DWARFUnit.cpp
32.7 KB
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//===-- DWARFUnit.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 "DWARFUnit.h"
#include "lldb/Core/Module.h"
#include "lldb/Host/StringConvert.h"
#include "lldb/Symbol/ObjectFile.h"
#include "lldb/Utility/LLDBAssert.h"
#include "lldb/Utility/StreamString.h"
#include "lldb/Utility/Timer.h"
#include "llvm/Object/Error.h"
#include "DWARFCompileUnit.h"
#include "DWARFDebugAranges.h"
#include "DWARFDebugInfo.h"
#include "DWARFTypeUnit.h"
#include "LogChannelDWARF.h"
#include "SymbolFileDWARFDwo.h"
using namespace lldb;
using namespace lldb_private;
using namespace std;
extern int g_verbose;
DWARFUnit::DWARFUnit(SymbolFileDWARF &dwarf, lldb::user_id_t uid,
const DWARFUnitHeader &header,
const DWARFAbbreviationDeclarationSet &abbrevs,
DIERef::Section section, bool is_dwo)
: UserID(uid), m_dwarf(dwarf), m_header(header), m_abbrevs(&abbrevs),
m_cancel_scopes(false), m_section(section), m_is_dwo(is_dwo) {}
DWARFUnit::~DWARFUnit() = default;
// Parses first DIE of a compile unit.
void DWARFUnit::ExtractUnitDIEIfNeeded() {
{
llvm::sys::ScopedReader lock(m_first_die_mutex);
if (m_first_die)
return; // Already parsed
}
llvm::sys::ScopedWriter lock(m_first_die_mutex);
if (m_first_die)
return; // Already parsed
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat, "%8.8x: DWARFUnit::ExtractUnitDIEIfNeeded()",
GetOffset());
// Set the offset to that of the first DIE and calculate the start of the
// next compilation unit header.
lldb::offset_t offset = GetFirstDIEOffset();
// We are in our compile unit, parse starting at the offset we were told to
// parse
const DWARFDataExtractor &data = GetData();
if (offset < GetNextUnitOffset() &&
m_first_die.Extract(data, this, &offset)) {
AddUnitDIE(m_first_die);
return;
}
}
// Parses a compile unit and indexes its DIEs if it hasn't already been done.
// It will leave this compile unit extracted forever.
void DWARFUnit::ExtractDIEsIfNeeded() {
m_cancel_scopes = true;
{
llvm::sys::ScopedReader lock(m_die_array_mutex);
if (!m_die_array.empty())
return; // Already parsed
}
llvm::sys::ScopedWriter lock(m_die_array_mutex);
if (!m_die_array.empty())
return; // Already parsed
ExtractDIEsRWLocked();
}
// Parses a compile unit and indexes its DIEs if it hasn't already been done.
// It will clear this compile unit after returned instance gets out of scope,
// no other ScopedExtractDIEs instance is running for this compile unit
// and no ExtractDIEsIfNeeded() has been executed during this ScopedExtractDIEs
// lifetime.
DWARFUnit::ScopedExtractDIEs DWARFUnit::ExtractDIEsScoped() {
ScopedExtractDIEs scoped(*this);
{
llvm::sys::ScopedReader lock(m_die_array_mutex);
if (!m_die_array.empty())
return scoped; // Already parsed
}
llvm::sys::ScopedWriter lock(m_die_array_mutex);
if (!m_die_array.empty())
return scoped; // Already parsed
// Otherwise m_die_array would be already populated.
lldbassert(!m_cancel_scopes);
ExtractDIEsRWLocked();
scoped.m_clear_dies = true;
return scoped;
}
DWARFUnit::ScopedExtractDIEs::ScopedExtractDIEs(DWARFUnit &cu) : m_cu(&cu) {
m_cu->m_die_array_scoped_mutex.lock_shared();
}
DWARFUnit::ScopedExtractDIEs::~ScopedExtractDIEs() {
if (!m_cu)
return;
m_cu->m_die_array_scoped_mutex.unlock_shared();
if (!m_clear_dies || m_cu->m_cancel_scopes)
return;
// Be sure no other ScopedExtractDIEs is running anymore.
