParseVariables(const SymbolContext &sc,
const DWARFDIE &orig_die,
const lldb::addr_t func_low_pc,
bool parse_siblings, bool parse_children,
VariableList *cc_variable_list) {
if (!orig_die)
return 0;
VariableListSP variable_list_sp;
size_t vars_added = 0;
DWARFDIE die = orig_die;
while (die) {
dw_tag_t tag = die.Tag();
// Check to see if we have already parsed this variable or constant?
VariableSP var_sp = GetDIEToVariable()[die.GetDIE()];
if (var_sp) {
if (cc_variable_list)
cc_variable_list->AddVariableIfUnique(var_sp);
} else {
// We haven't already parsed it, lets do that now.
if ((tag == DW_TAG_variable) || (tag == DW_TAG_constant) ||
(tag == DW_TAG_formal_parameter && sc.function)) {
if (variable_list_sp.get() == nullptr) {
DWARFDIE sc_parent_die = GetParentSymbolContextDIE(orig_die);
dw_tag_t parent_tag = sc_parent_die.Tag();
switch (parent_tag) {
case DW_TAG_compile_unit:
case DW_TAG_partial_unit:
if (sc.comp_unit != nullptr) {
variable_list_sp = sc.comp_unit->GetVariableList(false);
if (variable_list_sp.get() == nullptr) {
variable_list_sp = std::make_shared<VariableList>();
}
} else {
GetObjectFile()->GetModule()->ReportError(
"parent 0x%8.8" PRIx64 " %s with no valid compile unit in "
"symbol context for 0x%8.8" PRIx64 " %s.\n",
sc_parent_die.GetID(), sc_parent_die.GetTagAsCString(),
orig_die.GetID(), orig_die.GetTagAsCString());
}
break;
case DW_TAG_subprogram:
case DW_TAG_inlined_subroutine:
case DW_TAG_lexical_block:
if (sc.function != nullptr) {
// Check to see if we already have parsed the variables for the
// given scope
Block *block = sc.function->GetBlock(true).FindBlockByID(
sc_parent_die.GetID());
if (block == nullptr) {
// This must be a specification or abstract origin with a
// concrete block counterpart in the current function. We need
// to find the concrete block so we can correctly add the
// variable to it
const DWARFDIE concrete_block_die =
FindBlockContainingSpecification(
GetDIE(sc.function->GetID()),
sc_parent_die.GetOffset());
if (concrete_block_die)
block = sc.function->GetBlock(true).FindBlockByID(
concrete_block_die.GetID());
}
if (block != nullptr) {
const bool can_create = false;
variable_list_sp = block->GetBlockVariableList(can_create);
if (variable_list_sp.get() == nullptr) {
variable_list_sp = std::make_shared<VariableList>();
block->SetVariableList(variable_list_sp);
}
}
}
break;
default:
GetObjectFile()->GetModule()->ReportError(
"didn't find appropriate parent DIE for variable list for "
"0x%8.8" PRIx64 " %s.\n",
orig_die.GetID(), orig_die.GetTagAsCString());
break;
}
}
if (variable_list_sp) {
VariableSP var_sp(ParseVariableDIE(sc, die, func_low_pc));
if (var_sp) {
variable_list_sp->AddVariableIfUnique(var_sp);
if (cc_variable_list)
cc_variable_list->AddVariableIfUnique(var_sp);
++vars_added;
}
}
}
}
bool skip_children = (sc.function == nullptr && tag == DW_TAG_subprogram);
if (!skip_children && parse_children && die.HasChildren()) {
vars_added += ParseVariables(sc, die.GetFirstChild(), func_low_pc, true,
true, cc_variable_list);
}
if (parse_siblings)
die = die.GetSibling();
else
die.Clear();
}
return vars_added;
}
/// Collect call site parameters in a DW_TAG_call_site DIE.
static CallSiteParameterArray
CollectCallSiteParameters(ModuleSP module, DWARFDIE call_site_die) {
CallSiteParameterArray parameters;
for (DWARFDIE child = call_site_die.GetFirstChild(); child.IsValid();
child = child.GetSibling()) {
if (child.Tag() != DW_TAG_call_site_parameter &&
child.Tag() != DW_TAG_GNU_call_site_parameter)
continue;
llvm::Optional<DWARFExpression> LocationInCallee;
llvm::Optional<DWARFExpression> LocationInCaller;
DWARFAttributes attributes;
const size_t num_attributes = child.GetAttributes(attributes);
// Parse the location at index \p attr_index within this call site parameter
// DIE, or return None on failure.
