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llvm / llvm-project / 7e6df41f655e51c984b92bbd9c19a6fb851f35d4 / . / lldb / source / Plugins / SymbolFile / Breakpad / SymbolFileBreakpad.cpp
blob: 9d23f1baf93152a1e97b57e8110f6a3b7a959c0c [file] [log] [blame]
//===-- SymbolFileBreakpad.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 "Plugins/SymbolFile/Breakpad/SymbolFileBreakpad.h"
#include "Plugins/ObjectFile/Breakpad/BreakpadRecords.h"
#include "Plugins/ObjectFile/Breakpad/ObjectFileBreakpad.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/PluginManager.h"
#include "lldb/Core/Section.h"
#include "lldb/Host/FileSystem.h"
#include "lldb/Symbol/CompileUnit.h"
#include "lldb/Symbol/ObjectFile.h"
#include "lldb/Symbol/SymbolVendor.h"
#include "lldb/Symbol/TypeMap.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/StreamString.h"
#include "llvm/ADT/StringExtras.h"
using namespace lldb;
using namespace lldb_private;
using namespace lldb_private::breakpad;
LLDB_PLUGIN_DEFINE(SymbolFileBreakpad)
char SymbolFileBreakpad::ID;
class SymbolFileBreakpad::LineIterator {
public:
// begin iterator for sections of given type
LineIterator(ObjectFile &obj, Record::Kind section_type)
: m_obj(&obj), m_section_type(toString(section_type)),
m_next_section_idx(0), m_next_line(llvm::StringRef::npos) {
++*this;
}
// An iterator starting at the position given by the bookmark.
LineIterator(ObjectFile &obj, Record::Kind section_type, Bookmark bookmark);
// end iterator
explicit LineIterator(ObjectFile &obj)
: m_obj(&obj),
m_next_section_idx(m_obj->GetSectionList()->GetNumSections(0)),
m_current_line(llvm::StringRef::npos),
m_next_line(llvm::StringRef::npos) {}
friend bool operator!=(const LineIterator &lhs, const LineIterator &rhs) {
assert(lhs.m_obj == rhs.m_obj);
if (lhs.m_next_section_idx != rhs.m_next_section_idx)
return true;
if (lhs.m_current_line != rhs.m_current_line)
return true;
assert(lhs.m_next_line == rhs.m_next_line);
return false;
}
const LineIterator &operator++();
llvm::StringRef operator*() const {
return m_section_text.slice(m_current_line, m_next_line);
}
Bookmark GetBookmark() const {
return Bookmark{m_next_section_idx, m_current_line};
}
private:
ObjectFile *m_obj;
ConstString m_section_type;
uint32_t m_next_section_idx;
llvm::StringRef m_section_text;
size_t m_current_line;
size_t m_next_line;
void FindNextLine() {
m_next_line = m_section_text.find('\n', m_current_line);
if (m_next_line != llvm::StringRef::npos) {
++m_next_line;
if (m_next_line >= m_section_text.size())
m_next_line = llvm::StringRef::npos;
}
}
};
SymbolFileBreakpad::LineIterator::LineIterator(ObjectFile &obj,
Record::Kind section_type,
Bookmark bookmark)
: m_obj(&obj), m_section_type(toString(section_type)),
m_next_section_idx(bookmark.section), m_current_line(bookmark.offset) {
Section &sect =
*obj.GetSectionList()->GetSectionAtIndex(m_next_section_idx - 1);
assert(sect.GetName() == m_section_type);
DataExtractor data;
obj.ReadSectionData(&sect, data);
m_section_text = toStringRef(data.GetData());
assert(m_current_line < m_section_text.size());
FindNextLine();
}
const SymbolFileBreakpad::LineIterator &
SymbolFileBreakpad::LineIterator::operator++() {
const SectionList &list = *m_obj->GetSectionList();
size_t num_sections = list.GetNumSections(0);
while (m_next_line != llvm::StringRef::npos ||
m_next_section_idx < num_sections) {
if (m_next_line != llvm::StringRef::npos) {
m_current_line = m_next_line;
FindNextLine();
return *this;
}
Section &sect = *list.GetSectionAtIndex(m_next_section_idx++);
if (sect.GetName() != m_section_type)
continue;
DataExtractor data;
m_obj->ReadSectionData(&sect, data);
m_section_text = toStringRef(data.GetData());
m_next_line = 0;
}
// We've reached the end.