llvm::sys::ScopedWriter lock_scoped(m_cu->m_die_array_scoped_mutex);
llvm::sys::ScopedWriter lock(m_cu->m_die_array_mutex);
if (m_cu->m_cancel_scopes)
return;
m_cu->ClearDIEsRWLocked();
}
DWARFUnit::ScopedExtractDIEs::ScopedExtractDIEs(ScopedExtractDIEs &&rhs)
: m_cu(rhs.m_cu), m_clear_dies(rhs.m_clear_dies) {
rhs.m_cu = nullptr;
}
DWARFUnit::ScopedExtractDIEs &DWARFUnit::ScopedExtractDIEs::operator=(
DWARFUnit::ScopedExtractDIEs &&rhs) {
m_cu = rhs.m_cu;
rhs.m_cu = nullptr;
m_clear_dies = rhs.m_clear_dies;
return *this;
}
// Parses a compile unit and indexes its DIEs, m_die_array_mutex must be
// held R/W and m_die_array must be empty.
void DWARFUnit::ExtractDIEsRWLocked() {
llvm::sys::ScopedWriter first_die_lock(m_first_die_mutex);
static Timer::Category func_cat(LLVM_PRETTY_FUNCTION);
Timer scoped_timer(func_cat, "%8.8x: DWARFUnit::ExtractDIEsIfNeeded()",
GetOffset());
// Set the offset to that of the first DIE and calculate the start of the
// next compilation unit header.
lldb::offset_t offset = GetFirstDIEOffset();
lldb::offset_t next_cu_offset = GetNextUnitOffset();
DWARFDebugInfoEntry die;
uint32_t depth = 0;
// We are in our compile unit, parse starting at the offset we were told to
// parse
const DWARFDataExtractor &data = GetData();
std::vector<uint32_t> die_index_stack;
die_index_stack.reserve(32);
die_index_stack.push_back(0);
bool prev_die_had_children = false;
while (offset < next_cu_offset && die.Extract(data, this, &offset)) {
const bool null_die = die.IsNULL();
if (depth == 0) {
assert(m_die_array.empty() && "Compile unit DIE already added");
// The average bytes per DIE entry has been seen to be around 14-20 so
// lets pre-reserve half of that since we are now stripping the NULL
// tags.
// Only reserve the memory if we are adding children of the main
// compile unit DIE. The compile unit DIE is always the first entry, so
// if our size is 1, then we are adding the first compile unit child
// DIE and should reserve the memory.
m_die_array.reserve(GetDebugInfoSize() / 24);
m_die_array.push_back(die);
if (!m_first_die)
AddUnitDIE(m_die_array.front());
// With -fsplit-dwarf-inlining, clang will emit non-empty skeleton compile
// units. We are not able to access these DIE *and* the dwo file
// simultaneously. We also don't need to do that as the dwo file will
// contain a superset of information. So, we don't even attempt to parse
// any remaining DIEs.
if (m_dwo) {
m_die_array.front().SetHasChildren(false);
break;
}
} else {
if (null_die) {
if (prev_die_had_children) {
// This will only happen if a DIE says is has children but all it
// contains is a NULL tag. Since we are removing the NULL DIEs from
// the list (saves up to 25% in C++ code), we need a way to let the
// DIE know that it actually doesn't have children.
if (!m_die_array.empty())
m_die_array.back().SetHasChildren(false);
}
} else {
die.SetParentIndex(m_die_array.size() - die_index_stack[depth - 1]);
if (die_index_stack.back())
m_die_array[die_index_stack.back()].SetSiblingIndex(
m_die_array.size() - die_index_stack.back());
// Only push the DIE if it isn't a NULL DIE
m_die_array.push_back(die);
}
}
if (null_die) {
// NULL DIE.
if (!die_index_stack.empty())
die_index_stack.pop_back();
if (depth > 0)
--depth;
prev_die_had_children = false;
} else {
die_index_stack.back() = m_die_array.size() - 1;
// Normal DIE
const bool die_has_children = die.HasChildren();
if (die_has_children) {
die_index_stack.push_back(0);
++depth;
}
prev_die_had_children = die_has_children;
}
if (depth == 0)
break; // We are done with this compile unit!
}
if (!m_die_array.empty()) {
if (m_first_die) {
// Only needed for the assertion.
m_first_die.SetHasChildren(m_die_array.front().HasChildren());
lldbassert(m_first_die == m_die_array.front());
}
m_first_die = m_die_array.front();
}
m_die_array.shrink_to_fit();
if (m_dwo)
m_dwo->ExtractDIEsIfNeeded();
}
// This is used when a split dwarf is enabled.