auto parse_simple_location =
[&](int attr_index) -> llvm::Optional<DWARFExpression> {
DWARFFormValue form_value;
if (!attributes.ExtractFormValueAtIndex(attr_index, form_value))
return {};
if (!DWARFFormValue::IsBlockForm(form_value.Form()))
return {};
auto data = child.GetData();
uint32_t block_offset = form_value.BlockData() - data.GetDataStart();
uint32_t block_length = form_value.Unsigned();
return DWARFExpression(module,
DataExtractor(data, block_offset, block_length),
child.GetCU());
};
for (size_t i = 0; i < num_attributes; ++i) {
dw_attr_t attr = attributes.AttributeAtIndex(i);
if (attr == DW_AT_location)
LocationInCallee = parse_simple_location(i);
if (attr == DW_AT_call_value || attr == DW_AT_GNU_call_site_value)
LocationInCaller = parse_simple_location(i);
}
if (LocationInCallee && LocationInCaller) {
CallSiteParameter param = {*LocationInCallee, *LocationInCaller};
parameters.push_back(param);
}
}
return parameters;
}
/// Collect call graph edges present in a function DIE.
std::vector<std::unique_ptr<lldb_private::CallEdge>>
SymbolFileDWARF::CollectCallEdges(ModuleSP module, DWARFDIE function_die) {
// Check if the function has a supported call site-related attribute.
// TODO: In the future it may be worthwhile to support call_all_source_calls.
bool has_call_edges =
function_die.GetAttributeValueAsUnsigned(DW_AT_call_all_calls, 0) ||
function_die.GetAttributeValueAsUnsigned(DW_AT_GNU_all_call_sites, 0);
if (!has_call_edges)
return {};
Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
LLDB_LOG(log, "CollectCallEdges: Found call site info in {0}",
function_die.GetPubname());
// Scan the DIE for TAG_call_site entries.
// TODO: A recursive scan of all blocks in the subprogram is needed in order
// to be DWARF5-compliant. This may need to be done lazily to be performant.
// For now, assume that all entries are nested directly under the subprogram
// (this is the kind of DWARF LLVM produces) and parse them eagerly.
std::vector<std::unique_ptr<CallEdge>> call_edges;
for (DWARFDIE child = function_die.GetFirstChild(); child.IsValid();
child = child.GetSibling()) {
if (child.Tag() != DW_TAG_call_site && child.Tag() != DW_TAG_GNU_call_site)
continue;
llvm::Optional<DWARFDIE> call_origin;
llvm::Optional<DWARFExpression> call_target;
addr_t return_pc = LLDB_INVALID_ADDRESS;
addr_t call_inst_pc = LLDB_INVALID_ADDRESS;
addr_t low_pc = LLDB_INVALID_ADDRESS;
bool tail_call = false;
// Second DW_AT_low_pc may come from DW_TAG_subprogram referenced by
// DW_TAG_GNU_call_site's DW_AT_abstract_origin overwriting our 'low_pc'.
// So do not inherit attributes from DW_AT_abstract_origin.
DWARFAttributes attributes;
const size_t num_attributes =
child.GetAttributes(attributes, DWARFDIE::Recurse::no);
for (size_t i = 0; i < num_attributes; ++i) {
DWARFFormValue form_value;
if (!attributes.ExtractFormValueAtIndex(i, form_value)) {
LLDB_LOG(log, "CollectCallEdges: Could not extract TAG_call_site form");
break;
}
dw_attr_t attr = attributes.AttributeAtIndex(i);
if (attr == DW_AT_call_tail_call || attr == DW_AT_GNU_tail_call)
tail_call = form_value.Boolean();
// Extract DW_AT_call_origin (the call target's DIE).
if (attr == DW_AT_call_origin || attr == DW_AT_abstract_origin) {
call_origin = form_value.Reference();
if (!call_origin->IsValid()) {
LLDB_LOG(log, "CollectCallEdges: Invalid call origin in {0}",
function_die.GetPubname());
break;
}
}
if (attr == DW_AT_low_pc)
low_pc = form_value.Address();
// Extract DW_AT_call_return_pc (the PC the call returns to) if it's
// available. It should only ever be unavailable for tail call edges, in
// which case use LLDB_INVALID_ADDRESS.
if (attr == DW_AT_call_return_pc)
return_pc = form_value.Address();
// Extract DW_AT_call_pc (the PC at the call/branch instruction). It
// should only ever be unavailable for non-tail calls, in which case use
// LLDB_INVALID_ADDRESS.
if (attr == DW_AT_call_pc)
call_inst_pc = form_value.Address();
// Extract DW_AT_call_target (the location of the address of the indirect
// call).