m_current_line = m_next_line;
return *this;
}
llvm::iterator_range<SymbolFileBreakpad::LineIterator>
SymbolFileBreakpad::lines(Record::Kind section_type) {
return llvm::make_range(LineIterator(*m_objfile_sp, section_type),
LineIterator(*m_objfile_sp));
}
namespace {
// A helper class for constructing the list of support files for a given compile
// unit.
class SupportFileMap {
public:
// Given a breakpad file ID, return a file ID to be used in the support files
// for this compile unit.
size_t operator[](size_t file) {
return m_map.try_emplace(file, m_map.size() + 1).first->second;
}
// Construct a FileSpecList containing only the support files relevant for
// this compile unit (in the correct order).
FileSpecList translate(const FileSpec &cu_spec,
llvm::ArrayRef<FileSpec> all_files);
private:
llvm::DenseMap<size_t, size_t> m_map;
};
} // namespace
FileSpecList SupportFileMap::translate(const FileSpec &cu_spec,
llvm::ArrayRef<FileSpec> all_files) {
std::vector<FileSpec> result;
result.resize(m_map.size() + 1);
result[0] = cu_spec;
for (const auto &KV : m_map) {
if (KV.first < all_files.size())
result[KV.second] = all_files[KV.first];
}
return FileSpecList(std::move(result));
}
void SymbolFileBreakpad::Initialize() {
PluginManager::RegisterPlugin(GetPluginNameStatic(),
GetPluginDescriptionStatic(), CreateInstance,
DebuggerInitialize);
}
void SymbolFileBreakpad::Terminate() {
PluginManager::UnregisterPlugin(CreateInstance);
}
uint32_t SymbolFileBreakpad::CalculateAbilities() {
if (!m_objfile_sp || !llvm::isa<ObjectFileBreakpad>(*m_objfile_sp))
return 0;
return CompileUnits | Functions | LineTables;
}
uint32_t SymbolFileBreakpad::CalculateNumCompileUnits() {
ParseCUData();
return m_cu_data->GetSize();
}
CompUnitSP SymbolFileBreakpad::ParseCompileUnitAtIndex(uint32_t index) {
if (index >= m_cu_data->GetSize())
return nullptr;
CompUnitData &data = m_cu_data->GetEntryRef(index).data;
ParseFileRecords();
FileSpec spec;
// The FileSpec of the compile unit will be the file corresponding to the
// first LINE record.
LineIterator It(*m_objfile_sp, Record::Func, data.bookmark),
End(*m_objfile_sp);
assert(Record::classify(*It) == Record::Func);
++It; // Skip FUNC record.
// Skip INLINE records.
while (It != End && Record::classify(*It) == Record::Inline)
++It;
if (It != End) {
auto record = LineRecord::parse(*It);
if (record && record->FileNum < m_files->size())
spec = (*m_files)[record->FileNum];
}
auto cu_sp = std::make_shared<CompileUnit>(m_objfile_sp->GetModule(),
/*user_data*/ nullptr, spec, index,
eLanguageTypeUnknown,
/*is_optimized*/ eLazyBoolNo);
SetCompileUnitAtIndex(index, cu_sp);
return cu_sp;
}
FunctionSP SymbolFileBreakpad::GetOrCreateFunction(CompileUnit &comp_unit) {
user_id_t id = comp_unit.GetID();
if (FunctionSP func_sp = comp_unit.FindFunctionByUID(id))
return func_sp;
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
FunctionSP func_sp;
addr_t base = GetBaseFileAddress();
if (base == LLDB_INVALID_ADDRESS) {
LLDB_LOG(log, "Unable to fetch the base address of object file. Skipping "
"symtab population.");
return func_sp;
}
const SectionList *list = comp_unit.GetModule()->GetSectionList();
CompUnitData &data = m_cu_data->GetEntryRef(id).data;
LineIterator It(*m_objfile_sp, Record::Func, data.bookmark);
assert(Record::classify(*It) == Record::Func);
if (auto record = FuncRecord::parse(*It)) {
Mangled func_name;
func_name.SetValue(ConstString(record->Name), false);
addr_t address = record->Address + base;
SectionSP section_sp = list->FindSectionContainingFileAddress(address);
if (section_sp) {
AddressRange func_range(
section_sp, address - section_sp->GetFileAddress(), record->Size);
// Use the CU's id because every CU has only one function inside.