// A skeleton compilation unit may contain the DW_AT_str_offsets_base attribute
// that points to the first string offset of the CU contribution to the
// .debug_str_offsets. At the same time, the corresponding split debug unit also
// may use DW_FORM_strx* forms pointing to its own .debug_str_offsets.dwo and
// for that case, we should find the offset (skip the section header).
void DWARFUnit::SetDwoStrOffsetsBase() {
lldb::offset_t baseOffset = 0;
if (const llvm::DWARFUnitIndex::Entry *entry = m_header.GetIndexEntry()) {
if (const auto *contribution =
entry->getContribution(llvm::DW_SECT_STR_OFFSETS))
baseOffset = contribution->Offset;
else
return;
}
if (GetVersion() >= 5) {
const DWARFDataExtractor &strOffsets =
GetSymbolFileDWARF().GetDWARFContext().getOrLoadStrOffsetsData();
uint64_t length = strOffsets.GetU32(&baseOffset);
if (length == 0xffffffff)
length = strOffsets.GetU64(&baseOffset);
// Check version.
if (strOffsets.GetU16(&baseOffset) < 5)
return;
// Skip padding.
baseOffset += 2;
}
SetStrOffsetsBase(baseOffset);
}
// m_die_array_mutex must be already held as read/write.
void DWARFUnit::AddUnitDIE(const DWARFDebugInfoEntry &cu_die) {
llvm::Optional<uint64_t> addr_base, gnu_addr_base, ranges_base,
gnu_ranges_base;
DWARFAttributes attributes;
size_t num_attributes = cu_die.GetAttributes(this, attributes);
// Extract DW_AT_addr_base first, as other attributes may need it.
for (size_t i = 0; i < num_attributes; ++i) {
if (attributes.AttributeAtIndex(i) != DW_AT_addr_base)
continue;
DWARFFormValue form_value;
if (attributes.ExtractFormValueAtIndex(i, form_value)) {
addr_base = form_value.Unsigned();
SetAddrBase(*addr_base);
break;
}
}
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_loclists_base:
SetLoclistsBase(form_value.Unsigned());
break;
case DW_AT_rnglists_base:
ranges_base = form_value.Unsigned();
SetRangesBase(*ranges_base);
break;
case DW_AT_str_offsets_base:
SetStrOffsetsBase(form_value.Unsigned());
break;
case DW_AT_low_pc:
SetBaseAddress(form_value.Address());
break;
case DW_AT_entry_pc:
// If the value was already set by DW_AT_low_pc, don't update it.
if (m_base_addr == LLDB_INVALID_ADDRESS)
SetBaseAddress(form_value.Address());
break;
case DW_AT_stmt_list:
m_line_table_offset = form_value.Unsigned();
break;
case DW_AT_GNU_addr_base:
gnu_addr_base = form_value.Unsigned();
break;
case DW_AT_GNU_ranges_base:
gnu_ranges_base = form_value.Unsigned();
break;
}
}
if (m_is_dwo) {
SetDwoStrOffsetsBase();
return;
}
std::shared_ptr<SymbolFileDWARFDwo> dwo_symbol_file =
m_dwarf.GetDwoSymbolFileForCompileUnit(*this, cu_die);
if (!dwo_symbol_file)
return;
uint64_t main_dwo_id =
cu_die.GetAttributeValueAsUnsigned(this, DW_AT_GNU_dwo_id, 0);
DWARFUnit *dwo_cu = dwo_symbol_file->GetDWOCompileUnitForHash(main_dwo_id);
if (!dwo_cu)
return; // Can't fetch the compile unit from the dwo file.
dwo_cu->SetUserData(this);
DWARFBaseDIE dwo_cu_die = dwo_cu->GetUnitDIEOnly();
if (!dwo_cu_die.IsValid())
return; // Can't fetch the compile unit DIE from the dwo file.
// Here for DWO CU we want to use the address base set in the skeleton unit
// (DW_AT_addr_base) if it is available and use the DW_AT_GNU_addr_base
// otherwise. We do that because pre-DWARF v5 could use the DW_AT_GNU_*
// attributes which were applicable to the DWO units. The corresponding
// DW_AT_* attributes standardized in DWARF v5 are also applicable to the main
// unit in contrast.