if (attr == DW_AT_call_target || attr == DW_AT_GNU_call_site_target) {
if (!DWARFFormValue::IsBlockForm(form_value.Form())) {
LLDB_LOG(log,
"CollectCallEdges: AT_call_target does not have block form");
break;
}
auto data = child.GetData();
uint32_t block_offset = form_value.BlockData() - data.GetDataStart();
uint32_t block_length = form_value.Unsigned();
call_target = DWARFExpression(
module, DataExtractor(data, block_offset, block_length),
child.GetCU());
}
}
if (!call_origin && !call_target) {
LLDB_LOG(log, "CollectCallEdges: call site without any call target");
continue;
}
addr_t caller_address;
CallEdge::AddrType caller_address_type;
if (return_pc != LLDB_INVALID_ADDRESS) {
caller_address = return_pc;
caller_address_type = CallEdge::AddrType::AfterCall;
} else if (low_pc != LLDB_INVALID_ADDRESS) {
caller_address = low_pc;
caller_address_type = CallEdge::AddrType::AfterCall;
} else if (call_inst_pc != LLDB_INVALID_ADDRESS) {
caller_address = call_inst_pc;
caller_address_type = CallEdge::AddrType::Call;
} else {
LLDB_LOG(log, "CollectCallEdges: No caller address");
continue;
}
// Adjust any PC forms. It needs to be fixed up if the main executable
// contains a debug map (i.e. pointers to object files), because we need a
// file address relative to the executable's text section.
caller_address = FixupAddress(caller_address);
// Extract call site parameters.
CallSiteParameterArray parameters =
CollectCallSiteParameters(module, child);
std::unique_ptr<CallEdge> edge;
if (call_origin) {
LLDB_LOG(log,
"CollectCallEdges: Found call origin: {0} (retn-PC: {1:x}) "
"(call-PC: {2:x})",
call_origin->GetPubname(), return_pc, call_inst_pc);
edge = std::make_unique<DirectCallEdge>(
call_origin->GetMangledName(), caller_address_type, caller_address,
tail_call, std::move(parameters));
} else {
if (log) {
StreamString call_target_desc;
call_target->GetDescription(&call_target_desc, eDescriptionLevelBrief,
LLDB_INVALID_ADDRESS, nullptr);
LLDB_LOG(log, "CollectCallEdges: Found indirect call target: {0}",
call_target_desc.GetString());
}
edge = std::make_unique<IndirectCallEdge>(
*call_target, caller_address_type, caller_address, tail_call,
std::move(parameters));
}
if (log && parameters.size()) {
for (const CallSiteParameter ¶m : parameters) {
StreamString callee_loc_desc, caller_loc_desc;
param.LocationInCallee.GetDescription(&callee_loc_desc,
eDescriptionLevelBrief,
LLDB_INVALID_ADDRESS, nullptr);
param.LocationInCaller.GetDescription(&caller_loc_desc,
eDescriptionLevelBrief,
LLDB_INVALID_ADDRESS, nullptr);
LLDB_LOG(log, "CollectCallEdges: \tparam: {0} => {1}",
callee_loc_desc.GetString(), caller_loc_desc.GetString());
}
}
call_edges.push_back(std::move(edge));
}
return call_edges;
}
std::vector<std::unique_ptr<lldb_private::CallEdge>>
SymbolFileDWARF::ParseCallEdgesInFunction(UserID func_id) {
// ParseCallEdgesInFunction must be called at the behest of an exclusively
// locked lldb::Function instance. Storage for parsed call edges is owned by
// the lldb::Function instance: locking at the SymbolFile level would be too
// late, because the act of storing results from ParseCallEdgesInFunction
// would be racy.