func_sp = std::make_shared<Function>(&comp_unit, id, 0, func_name,
nullptr, func_range);
comp_unit.AddFunction(func_sp);
}
}
return func_sp;
}
size_t SymbolFileBreakpad::ParseFunctions(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
return GetOrCreateFunction(comp_unit) ? 1 : 0;
}
bool SymbolFileBreakpad::ParseLineTable(CompileUnit &comp_unit) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
CompUnitData &data = m_cu_data->GetEntryRef(comp_unit.GetID()).data;
if (!data.line_table_up)
ParseLineTableAndSupportFiles(comp_unit, data);
comp_unit.SetLineTable(data.line_table_up.release());
return true;
}
bool SymbolFileBreakpad::ParseSupportFiles(CompileUnit &comp_unit,
FileSpecList &support_files) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
CompUnitData &data = m_cu_data->GetEntryRef(comp_unit.GetID()).data;
if (!data.support_files)
ParseLineTableAndSupportFiles(comp_unit, data);
support_files = std::move(*data.support_files);
return true;
}
size_t SymbolFileBreakpad::ParseBlocksRecursive(Function &func) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
CompileUnit *comp_unit = func.GetCompileUnit();
lldbassert(comp_unit);
ParseInlineOriginRecords();
// A vector of current each level's parent block. For example, when parsing
// "INLINE 0 ...", the current level is 0 and its parent block is the
// funciton block at index 0.
std::vector<Block *> blocks;
Block &block = func.GetBlock(false);
block.AddRange(Block::Range(0, func.GetAddressRange().GetByteSize()));
blocks.push_back(&block);
size_t blocks_added = 0;
addr_t func_base = func.GetAddressRange().GetBaseAddress().GetOffset();
CompUnitData &data = m_cu_data->GetEntryRef(comp_unit->GetID()).data;
LineIterator It(*m_objfile_sp, Record::Func, data.bookmark),
End(*m_objfile_sp);
++It; // Skip the FUNC record.
size_t last_added_nest_level = 0;
while (It != End && Record::classify(*It) == Record::Inline) {
if (auto record = InlineRecord::parse(*It)) {
if (record->InlineNestLevel == 0 ||
record->InlineNestLevel <= last_added_nest_level + 1) {
last_added_nest_level = record->InlineNestLevel;
BlockSP block_sp = std::make_shared<Block>(It.GetBookmark().offset);
FileSpec callsite_file;
if (record->CallSiteFileNum < m_files->size())
callsite_file = (*m_files)[record->CallSiteFileNum];
llvm::StringRef name;
if (record->OriginNum < m_inline_origins->size())
name = (*m_inline_origins)[record->OriginNum];
Declaration callsite(callsite_file, record->CallSiteLineNum);
block_sp->SetInlinedFunctionInfo(name.str().c_str(),
/*mangled=*/nullptr,
/*decl_ptr=*/nullptr, &callsite);
for (const auto &range : record->Ranges) {
block_sp->AddRange(
Block::Range(range.first - func_base, range.second));
}
block_sp->FinalizeRanges();
blocks[record->InlineNestLevel]->AddChild(block_sp);
if (record->InlineNestLevel + 1 >= blocks.size()) {
blocks.resize(blocks.size() + 1);
}
blocks[record->InlineNestLevel + 1] = block_sp.get();
++blocks_added;
}
}
++It;
}
return blocks_added;
}
void SymbolFileBreakpad::ParseInlineOriginRecords() {
if (m_inline_origins)
return;
m_inline_origins.emplace();
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
for (llvm::StringRef line : lines(Record::InlineOrigin)) {
auto record = InlineOriginRecord::parse(line);
if (!record) {
LLDB_LOG(log, "Failed to parse: {0}. Skipping record.", line);
continue;
}
if (record->Number >= m_inline_origins->size())
m_inline_origins->resize(record->Number + 1);
(*m_inline_origins)[record->Number] = record->Name;
}
}
uint32_t
SymbolFileBreakpad::ResolveSymbolContext(const Address &so_addr,
