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68dafe40a69f799f69eeeb1f658da6e129c6d832
clang-p2996/lldb/source/Symbol/CompileUnit.cpp
Kim-Anh Tran 68dafe40a6 [lldb] Use CompileUnit::ResolveSymbolContext in SymbolFileDWARF 
SymbolFileDWARF::ResolveSymbolContext is currently unaware that in DWARF5 the primary file is specified at file index 0. As a result it misses to correctly resolve the symbol context for the primary file when DWARF5 debug data is used and the primary file is only specified at index 0.

This change makes use of CompileUnit::ResolveSymbolContext to resolve the symbol context. The ResolveSymbolContext in CompileUnit has been previously already updated to reflect changes in DWARF5
and contains a more readable version. It can resolve more, but will also do a bit more work than
SymbolFileDWARF::ResolveSymbolContext (getting the Module, and going through SymbolFileDWARF::ResolveSymbolContextForAddress), however, it's mostly directed by $resolve_scope
what will be resolved, and ensures that code is easier to maintain if there's only one path.

Reviewed By: labath

Differential Revision: https://reviews.llvm.org/D98619
2021-03-22 08:44:16 +01:00

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//===-- CompileUnit.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 "lldb/Symbol/CompileUnit.h"
#include "lldb/Core/Module.h"
#include "lldb/Symbol/LineTable.h"
#include "lldb/Symbol/SymbolFile.h"
#include "lldb/Symbol/VariableList.h"
#include "lldb/Target/Language.h"
#include "lldb/Utility/Timer.h"
using namespace lldb;
using namespace lldb_private;
CompileUnit::CompileUnit(const lldb::ModuleSP &module_sp, void *user_data,
const char *pathname, const lldb::user_id_t cu_sym_id,
lldb::LanguageType language,
lldb_private::LazyBool is_optimized)
: CompileUnit(module_sp, user_data, FileSpec(pathname), cu_sym_id, language,
is_optimized) {}
CompileUnit::CompileUnit(const lldb::ModuleSP &module_sp, void *user_data,
const FileSpec &fspec, const lldb::user_id_t cu_sym_id,
lldb::LanguageType language,
lldb_private::LazyBool is_optimized)
: ModuleChild(module_sp), UserID(cu_sym_id), m_user_data(user_data),
m_language(language), m_flags(0), m_file_spec(fspec),
m_is_optimized(is_optimized) {
if (language != eLanguageTypeUnknown)
m_flags.Set(flagsParsedLanguage);
assert(module_sp);
}
void CompileUnit::CalculateSymbolContext(SymbolContext *sc) {
sc->comp_unit = this;
GetModule()->CalculateSymbolContext(sc);
}
ModuleSP CompileUnit::CalculateSymbolContextModule() { return GetModule(); }
CompileUnit *CompileUnit::CalculateSymbolContextCompileUnit() { return this; }
void CompileUnit::DumpSymbolContext(Stream *s) {
GetModule()->DumpSymbolContext(s);
s->Printf(", CompileUnit{0x%8.8" PRIx64 "}", GetID());
}
void CompileUnit::GetDescription(Stream *s,
lldb::DescriptionLevel level) const {
const char *language = Language::GetNameForLanguageType(m_language);
*s << "id = " << (const UserID &)*this << ", file = \""
<< this->GetPrimaryFile() << "\", language = \"" << language << '"';
}
void CompileUnit::ForeachFunction(
llvm::function_ref<bool(const FunctionSP &)> lambda) const {
std::vector<lldb::FunctionSP> sorted_functions;
sorted_functions.reserve(m_functions_by_uid.size());
for (auto &p : m_functions_by_uid)
sorted_functions.push_back(p.second);
llvm::sort(sorted_functions.begin(), sorted_functions.end(),
[](const lldb::FunctionSP &a, const lldb::FunctionSP &b) {
return a->GetID() < b->GetID();
});
for (auto &f : sorted_functions)
if (lambda(f))
return;
}
lldb::FunctionSP CompileUnit::FindFunction(
llvm::function_ref<bool(const FunctionSP &)> matching_lambda) {
LLDB_SCOPED_TIMER();
lldb::ModuleSP module = CalculateSymbolContextModule();
if (!module)
return {};
SymbolFile *symbol_file = module->GetSymbolFile();
if (!symbol_file)
return {};
// m_functions_by_uid is filled in lazily but we need all the entries.
symbol_file->ParseFunctions(*this);
for (auto &p : m_functions_by_uid) {
if (matching_lambda(p.second))
return p.second;
}
return {};
}
// Dump the current contents of this object. No functions that cause on demand
// parsing of functions, globals, statics are called, so this is a good
// function to call to get an idea of the current contents of the CompileUnit
// object.