DWARFDIE func_die = GetDIE(func_id.GetID());
if (func_die.IsValid())
return CollectCallEdges(GetObjectFile()->GetModule(), func_die);
return {};
}
// PluginInterface protocol
ConstString SymbolFileDWARF::GetPluginName() { return GetPluginNameStatic(); }
uint32_t SymbolFileDWARF::GetPluginVersion() { return 1; }
void SymbolFileDWARF::Dump(lldb_private::Stream &s) {
SymbolFile::Dump(s);
m_index->Dump(s);
}
void SymbolFileDWARF::DumpClangAST(Stream &s) {
auto ts_or_err = GetTypeSystemForLanguage(eLanguageTypeC_plus_plus);
if (!ts_or_err)
return;
TypeSystemClang *clang =
llvm::dyn_cast_or_null<TypeSystemClang>(&ts_or_err.get());
if (!clang)
return;
clang->Dump(s);
}
SymbolFileDWARFDebugMap *SymbolFileDWARF::GetDebugMapSymfile() {
if (m_debug_map_symfile == nullptr && !m_debug_map_module_wp.expired()) {
lldb::ModuleSP module_sp(m_debug_map_module_wp.lock());
if (module_sp) {
m_debug_map_symfile =
static_cast<SymbolFileDWARFDebugMap *>(module_sp->GetSymbolFile());
}
}
return m_debug_map_symfile;
}
const std::shared_ptr<SymbolFileDWARFDwo> &SymbolFileDWARF::GetDwpSymbolFile() {
llvm::call_once(m_dwp_symfile_once_flag, [this]() {
ModuleSpec module_spec;
module_spec.GetFileSpec() = m_objfile_sp->GetFileSpec();
module_spec.GetSymbolFileSpec() =
FileSpec(m_objfile_sp->GetModule()->GetFileSpec().GetPath() + ".dwp");
FileSpecList search_paths = Target::GetDefaultDebugFileSearchPaths();
FileSpec dwp_filespec =
Symbols::LocateExecutableSymbolFile(module_spec, search_paths);
if (FileSystem::Instance().Exists(dwp_filespec)) {
DataBufferSP dwp_file_data_sp;
lldb::offset_t dwp_file_data_offset = 0;
ObjectFileSP dwp_obj_file = ObjectFile::FindPlugin(
GetObjectFile()->GetModule(), &dwp_filespec, 0,
FileSystem::Instance().GetByteSize(dwp_filespec), dwp_file_data_sp,
dwp_file_data_offset);
if (!dwp_obj_file)
return;
m_dwp_symfile =
std::make_shared<SymbolFileDWARFDwo>(*this, dwp_obj_file, 0x3fffffff);
}
});
return m_dwp_symfile;
}
llvm::Expected<TypeSystem &> SymbolFileDWARF::GetTypeSystem(DWARFUnit &unit) {
return unit.GetSymbolFileDWARF().GetTypeSystemForLanguage(GetLanguage(unit));
}
DWARFASTParser *SymbolFileDWARF::GetDWARFParser(DWARFUnit &unit) {
auto type_system_or_err = GetTypeSystem(unit);
if (auto err = type_system_or_err.takeError()) {
LLDB_LOG_ERROR(lldb_private::GetLogIfAnyCategoriesSet(LIBLLDB_LOG_SYMBOLS),
std::move(err), "Unable to get DWARFASTParser");
return nullptr;
}
return type_system_or_err->GetDWARFParser();
}
CompilerDecl SymbolFileDWARF::GetDecl(const DWARFDIE &die) {
if (DWARFASTParser *dwarf_ast = GetDWARFParser(*die.GetCU()))
return dwarf_ast->GetDeclForUIDFromDWARF(die);
return CompilerDecl();
}
CompilerDeclContext SymbolFileDWARF::GetDeclContext(const DWARFDIE &die) {
if (DWARFASTParser *dwarf_ast = GetDWARFParser(*die.GetCU()))
return dwarf_ast->GetDeclContextForUIDFromDWARF(die);
return CompilerDeclContext();
}
CompilerDeclContext
SymbolFileDWARF::GetContainingDeclContext(const DWARFDIE &die) {
if (DWARFASTParser *dwarf_ast = GetDWARFParser(*die.GetCU()))
return dwarf_ast->GetDeclContextContainingUIDFromDWARF(die);
return CompilerDeclContext();
}
DWARFDeclContext SymbolFileDWARF::GetDWARFDeclContext(const DWARFDIE &die) {
if (!die.IsValid())
return {};
DWARFDeclContext dwarf_decl_ctx =
die.GetDIE()->GetDWARFDeclContext(die.GetCU());
dwarf_decl_ctx.SetLanguage(GetLanguage(*die.GetCU()));
return dwarf_decl_ctx;
}
LanguageType SymbolFileDWARF::LanguageTypeFromDWARF(uint64_t val) {
// Note: user languages between lo_user and hi_user must be handled
// explicitly here.
switch (val) {
case DW_LANG_Mips_Assembler:
return eLanguageTypeMipsAssembler;
case DW_LANG_GOOGLE_RenderScript:
return eLanguageTypeExtRenderScript;
default:
return static_cast<LanguageType>(val);
}
}
LanguageType SymbolFileDWARF::GetLanguage(DWARFUnit &unit) {
return LanguageTypeFromDWARF(unit.GetDWARFLanguageType());
}