SymbolContextItem resolve_scope,
SymbolContext &sc) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
if (!(resolve_scope & (eSymbolContextCompUnit | eSymbolContextLineEntry |
eSymbolContextFunction | eSymbolContextBlock)))
return 0;
ParseCUData();
uint32_t idx =
m_cu_data->FindEntryIndexThatContains(so_addr.GetFileAddress());
if (idx == UINT32_MAX)
return 0;
sc.comp_unit = GetCompileUnitAtIndex(idx).get();
SymbolContextItem result = eSymbolContextCompUnit;
if (resolve_scope & eSymbolContextLineEntry) {
if (sc.comp_unit->GetLineTable()->FindLineEntryByAddress(so_addr,
sc.line_entry)) {
result |= eSymbolContextLineEntry;
}
}
if (resolve_scope & (eSymbolContextFunction | eSymbolContextBlock)) {
FunctionSP func_sp = GetOrCreateFunction(*sc.comp_unit);
if (func_sp) {
sc.function = func_sp.get();
result |= eSymbolContextFunction;
if (resolve_scope & eSymbolContextBlock) {
Block &block = func_sp->GetBlock(true);
sc.block = block.FindInnermostBlockByOffset(
so_addr.GetFileAddress() -
sc.function->GetAddressRange().GetBaseAddress().GetFileAddress());
if (sc.block)
result |= eSymbolContextBlock;
}
}
}
return result;
}
uint32_t SymbolFileBreakpad::ResolveSymbolContext(
const SourceLocationSpec &src_location_spec,
lldb::SymbolContextItem resolve_scope, SymbolContextList &sc_list) {
std::lock_guard<std::recursive_mutex> guard(GetModuleMutex());
if (!(resolve_scope & eSymbolContextCompUnit))
return 0;
uint32_t old_size = sc_list.GetSize();
for (size_t i = 0, size = GetNumCompileUnits(); i < size; ++i) {
CompileUnit &cu = *GetCompileUnitAtIndex(i);
cu.ResolveSymbolContext(src_location_spec, resolve_scope, sc_list);
}
return sc_list.GetSize() - old_size;
}
void SymbolFileBreakpad::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());
// TODO: Implement this with supported FunctionNameType.
for (uint32_t i = 0; i < GetNumCompileUnits(); ++i) {
CompUnitSP cu_sp = GetCompileUnitAtIndex(i);
FunctionSP func_sp = GetOrCreateFunction(*cu_sp);
if (func_sp && name == func_sp->GetNameNoArguments()) {
SymbolContext sc;
sc.comp_unit = cu_sp.get();
sc.function = func_sp.get();
sc.module_sp = func_sp->CalculateSymbolContextModule();
sc_list.Append(sc);
}
}
}
void SymbolFileBreakpad::FindFunctions(const RegularExpression &regex,
bool include_inlines,
SymbolContextList &sc_list) {
// TODO
}
void SymbolFileBreakpad::FindTypes(
ConstString name, const CompilerDeclContext &parent_decl_ctx,
uint32_t max_matches, llvm::DenseSet<SymbolFile *> &searched_symbol_files,
TypeMap &types) {}
void SymbolFileBreakpad::FindTypes(
llvm::ArrayRef<CompilerContext> pattern, LanguageSet languages,
llvm::DenseSet<SymbolFile *> &searched_symbol_files, TypeMap &types) {}
void SymbolFileBreakpad::AddSymbols(Symtab &symtab) {
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
Module &module = *m_objfile_sp->GetModule();
addr_t base = GetBaseFileAddress();
if (base == LLDB_INVALID_ADDRESS) {
LLDB_LOG(log, "Unable to fetch the base address of object file. Skipping "
"symtab population.");
return;
}
const SectionList &list = *module.GetSectionList();
llvm::DenseSet<addr_t> found_symbol_addresses;
std::vector<Symbol> symbols;
auto add_symbol = [&](addr_t address, llvm::Optional<addr_t> size,
llvm::StringRef name) {
address += base;
SectionSP section_sp = list.FindSectionContainingFileAddress(address);
if (!section_sp) {
LLDB_LOG(log,
"Ignoring symbol {0}, whose address ({1}) is outside of the "
"object file. Mismatched symbol file?",
name, address);
return;
}
// Keep track of what addresses were already added so far and only add
// the symbol with the first address.