if (addr_base)
dwo_cu->SetAddrBase(*addr_base);
else if (gnu_addr_base)
dwo_cu->SetAddrBase(*gnu_addr_base);
if (GetVersion() <= 4 && gnu_ranges_base)
dwo_cu->SetRangesBase(*gnu_ranges_base);
else if (dwo_symbol_file->GetDWARFContext()
.getOrLoadRngListsData()
.GetByteSize() > 0)
dwo_cu->SetRangesBase(llvm::DWARFListTableHeader::getHeaderSize(DWARF32));
if (GetVersion() >= 5 &&
dwo_symbol_file->GetDWARFContext().getOrLoadLocListsData().GetByteSize() >
0)
dwo_cu->SetLoclistsBase(llvm::DWARFListTableHeader::getHeaderSize(DWARF32));
dwo_cu->SetBaseAddress(GetBaseAddress());
m_dwo = std::shared_ptr<DWARFUnit>(std::move(dwo_symbol_file), dwo_cu);
}
DWARFDIE DWARFUnit::LookupAddress(const dw_addr_t address) {
if (DIE()) {
const DWARFDebugAranges &func_aranges = GetFunctionAranges();
// Re-check the aranges auto pointer contents in case it was created above
if (!func_aranges.IsEmpty())
return GetDIE(func_aranges.FindAddress(address));
}
return DWARFDIE();
}
size_t DWARFUnit::GetDebugInfoSize() const {
return GetLengthByteSize() + GetLength() - GetHeaderByteSize();
}
const DWARFAbbreviationDeclarationSet *DWARFUnit::GetAbbreviations() const {
return m_abbrevs;
}
dw_offset_t DWARFUnit::GetAbbrevOffset() const {
return m_abbrevs ? m_abbrevs->GetOffset() : DW_INVALID_OFFSET;
}
dw_offset_t DWARFUnit::GetLineTableOffset() {
ExtractUnitDIEIfNeeded();
return m_line_table_offset;
}
void DWARFUnit::SetAddrBase(dw_addr_t addr_base) { m_addr_base = addr_base; }
// Parse the rangelist table header, including the optional array of offsets
// following it (DWARF v5 and later).
template <typename ListTableType>
static llvm::Expected<ListTableType>
ParseListTableHeader(const llvm::DWARFDataExtractor &data, uint64_t offset,
DwarfFormat format) {
// We are expected to be called with Offset 0 or pointing just past the table
// header. Correct Offset in the latter case so that it points to the start
// of the header.
if (offset > 0) {
uint64_t HeaderSize = llvm::DWARFListTableHeader::getHeaderSize(format);
if (offset < HeaderSize)
return llvm::createStringError(errc::invalid_argument,
"did not detect a valid"
" list table with base = 0x%" PRIx64 "\n",
offset);
offset -= HeaderSize;
}
ListTableType Table;
if (llvm::Error E = Table.extractHeaderAndOffsets(data, &offset))
return std::move(E);
return Table;
}
void DWARFUnit::SetLoclistsBase(dw_addr_t loclists_base) {
m_loclists_base = loclists_base;
uint64_t header_size = llvm::DWARFListTableHeader::getHeaderSize(DWARF32);
if (loclists_base < header_size)
return;
m_loclist_table_header.emplace(".debug_loclists", "locations");
uint64_t offset = loclists_base - header_size;
if (llvm::Error E = m_loclist_table_header->extract(
m_dwarf.GetDWARFContext().getOrLoadLocListsData().GetAsLLVM(),
&offset)) {
GetSymbolFileDWARF().GetObjectFile()->GetModule()->ReportError(
"Failed to extract location list table at offset 0x%" PRIx64 ": %s",
loclists_base, toString(std::move(E)).c_str());
}
}
std::unique_ptr<llvm::DWARFLocationTable>
DWARFUnit::GetLocationTable(const DataExtractor &data) const {
llvm::DWARFDataExtractor llvm_data(
data.GetData(), data.GetByteOrder() == lldb::eByteOrderLittle,
data.GetAddressByteSize());
if (m_is_dwo || GetVersion() >= 5)
return std::make_unique<llvm::DWARFDebugLoclists>(llvm_data, GetVersion());
return std::make_unique<llvm::DWARFDebugLoc>(llvm_data);
}
DWARFDataExtractor DWARFUnit::GetLocationData() const {
DWARFContext &Ctx = GetSymbolFileDWARF().GetDWARFContext();
const DWARFDataExtractor &data =
GetVersion() >= 5 ? Ctx.getOrLoadLocListsData() : Ctx.getOrLoadLocData();
if (const llvm::DWARFUnitIndex::Entry *entry = m_header.GetIndexEntry()) {
if (const auto *contribution = entry->getContribution(llvm::DW_SECT_EXT_LOC))
return DWARFDataExtractor(data, contribution->Offset,
contribution->Length);
return DWARFDataExtractor();
}
return data;
}
void DWARFUnit::SetRangesBase(dw_addr_t ranges_base) {
m_ranges_base = ranges_base;
if (GetVersion() < 5)
return;
if (auto table_or_error = ParseListTableHeader<llvm::DWARFDebugRnglistTable>(
m_dwarf.GetDWARFContext().getOrLoadRngListsData().GetAsLLVM(),
ranges_base, DWARF32))
m_rnglist_table = std::move(table_or_error.get());
else
GetSymbolFileDWARF().GetObjectFile()->GetModule()->ReportError(
"Failed to extract range list table at offset 0x%" PRIx64 ": %s",
ranges_base, toString(table_or_error.takeError()).c_str());
}
void DWARFUnit::SetStrOffsetsBase(dw_offset_t str_offsets_base) {
m_str_offsets_base = str_offsets_base;
}
// It may be called only with m_die_array_mutex held R/W.