void CompileUnit::Dump(Stream *s, bool show_context) const {
const char *language = Language::GetNameForLanguageType(m_language);
s->Printf("%p: ", static_cast<const void *>(this));
s->Indent();
*s << "CompileUnit" << static_cast<const UserID &>(*this) << ", language = \""
<< language << "\", file = '" << GetPrimaryFile() << "'\n";
// m_types.Dump(s);
if (m_variables.get()) {
s->IndentMore();
m_variables->Dump(s, show_context);
s->IndentLess();
}
if (!m_functions_by_uid.empty()) {
s->IndentMore();
ForeachFunction([&s, show_context](const FunctionSP &f) {
f->Dump(s, show_context);
return false;
});
s->IndentLess();
s->EOL();
}
}
// Add a function to this compile unit
void CompileUnit::AddFunction(FunctionSP &funcSP) {
m_functions_by_uid[funcSP->GetID()] = funcSP;
}
FunctionSP CompileUnit::FindFunctionByUID(lldb::user_id_t func_uid) {
auto it = m_functions_by_uid.find(func_uid);
if (it == m_functions_by_uid.end())
return FunctionSP();
return it->second;
}
lldb::LanguageType CompileUnit::GetLanguage() {
if (m_language == eLanguageTypeUnknown) {
if (m_flags.IsClear(flagsParsedLanguage)) {
m_flags.Set(flagsParsedLanguage);
if (SymbolFile *symfile = GetModule()->GetSymbolFile())
m_language = symfile->ParseLanguage(*this);
}
}
return m_language;
}
LineTable *CompileUnit::GetLineTable() {
if (m_line_table_up == nullptr) {
if (m_flags.IsClear(flagsParsedLineTable)) {
m_flags.Set(flagsParsedLineTable);
if (SymbolFile *symfile = GetModule()->GetSymbolFile())
symfile->ParseLineTable(*this);
}
}
return m_line_table_up.get();
}
void CompileUnit::SetLineTable(LineTable *line_table) {
if (line_table == nullptr)
m_flags.Clear(flagsParsedLineTable);
else
m_flags.Set(flagsParsedLineTable);
m_line_table_up.reset(line_table);
}
void CompileUnit::SetSupportFiles(const FileSpecList &support_files) {
m_support_files = support_files;
}
DebugMacros *CompileUnit::GetDebugMacros() {
if (m_debug_macros_sp.get() == nullptr) {
if (m_flags.IsClear(flagsParsedDebugMacros)) {
m_flags.Set(flagsParsedDebugMacros);
if (SymbolFile *symfile = GetModule()->GetSymbolFile())
symfile->ParseDebugMacros(*this);
}
}
return m_debug_macros_sp.get();
}
void CompileUnit::SetDebugMacros(const DebugMacrosSP &debug_macros_sp) {
if (debug_macros_sp.get() == nullptr)
m_flags.Clear(flagsParsedDebugMacros);
else
m_flags.Set(flagsParsedDebugMacros);
m_debug_macros_sp = debug_macros_sp;
}
VariableListSP CompileUnit::GetVariableList(bool can_create) {
if (m_variables.get() == nullptr && can_create) {
SymbolContext sc;
CalculateSymbolContext(&sc);
assert(sc.module_sp);
sc.module_sp->GetSymbolFile()->ParseVariablesForContext(sc);
}
return m_variables;
}
std::vector<uint32_t> FindFileIndexes(const FileSpecList &files, const FileSpec &file) {
std::vector<uint32_t> result;
uint32_t idx = -1;
while ((idx = files.FindFileIndex(idx + 1, file, /*full=*/true)) !=
UINT32_MAX)
result.push_back(idx);
return result;
}
uint32_t CompileUnit::FindLineEntry(uint32_t start_idx, uint32_t line,
const FileSpec *file_spec_ptr, bool exact,
LineEntry *line_entry_ptr) {
if (!file_spec_ptr)
file_spec_ptr = &GetPrimaryFile();
std::vector<uint32_t> file_indexes = FindFileIndexes(GetSupportFiles(), *file_spec_ptr);
if (file_indexes.empty())
return UINT32_MAX;
LineTable *line_table = GetLineTable();
if (line_table)
return line_table->FindLineEntryIndexByFileIndex(
start_idx, file_indexes, line, exact, line_entry_ptr);
return UINT32_MAX;
}
void CompileUnit::ResolveSymbolContext(const FileSpec &file_spec,
uint32_t line, bool check_inlines,
bool exact,
SymbolContextItem resolve_scope,
SymbolContextList &sc_list) {
// First find all of the file indexes that match our "file_spec". If
// "file_spec" has an empty directory, then only compare the basenames when
// finding file indexes
std::vector<uint32_t> file_indexes;
bool file_spec_matches_cu_file_spec =
FileSpec::Match(file_spec, this->GetPrimaryFile());
// If we are not looking for inlined functions and our file spec doesn't
// match then we are done...