if (!found_symbol_addresses.insert(address).second)
return;
symbols.emplace_back(
/*symID*/ 0, Mangled(name), eSymbolTypeCode,
/*is_global*/ true, /*is_debug*/ false,
/*is_trampoline*/ false, /*is_artificial*/ false,
AddressRange(section_sp, address - section_sp->GetFileAddress(),
size.getValueOr(0)),
size.hasValue(), /*contains_linker_annotations*/ false, /*flags*/ 0);
};
for (llvm::StringRef line : lines(Record::Public)) {
if (auto record = PublicRecord::parse(line))
add_symbol(record->Address, llvm::None, record->Name);
else
LLDB_LOG(log, "Failed to parse: {0}. Skipping record.", line);
}
for (Symbol &symbol : symbols)
symtab.AddSymbol(std::move(symbol));
symtab.Finalize();
}
llvm::Expected<lldb::addr_t>
SymbolFileBreakpad::GetParameterStackSize(Symbol &symbol) {
ParseUnwindData();
if (auto *entry = m_unwind_data->win.FindEntryThatContains(
symbol.GetAddress().GetFileAddress())) {
auto record = StackWinRecord::parse(
*LineIterator(*m_objfile_sp, Record::StackWin, entry->data));
assert(record.hasValue());
return record->ParameterSize;
}
return llvm::createStringError(llvm::inconvertibleErrorCode(),
"Parameter size unknown.");
}
static llvm::Optional<std::pair<llvm::StringRef, llvm::StringRef>>
GetRule(llvm::StringRef &unwind_rules) {
// Unwind rules are of the form
// register1: expression1 register2: expression2 ...
// We assume none of the tokens in expression<n> end with a colon.
llvm::StringRef lhs, rest;
std::tie(lhs, rest) = getToken(unwind_rules);
if (!lhs.consume_back(":"))
return llvm::None;
// Seek forward to the next register: expression pair
llvm::StringRef::size_type pos = rest.find(": ");
if (pos == llvm::StringRef::npos) {
// No pair found, this means the rest of the string is a single expression.
unwind_rules = llvm::StringRef();
return std::make_pair(lhs, rest);
}
// Go back one token to find the end of the current rule.
pos = rest.rfind(' ', pos);
if (pos == llvm::StringRef::npos)
return llvm::None;
llvm::StringRef rhs = rest.take_front(pos);
unwind_rules = rest.drop_front(pos);
return std::make_pair(lhs, rhs);
}
static const RegisterInfo *
ResolveRegister(const llvm::Triple &triple,
const SymbolFile::RegisterInfoResolver &resolver,
llvm::StringRef name) {
if (triple.isX86() || triple.isMIPS()) {
// X86 and MIPS registers have '$' in front of their register names. Arm and
// AArch64 don't.
if (!name.consume_front("$"))
return nullptr;
}
return resolver.ResolveName(name);
}
static const RegisterInfo *
ResolveRegisterOrRA(const llvm::Triple &triple,
const SymbolFile::RegisterInfoResolver &resolver,
llvm::StringRef name) {
if (name == ".ra")
return resolver.ResolveNumber(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_PC);
return ResolveRegister(triple, resolver, name);
}
llvm::ArrayRef<uint8_t> SymbolFileBreakpad::SaveAsDWARF(postfix::Node &node) {
ArchSpec arch = m_objfile_sp->GetArchitecture();
StreamString dwarf(Stream::eBinary, arch.GetAddressByteSize(),
arch.GetByteOrder());
ToDWARF(node, dwarf);
uint8_t *saved = m_allocator.Allocate<uint8_t>(dwarf.GetSize());
std::memcpy(saved, dwarf.GetData(), dwarf.GetSize());
return {saved, dwarf.GetSize()};
}
bool SymbolFileBreakpad::ParseCFIUnwindRow(llvm::StringRef unwind_rules,
const RegisterInfoResolver &resolver,
UnwindPlan::Row &row) {
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
llvm::BumpPtrAllocator node_alloc;
llvm::Triple triple = m_objfile_sp->GetArchitecture().GetTriple();
while (auto rule = GetRule(unwind_rules)) {
node_alloc.Reset();
llvm::StringRef lhs = rule->first;
postfix::Node *rhs = postfix::ParseOneExpression(rule->second, node_alloc);
if (!rhs) {
LLDB_LOG(log, "Could not parse `{0}` as unwind rhs.", rule->second);
return false;
}
bool success = postfix::ResolveSymbols(
rhs, [&](postfix::SymbolNode &symbol) -> postfix::Node * {