void DWARFUnit::ClearDIEsRWLocked() {
m_die_array.clear();
m_die_array.shrink_to_fit();
if (m_dwo)
m_dwo->ClearDIEsRWLocked();
}
lldb::ByteOrder DWARFUnit::GetByteOrder() const {
return m_dwarf.GetObjectFile()->GetByteOrder();
}
void DWARFUnit::SetBaseAddress(dw_addr_t base_addr) { m_base_addr = base_addr; }
// Compare function DWARFDebugAranges::Range structures
static bool CompareDIEOffset(const DWARFDebugInfoEntry &die,
const dw_offset_t die_offset) {
return die.GetOffset() < die_offset;
}
// GetDIE()
//
// Get the DIE (Debug Information Entry) with the specified offset by first
// checking if the DIE is contained within this compile unit and grabbing the
// DIE from this compile unit. Otherwise we grab the DIE from the DWARF file.
DWARFDIE
DWARFUnit::GetDIE(dw_offset_t die_offset) {
if (die_offset != DW_INVALID_OFFSET) {
if (ContainsDIEOffset(die_offset)) {
ExtractDIEsIfNeeded();
DWARFDebugInfoEntry::const_iterator end = m_die_array.cend();
DWARFDebugInfoEntry::const_iterator pos =
lower_bound(m_die_array.cbegin(), end, die_offset, CompareDIEOffset);
if (pos != end) {
if (die_offset == (*pos).GetOffset())
return DWARFDIE(this, &(*pos));
}
} else
GetSymbolFileDWARF().GetObjectFile()->GetModule()->ReportError(
"GetDIE for DIE 0x%" PRIx32 " is outside of its CU 0x%" PRIx32,
die_offset, GetOffset());
}
return DWARFDIE(); // Not found
}
DWARFUnit &DWARFUnit::GetNonSkeletonUnit() {
ExtractUnitDIEIfNeeded();
if (m_dwo)
return *m_dwo;
return *this;
}
uint8_t DWARFUnit::GetAddressByteSize(const DWARFUnit *cu) {
if (cu)
return cu->GetAddressByteSize();
return DWARFUnit::GetDefaultAddressSize();
}
uint8_t DWARFUnit::GetDefaultAddressSize() { return 4; }
void *DWARFUnit::GetUserData() const { return m_user_data; }
void DWARFUnit::SetUserData(void *d) { m_user_data = d; }
bool DWARFUnit::Supports_DW_AT_APPLE_objc_complete_type() {
return GetProducer() != eProducerLLVMGCC;
}
bool DWARFUnit::DW_AT_decl_file_attributes_are_invalid() {
// llvm-gcc makes completely invalid decl file attributes and won't ever be
// fixed, so we need to know to ignore these.
return GetProducer() == eProducerLLVMGCC;
}
bool DWARFUnit::Supports_unnamed_objc_bitfields() {
if (GetProducer() == eProducerClang) {
const uint32_t major_version = GetProducerVersionMajor();
return major_version > 425 ||
(major_version == 425 && GetProducerVersionUpdate() >= 13);
}
return true; // Assume all other compilers didn't have incorrect ObjC bitfield
// info
}
void DWARFUnit::ParseProducerInfo() {
m_producer_version_major = UINT32_MAX;
m_producer_version_minor = UINT32_MAX;
m_producer_version_update = UINT32_MAX;
const DWARFDebugInfoEntry *die = GetUnitDIEPtrOnly();
if (die) {
const char *producer_cstr =
die->GetAttributeValueAsString(this, DW_AT_producer, nullptr);
if (producer_cstr) {
RegularExpression llvm_gcc_regex(
llvm::StringRef("^4\\.[012]\\.[01] \\(Based on Apple "
"Inc\\. build [0-9]+\\) \\(LLVM build "
"[\\.0-9]+\\)$"));
if (llvm_gcc_regex.Execute(llvm::StringRef(producer_cstr))) {
m_producer = eProducerLLVMGCC;
} else if (strstr(producer_cstr, "clang")) {
static RegularExpression g_clang_version_regex(
llvm::StringRef("clang-([0-9]+)\\.([0-9]+)\\.([0-9]+)"));
llvm::SmallVector<llvm::StringRef, 4> matches;
if (g_clang_version_regex.Execute(llvm::StringRef(producer_cstr),