if (!file_spec_matches_cu_file_spec && !check_inlines)
return;
SymbolContext sc(GetModule());
sc.comp_unit = this;
if (line == 0) {
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);
}
return;
}
uint32_t file_idx =
GetSupportFiles().FindFileIndex(0, file_spec, true);
while (file_idx != UINT32_MAX) {
file_indexes.push_back(file_idx);
file_idx = GetSupportFiles().FindFileIndex(file_idx + 1, file_spec, true);
}
const size_t num_file_indexes = file_indexes.size();
if (num_file_indexes == 0)
return;
LineTable *line_table = sc.comp_unit->GetLineTable();
if (line_table == nullptr) {
if (file_spec_matches_cu_file_spec && !check_inlines) {
sc_list.Append(sc);
}
return;
}
uint32_t line_idx;
LineEntry line_entry;
if (num_file_indexes == 1) {
// We only have a single support file that matches, so use the line
// table function that searches for a line entries that match a single
// support file index
line_idx = line_table->FindLineEntryIndexByFileIndex(
0, file_indexes.front(), line, exact, &line_entry);
} else {
// We found multiple support files that match "file_spec" so use the
// line table function that searches for a line entries that match a
// multiple support file indexes.
line_idx = line_table->FindLineEntryIndexByFileIndex(0, file_indexes, line,
exact, &line_entry);
}
// If "exact == true", then "found_line" will be the same as "line". If
// "exact == false", the "found_line" will be the closest line entry
// with a line number greater than "line" and we will use this for our
// subsequent line exact matches below.
uint32_t found_line = line_entry.line;
while (line_idx != UINT32_MAX) {
// If they only asked for the line entry, then we're done, we can
// just copy that over. But if they wanted more than just the line
// number, fill it in.
if (resolve_scope == eSymbolContextLineEntry) {
sc.line_entry = line_entry;
} else {
line_entry.range.GetBaseAddress().CalculateSymbolContext(&sc,
resolve_scope);
}
sc_list.Append(sc);
if (num_file_indexes == 1)
line_idx = line_table->FindLineEntryIndexByFileIndex(
line_idx + 1, file_indexes.front(), found_line, true, &line_entry);
else
line_idx = line_table->FindLineEntryIndexByFileIndex(
line_idx + 1, file_indexes, found_line, true, &line_entry);
}
}
bool CompileUnit::GetIsOptimized() {
if (m_is_optimized == eLazyBoolCalculate) {
m_is_optimized = eLazyBoolNo;
if (SymbolFile *symfile = GetModule()->GetSymbolFile()) {
if (symfile->ParseIsOptimized(*this))
m_is_optimized = eLazyBoolYes;
}
}
return m_is_optimized;
}
void CompileUnit::SetVariableList(VariableListSP &variables) {
m_variables = variables;
}
const std::vector<SourceModule> &CompileUnit::GetImportedModules() {
if (m_imported_modules.empty() &&
m_flags.IsClear(flagsParsedImportedModules)) {
m_flags.Set(flagsParsedImportedModules);
if (SymbolFile *symfile = GetModule()->GetSymbolFile()) {
SymbolContext sc;
CalculateSymbolContext(&sc);
symfile->ParseImportedModules(sc, m_imported_modules);
}
}
return m_imported_modules;
}
bool CompileUnit::ForEachExternalModule(
llvm::DenseSet<SymbolFile *> &visited_symbol_files,
llvm::function_ref<bool(Module &)> lambda) {
if (SymbolFile *symfile = GetModule()->GetSymbolFile())
return symfile->ForEachExternalModule(*this, visited_symbol_files, lambda);
return false;
}
const FileSpecList &CompileUnit::GetSupportFiles() {
if (m_support_files.GetSize() == 0) {
if (m_flags.IsClear(flagsParsedSupportFiles)) {
m_flags.Set(flagsParsedSupportFiles);
if (SymbolFile *symfile = GetModule()->GetSymbolFile())
symfile->ParseSupportFiles(*this, m_support_files);
}
}
return m_support_files;
}
void *CompileUnit::GetUserData() const { return m_user_data; }
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