llvm::StringRef name = symbol.GetName();
if (name == ".cfa" && lhs != ".cfa")
return postfix::MakeNode<postfix::InitialValueNode>(node_alloc);
if (const RegisterInfo *info =
ResolveRegister(triple, resolver, name)) {
return postfix::MakeNode<postfix::RegisterNode>(
node_alloc, info->kinds[eRegisterKindLLDB]);
}
return nullptr;
});
if (!success) {
LLDB_LOG(log, "Resolving symbols in `{0}` failed.", rule->second);
return false;
}
llvm::ArrayRef<uint8_t> saved = SaveAsDWARF(*rhs);
if (lhs == ".cfa") {
row.GetCFAValue().SetIsDWARFExpression(saved.data(), saved.size());
} else if (const RegisterInfo *info =
ResolveRegisterOrRA(triple, resolver, lhs)) {
UnwindPlan::Row::RegisterLocation loc;
loc.SetIsDWARFExpression(saved.data(), saved.size());
row.SetRegisterInfo(info->kinds[eRegisterKindLLDB], loc);
} else
LLDB_LOG(log, "Invalid register `{0}` in unwind rule.", lhs);
}
if (unwind_rules.empty())
return true;
LLDB_LOG(log, "Could not parse `{0}` as an unwind rule.", unwind_rules);
return false;
}
UnwindPlanSP
SymbolFileBreakpad::GetUnwindPlan(const Address &address,
const RegisterInfoResolver &resolver) {
ParseUnwindData();
if (auto *entry =
m_unwind_data->cfi.FindEntryThatContains(address.GetFileAddress()))
return ParseCFIUnwindPlan(entry->data, resolver);
if (auto *entry =
m_unwind_data->win.FindEntryThatContains(address.GetFileAddress()))
return ParseWinUnwindPlan(entry->data, resolver);
return nullptr;
}
UnwindPlanSP
SymbolFileBreakpad::ParseCFIUnwindPlan(const Bookmark &bookmark,
const RegisterInfoResolver &resolver) {
addr_t base = GetBaseFileAddress();
if (base == LLDB_INVALID_ADDRESS)
return nullptr;
LineIterator It(*m_objfile_sp, Record::StackCFI, bookmark),
End(*m_objfile_sp);
llvm::Optional<StackCFIRecord> init_record = StackCFIRecord::parse(*It);
assert(init_record.hasValue() && init_record->Size.hasValue() &&
"Record already parsed successfully in ParseUnwindData!");
auto plan_sp = std::make_shared<UnwindPlan>(lldb::eRegisterKindLLDB);
plan_sp->SetSourceName("breakpad STACK CFI");
plan_sp->SetUnwindPlanValidAtAllInstructions(eLazyBoolNo);
plan_sp->SetUnwindPlanForSignalTrap(eLazyBoolNo);
plan_sp->SetSourcedFromCompiler(eLazyBoolYes);
plan_sp->SetPlanValidAddressRange(
AddressRange(base + init_record->Address, *init_record->Size,
m_objfile_sp->GetModule()->GetSectionList()));
auto row_sp = std::make_shared<UnwindPlan::Row>();
row_sp->SetOffset(0);
if (!ParseCFIUnwindRow(init_record->UnwindRules, resolver, *row_sp))
return nullptr;
plan_sp->AppendRow(row_sp);
for (++It; It != End; ++It) {
llvm::Optional<StackCFIRecord> record = StackCFIRecord::parse(*It);
if (!record.hasValue())
return nullptr;
if (record->Size.hasValue())
break;
row_sp = std::make_shared<UnwindPlan::Row>(*row_sp);
row_sp->SetOffset(record->Address - init_record->Address);
if (!ParseCFIUnwindRow(record->UnwindRules, resolver, *row_sp))
return nullptr;
plan_sp->AppendRow(row_sp);
}
return plan_sp;
}
UnwindPlanSP
SymbolFileBreakpad::ParseWinUnwindPlan(const Bookmark &bookmark,
const RegisterInfoResolver &resolver) {
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
addr_t base = GetBaseFileAddress();
if (base == LLDB_INVALID_ADDRESS)
return nullptr;
LineIterator It(*m_objfile_sp, Record::StackWin, bookmark);
llvm::Optional<StackWinRecord> record = StackWinRecord::parse(*It);
assert(record.hasValue() &&
"Record already parsed successfully in ParseUnwindData!");
auto plan_sp = std::make_shared<UnwindPlan>(lldb::eRegisterKindLLDB);
plan_sp->SetSourceName("breakpad STACK WIN");
plan_sp->SetUnwindPlanValidAtAllInstructions(eLazyBoolNo);
plan_sp->SetUnwindPlanForSignalTrap(eLazyBoolNo);
plan_sp->SetSourcedFromCompiler(eLazyBoolYes);
plan_sp->SetPlanValidAddressRange(
AddressRange(base + record->RVA, record->CodeSize,