&matches)) {
m_producer_version_major =
StringConvert::ToUInt32(matches[1].str().c_str(), UINT32_MAX, 10);
m_producer_version_minor =
StringConvert::ToUInt32(matches[2].str().c_str(), UINT32_MAX, 10);
m_producer_version_update =
StringConvert::ToUInt32(matches[3].str().c_str(), UINT32_MAX, 10);
}
m_producer = eProducerClang;
} else if (strstr(producer_cstr, "GNU"))
m_producer = eProducerGCC;
}
}
if (m_producer == eProducerInvalid)
m_producer = eProcucerOther;
}
DWARFProducer DWARFUnit::GetProducer() {
if (m_producer == eProducerInvalid)
ParseProducerInfo();
return m_producer;
}
uint32_t DWARFUnit::GetProducerVersionMajor() {
if (m_producer_version_major == 0)
ParseProducerInfo();
return m_producer_version_major;
}
uint32_t DWARFUnit::GetProducerVersionMinor() {
if (m_producer_version_minor == 0)
ParseProducerInfo();
return m_producer_version_minor;
}
uint32_t DWARFUnit::GetProducerVersionUpdate() {
if (m_producer_version_update == 0)
ParseProducerInfo();
return m_producer_version_update;
}
uint64_t DWARFUnit::GetDWARFLanguageType() {
if (m_language_type)
return *m_language_type;
const DWARFDebugInfoEntry *die = GetUnitDIEPtrOnly();
if (!die)
m_language_type = 0;
else
m_language_type = die->GetAttributeValueAsUnsigned(this, DW_AT_language, 0);
return *m_language_type;
}
bool DWARFUnit::GetIsOptimized() {
if (m_is_optimized == eLazyBoolCalculate) {
const DWARFDebugInfoEntry *die = GetUnitDIEPtrOnly();
if (die) {
m_is_optimized = eLazyBoolNo;
if (die->GetAttributeValueAsUnsigned(this, DW_AT_APPLE_optimized, 0) ==
1) {
m_is_optimized = eLazyBoolYes;
}
}
}
return m_is_optimized == eLazyBoolYes;
}
FileSpec::Style DWARFUnit::GetPathStyle() {
if (!m_comp_dir)
ComputeCompDirAndGuessPathStyle();
return m_comp_dir->GetPathStyle();
}
const FileSpec &DWARFUnit::GetCompilationDirectory() {
if (!m_comp_dir)
ComputeCompDirAndGuessPathStyle();
return *m_comp_dir;
}
const FileSpec &DWARFUnit::GetAbsolutePath() {
if (!m_file_spec)
ComputeAbsolutePath();
return *m_file_spec;
}
FileSpec DWARFUnit::GetFile(size_t file_idx) {
return m_dwarf.GetFile(*this, file_idx);
}
// DWARF2/3 suggests the form hostname:pathname for compilation directory.
// Remove the host part if present.
static llvm::StringRef
removeHostnameFromPathname(llvm::StringRef path_from_dwarf) {
if (!path_from_dwarf.contains(':'))
return path_from_dwarf;
llvm::StringRef host, path;
std::tie(host, path) = path_from_dwarf.split(':');
if (host.contains('/'))
return path_from_dwarf;
// check whether we have a windows path, and so the first character is a
// drive-letter not a hostname.
if (host.size() == 1 && llvm::isAlpha(host[0]) && path.startswith("\\"))
return path_from_dwarf;
return path;
}
void DWARFUnit::ComputeCompDirAndGuessPathStyle() {
m_comp_dir = FileSpec();
const DWARFDebugInfoEntry *die = GetUnitDIEPtrOnly();
if (!die)
return;
llvm::StringRef comp_dir = removeHostnameFromPathname(
die->GetAttributeValueAsString(this, DW_AT_comp_dir, nullptr));
if (!comp_dir.empty()) {
FileSpec::Style comp_dir_style =
FileSpec::GuessPathStyle(comp_dir).getValueOr(FileSpec::Style::native);
m_comp_dir = FileSpec(comp_dir, comp_dir_style);
} else {
// Try to detect the style based on the DW_AT_name attribute, but just store
// the detected style in the m_comp_dir field.