m_objfile_sp->GetModule()->GetSectionList()));
auto row_sp = std::make_shared<UnwindPlan::Row>();
row_sp->SetOffset(0);
llvm::BumpPtrAllocator node_alloc;
std::vector<std::pair<llvm::StringRef, postfix::Node *>> program =
postfix::ParseFPOProgram(record->ProgramString, node_alloc);
if (program.empty()) {
LLDB_LOG(log, "Invalid unwind rule: {0}.", record->ProgramString);
return nullptr;
}
auto it = program.begin();
llvm::Triple triple = m_objfile_sp->GetArchitecture().GetTriple();
const auto &symbol_resolver =
[&](postfix::SymbolNode &symbol) -> postfix::Node * {
llvm::StringRef name = symbol.GetName();
for (const auto &rule : llvm::make_range(program.begin(), it)) {
if (rule.first == name)
return rule.second;
}
if (const RegisterInfo *info = ResolveRegister(triple, resolver, name))
return postfix::MakeNode<postfix::RegisterNode>(
node_alloc, info->kinds[eRegisterKindLLDB]);
return nullptr;
};
// We assume the first value will be the CFA. It is usually called T0, but
// clang will use T1, if it needs to realign the stack.
auto *symbol = llvm::dyn_cast<postfix::SymbolNode>(it->second);
if (symbol && symbol->GetName() == ".raSearch") {
row_sp->GetCFAValue().SetRaSearch(record->LocalSize +
record->SavedRegisterSize);
} else {
if (!postfix::ResolveSymbols(it->second, symbol_resolver)) {
LLDB_LOG(log, "Resolving symbols in `{0}` failed.",
record->ProgramString);
return nullptr;
}
llvm::ArrayRef<uint8_t> saved = SaveAsDWARF(*it->second);
row_sp->GetCFAValue().SetIsDWARFExpression(saved.data(), saved.size());
}
// Replace the node value with InitialValueNode, so that subsequent
// expressions refer to the CFA value instead of recomputing the whole
// expression.
it->second = postfix::MakeNode<postfix::InitialValueNode>(node_alloc);
// Now process the rest of the assignments.
for (++it; it != program.end(); ++it) {
const RegisterInfo *info = ResolveRegister(triple, resolver, it->first);
// It is not an error if the resolution fails because the program may
// contain temporary variables.
if (!info)
continue;
if (!postfix::ResolveSymbols(it->second, symbol_resolver)) {
LLDB_LOG(log, "Resolving symbols in `{0}` failed.",
record->ProgramString);
return nullptr;
}
llvm::ArrayRef<uint8_t> saved = SaveAsDWARF(*it->second);
UnwindPlan::Row::RegisterLocation loc;
loc.SetIsDWARFExpression(saved.data(), saved.size());
row_sp->SetRegisterInfo(info->kinds[eRegisterKindLLDB], loc);
}
plan_sp->AppendRow(row_sp);
return plan_sp;
}
addr_t SymbolFileBreakpad::GetBaseFileAddress() {
return m_objfile_sp->GetModule()
->GetObjectFile()
->GetBaseAddress()
.GetFileAddress();
}
// Parse out all the FILE records from the breakpad file. These will be needed
// when constructing the support file lists for individual compile units.
void SymbolFileBreakpad::ParseFileRecords() {
if (m_files)
return;
m_files.emplace();
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
for (llvm::StringRef line : lines(Record::File)) {
auto record = FileRecord::parse(line);
if (!record) {
LLDB_LOG(log, "Failed to parse: {0}. Skipping record.", line);
continue;
}
if (record->Number >= m_files->size())
m_files->resize(record->Number + 1);
FileSpec::Style style = FileSpec::GuessPathStyle(record->Name)
.getValueOr(FileSpec::Style::native);
(*m_files)[record->Number] = FileSpec(record->Name, style);
}
}
void SymbolFileBreakpad::ParseCUData() {
if (m_cu_data)
return;
m_cu_data.emplace();
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
addr_t base = GetBaseFileAddress();
if (base == LLDB_INVALID_ADDRESS) {
LLDB_LOG(log, "SymbolFile parsing failed: Unable to fetch the base address "
"of object file.");
}
// We shall create one compile unit for each FUNC record. So, count the number
// of FUNC records, and store them in m_cu_data, together with their ranges.