const char *name =
die->GetAttributeValueAsString(this, DW_AT_name, nullptr);
m_comp_dir = FileSpec(
"", FileSpec::GuessPathStyle(name).getValueOr(FileSpec::Style::native));
}
}
void DWARFUnit::ComputeAbsolutePath() {
m_file_spec = FileSpec();
const DWARFDebugInfoEntry *die = GetUnitDIEPtrOnly();
if (!die)
return;
m_file_spec =
FileSpec(die->GetAttributeValueAsString(this, DW_AT_name, nullptr),
GetPathStyle());
if (m_file_spec->IsRelative())
m_file_spec->MakeAbsolute(GetCompilationDirectory());
}
SymbolFileDWARFDwo *DWARFUnit::GetDwoSymbolFile() {
ExtractUnitDIEIfNeeded();
if (m_dwo)
return &llvm::cast<SymbolFileDWARFDwo>(m_dwo->GetSymbolFileDWARF());
return nullptr;
}
const DWARFDebugAranges &DWARFUnit::GetFunctionAranges() {
if (m_func_aranges_up == nullptr) {
m_func_aranges_up = std::make_unique<DWARFDebugAranges>();
const DWARFDebugInfoEntry *die = DIEPtr();
if (die)
die->BuildFunctionAddressRangeTable(this, m_func_aranges_up.get());
if (m_dwo) {
const DWARFDebugInfoEntry *dwo_die = m_dwo->DIEPtr();
if (dwo_die)
dwo_die->BuildFunctionAddressRangeTable(m_dwo.get(),
m_func_aranges_up.get());
}
const bool minimize = false;
m_func_aranges_up->Sort(minimize);
}
return *m_func_aranges_up;
}
llvm::Expected<DWARFUnitHeader>
DWARFUnitHeader::extract(const DWARFDataExtractor &data,
DIERef::Section section, lldb::offset_t *offset_ptr,
const llvm::DWARFUnitIndex *index) {
DWARFUnitHeader header;
header.m_offset = *offset_ptr;
if (index)
header.m_index_entry = index->getFromOffset(*offset_ptr);
header.m_length = data.GetDWARFInitialLength(offset_ptr);
header.m_version = data.GetU16(offset_ptr);
if (header.m_version == 5) {
header.m_unit_type = data.GetU8(offset_ptr);
header.m_addr_size = data.GetU8(offset_ptr);
header.m_abbr_offset = data.GetDWARFOffset(offset_ptr);
if (header.m_unit_type == llvm::dwarf::DW_UT_skeleton)
header.m_dwo_id = data.GetU64(offset_ptr);
} else {
header.m_abbr_offset = data.GetDWARFOffset(offset_ptr);
header.m_addr_size = data.GetU8(offset_ptr);
header.m_unit_type =
section == DIERef::Section::DebugTypes ? DW_UT_type : DW_UT_compile;
}
if (header.m_index_entry) {
if (header.m_abbr_offset) {
return llvm::createStringError(
llvm::inconvertibleErrorCode(),
"Package unit with a non-zero abbreviation offset");
}
auto *unit_contrib = header.m_index_entry->getContribution();
if (!unit_contrib || unit_contrib->Length != header.m_length + 4) {
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"Inconsistent DWARF package unit index");
}
auto *abbr_entry =
header.m_index_entry->getContribution(llvm::DW_SECT_ABBREV);
if (!abbr_entry) {
return llvm::createStringError(
llvm::inconvertibleErrorCode(),
"DWARF package index missing abbreviation column");
}
header.m_abbr_offset = abbr_entry->Offset;
}
if (header.IsTypeUnit()) {
header.m_type_hash = data.GetU64(offset_ptr);
header.m_type_offset = data.GetDWARFOffset(offset_ptr);
}
bool length_OK = data.ValidOffset(header.GetNextUnitOffset() - 1);
bool version_OK = SymbolFileDWARF::SupportedVersion(header.m_version);
bool addr_size_OK = (header.m_addr_size == 4) || (header.m_addr_size == 8);
bool type_offset_OK =
!header.IsTypeUnit() || (header.m_type_offset <= header.GetLength());
if (!length_OK)
return llvm::make_error<llvm::object::GenericBinaryError>(
"Invalid unit length");
if (!version_OK)
return llvm::make_error<llvm::object::GenericBinaryError>(
"Unsupported unit version");
if (!addr_size_OK)
return llvm::make_error<llvm::object::GenericBinaryError>(
"Invalid unit address size");
if (!type_offset_OK)
return llvm::make_error<llvm::object::GenericBinaryError>(
"Type offset out of range");
return header;
}
llvm::Expected<DWARFUnitSP>
DWARFUnit::extract(SymbolFileDWARF &dwarf, user_id_t uid,
const DWARFDataExtractor &debug_info,
DIERef::Section section, lldb::offset_t *offset_ptr,