for (LineIterator It(*m_objfile_sp, Record::Func), End(*m_objfile_sp);
It != End; ++It) {
if (auto record = FuncRecord::parse(*It)) {
m_cu_data->Append(CompUnitMap::Entry(base + record->Address, record->Size,
CompUnitData(It.GetBookmark())));
} else
LLDB_LOG(log, "Failed to parse: {0}. Skipping record.", *It);
}
m_cu_data->Sort();
}
// Construct the list of support files and line table entries for the given
// compile unit.
void SymbolFileBreakpad::ParseLineTableAndSupportFiles(CompileUnit &cu,
CompUnitData &data) {
addr_t base = GetBaseFileAddress();
assert(base != LLDB_INVALID_ADDRESS &&
"How did we create compile units without a base address?");
SupportFileMap map;
std::vector<std::unique_ptr<LineSequence>> sequences;
std::unique_ptr<LineSequence> line_seq_up =
LineTable::CreateLineSequenceContainer();
llvm::Optional<addr_t> next_addr;
auto finish_sequence = [&]() {
LineTable::AppendLineEntryToSequence(
line_seq_up.get(), *next_addr, /*line=*/0, /*column=*/0,
/*file_idx=*/0, /*is_start_of_statement=*/false,
/*is_start_of_basic_block=*/false, /*is_prologue_end=*/false,
/*is_epilogue_begin=*/false, /*is_terminal_entry=*/true);
sequences.push_back(std::move(line_seq_up));
line_seq_up = LineTable::CreateLineSequenceContainer();
};
LineIterator It(*m_objfile_sp, Record::Func, data.bookmark),
End(*m_objfile_sp);
assert(Record::classify(*It) == Record::Func);
for (++It; It != End; ++It) {
// Skip INLINE records
if (Record::classify(*It) == Record::Inline)
continue;
auto record = LineRecord::parse(*It);
if (!record)
break;
record->Address += base;
if (next_addr && *next_addr != record->Address) {
// Discontiguous entries. Finish off the previous sequence and reset.
finish_sequence();
}
LineTable::AppendLineEntryToSequence(
line_seq_up.get(), record->Address, record->LineNum, /*column=*/0,
map[record->FileNum], /*is_start_of_statement=*/true,
/*is_start_of_basic_block=*/false, /*is_prologue_end=*/false,
/*is_epilogue_begin=*/false, /*is_terminal_entry=*/false);
next_addr = record->Address + record->Size;
}
if (next_addr)
finish_sequence();
data.line_table_up = std::make_unique<LineTable>(&cu, std::move(sequences));
data.support_files = map.translate(cu.GetPrimaryFile(), *m_files);
}
void SymbolFileBreakpad::ParseUnwindData() {
if (m_unwind_data)
return;
m_unwind_data.emplace();
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_SYMBOLS);
addr_t base = GetBaseFileAddress();
if (base == LLDB_INVALID_ADDRESS) {
LLDB_LOG(log, "SymbolFile parsing failed: Unable to fetch the base address "
"of object file.");
}
for (LineIterator It(*m_objfile_sp, Record::StackCFI), End(*m_objfile_sp);
It != End; ++It) {
if (auto record = StackCFIRecord::parse(*It)) {
if (record->Size)
m_unwind_data->cfi.Append(UnwindMap::Entry(
base + record->Address, *record->Size, It.GetBookmark()));
} else
LLDB_LOG(log, "Failed to parse: {0}. Skipping record.", *It);
}
m_unwind_data->cfi.Sort();
for (LineIterator It(*m_objfile_sp, Record::StackWin), End(*m_objfile_sp);
It != End; ++It) {
if (auto record = StackWinRecord::parse(*It)) {
m_unwind_data->win.Append(UnwindMap::Entry(
base + record->RVA, record->CodeSize, It.GetBookmark()));
} else
LLDB_LOG(log, "Failed to parse: {0}. Skipping record.", *It);
}
m_unwind_data->win.Sort();
}
uint64_t SymbolFileBreakpad::GetDebugInfoSize() {
// Breakpad files are all debug info.
return m_objfile_sp->GetByteSize();
}