const llvm::DWARFUnitIndex *index) {
assert(debug_info.ValidOffset(*offset_ptr));
auto expected_header =
DWARFUnitHeader::extract(debug_info, section, offset_ptr, index);
if (!expected_header)
return expected_header.takeError();
const DWARFDebugAbbrev *abbr = dwarf.DebugAbbrev();
if (!abbr)
return llvm::make_error<llvm::object::GenericBinaryError>(
"No debug_abbrev data");
bool abbr_offset_OK =
dwarf.GetDWARFContext().getOrLoadAbbrevData().ValidOffset(
expected_header->GetAbbrOffset());
if (!abbr_offset_OK)
return llvm::make_error<llvm::object::GenericBinaryError>(
"Abbreviation offset for unit is not valid");
const DWARFAbbreviationDeclarationSet *abbrevs =
abbr->GetAbbreviationDeclarationSet(expected_header->GetAbbrOffset());
if (!abbrevs)
return llvm::make_error<llvm::object::GenericBinaryError>(
"No abbrev exists at the specified offset.");
bool is_dwo = dwarf.GetDWARFContext().isDwo();
if (expected_header->IsTypeUnit())
return DWARFUnitSP(new DWARFTypeUnit(dwarf, uid, *expected_header, *abbrevs,
section, is_dwo));
return DWARFUnitSP(new DWARFCompileUnit(dwarf, uid, *expected_header,
*abbrevs, section, is_dwo));
}
const lldb_private::DWARFDataExtractor &DWARFUnit::GetData() const {
return m_section == DIERef::Section::DebugTypes
? m_dwarf.GetDWARFContext().getOrLoadDebugTypesData()
: m_dwarf.GetDWARFContext().getOrLoadDebugInfoData();
}
uint32_t DWARFUnit::GetHeaderByteSize() const {
switch (m_header.GetUnitType()) {
case llvm::dwarf::DW_UT_compile:
case llvm::dwarf::DW_UT_partial:
return GetVersion() < 5 ? 11 : 12;
case llvm::dwarf::DW_UT_skeleton:
case llvm::dwarf::DW_UT_split_compile:
return 20;
case llvm::dwarf::DW_UT_type:
case llvm::dwarf::DW_UT_split_type:
return GetVersion() < 5 ? 23 : 24;
}
llvm_unreachable("invalid UnitType.");
}
llvm::Optional<uint64_t>
DWARFUnit::GetStringOffsetSectionItem(uint32_t index) const {
offset_t offset = GetStrOffsetsBase() + index * 4;
return m_dwarf.GetDWARFContext().getOrLoadStrOffsetsData().GetU32(&offset);
}
llvm::Expected<DWARFRangeList>
DWARFUnit::FindRnglistFromOffset(dw_offset_t offset) {
if (GetVersion() <= 4) {
const DWARFDebugRanges *debug_ranges = m_dwarf.GetDebugRanges();
if (!debug_ranges)
return llvm::make_error<llvm::object::GenericBinaryError>(
"No debug_ranges section");
DWARFRangeList ranges;
debug_ranges->FindRanges(this, offset, ranges);
return ranges;
}
if (!m_rnglist_table)
return llvm::createStringError(errc::invalid_argument,
"missing or invalid range list table");
auto range_list_or_error = m_rnglist_table->findList(
m_dwarf.GetDWARFContext().getOrLoadRngListsData().GetAsLLVM(), offset);
if (!range_list_or_error)
return range_list_or_error.takeError();
llvm::Expected<llvm::DWARFAddressRangesVector> llvm_ranges =
range_list_or_error->getAbsoluteRanges(
llvm::object::SectionedAddress{GetBaseAddress()},
GetAddressByteSize(), [&](uint32_t index) {
uint32_t index_size = GetAddressByteSize();
dw_offset_t addr_base = GetAddrBase();
lldb::offset_t offset = addr_base + index * index_size;
return llvm::object::SectionedAddress{
m_dwarf.GetDWARFContext().getOrLoadAddrData().GetMaxU64(
&offset, index_size)};
});
if (!llvm_ranges)
return llvm_ranges.takeError();
DWARFRangeList ranges;
for (const llvm::DWARFAddressRange &llvm_range : *llvm_ranges) {
ranges.Append(DWARFRangeList::Entry(llvm_range.LowPC,
llvm_range.HighPC - llvm_range.LowPC));
}
return ranges;
}
llvm::Expected<DWARFRangeList>
DWARFUnit::FindRnglistFromIndex(uint32_t index) {
if (llvm::Optional<uint64_t> offset = GetRnglistOffset(index))
return FindRnglistFromOffset(*offset);
if (m_rnglist_table)
return llvm::createStringError(errc::invalid_argument,
"invalid range list table index %d", index);
return llvm::createStringError(errc::invalid_argument,
"missing or invalid range list table");
}