//===-- AppleDWARFIndex.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/DWARF/AppleDWARFIndex.h" #include "Plugins/SymbolFile/DWARF/DWARFDeclContext.h" #include "Plugins/SymbolFile/DWARF/DWARFUnit.h" #include "Plugins/SymbolFile/DWARF/LogChannelDWARF.h" #include "lldb/Core/Module.h" #include "lldb/Symbol/Function.h" #include "llvm/Support/DJB.h" using namespace lldb_private; using namespace lldb; using namespace lldb_private::dwarf; using namespace lldb_private::plugin::dwarf; std::unique_ptr AppleDWARFIndex::Create( Module &module, DWARFDataExtractor apple_names, DWARFDataExtractor apple_namespaces, DWARFDataExtractor apple_types, DWARFDataExtractor apple_objc, DWARFDataExtractor debug_str) { llvm::DataExtractor llvm_debug_str = debug_str.GetAsLLVM(); auto apple_names_table_up = std::make_unique( apple_names.GetAsLLVMDWARF(), llvm_debug_str); auto apple_namespaces_table_up = std::make_unique( apple_namespaces.GetAsLLVMDWARF(), llvm_debug_str); auto apple_types_table_up = std::make_unique( apple_types.GetAsLLVMDWARF(), llvm_debug_str); auto apple_objc_table_up = std::make_unique( apple_objc.GetAsLLVMDWARF(), llvm_debug_str); auto extract_and_check = [](auto &TablePtr) { if (auto E = TablePtr->extract()) { llvm::consumeError(std::move(E)); TablePtr.reset(); } }; extract_and_check(apple_names_table_up); extract_and_check(apple_namespaces_table_up); extract_and_check(apple_types_table_up); extract_and_check(apple_objc_table_up); assert(apple_names.GetByteSize() == 0 || apple_names.GetSharedDataBuffer()); assert(apple_namespaces.GetByteSize() == 0 || apple_namespaces.GetSharedDataBuffer()); assert(apple_types.GetByteSize() == 0 || apple_types.GetSharedDataBuffer()); assert(apple_objc.GetByteSize() == 0 || apple_objc.GetSharedDataBuffer()); if (apple_names_table_up || apple_namespaces_table_up || apple_types_table_up || apple_objc_table_up) return std::make_unique( module, std::move(apple_names_table_up), std::move(apple_namespaces_table_up), std::move(apple_types_table_up), std::move(apple_objc_table_up), apple_names.GetSharedDataBuffer(), apple_namespaces.GetSharedDataBuffer(), apple_types.GetSharedDataBuffer(), apple_objc.GetSharedDataBuffer()); return nullptr; } /// Returns true if `tag` is a class_type of structure_type tag. static bool IsClassOrStruct(dw_tag_t tag) { return tag == DW_TAG_class_type || tag == DW_TAG_structure_type; } /// Returns true if `entry` has an extractable DW_ATOM_qual_name_hash and it /// matches `expected_hash`. static bool EntryHasMatchingQualhash(const llvm::AppleAcceleratorTable::Entry &entry, uint32_t expected_hash) { std::optional form_value = entry.lookup(dwarf::DW_ATOM_qual_name_hash); if (!form_value) return false; std::optional hash = form_value->getAsUnsignedConstant(); return hash && (*hash == expected_hash); } /// Returns true if `entry` has an extractable DW_ATOM_die_tag and it matches /// `expected_tag`. We also consider it a match if the tags are different but /// in the set of {TAG_class_type, TAG_struct_type}. static bool EntryHasMatchingTag(const llvm::AppleAcceleratorTable::Entry &entry, dw_tag_t expected_tag) { std::optional form_value = entry.lookup(dwarf::DW_ATOM_die_tag); if (!form_value) return false; std::optional maybe_tag = form_value->getAsUnsignedConstant(); if (!maybe_tag) return false; auto tag = static_cast(*maybe_tag); return tag == expected_tag || (IsClassOrStruct(tag) && IsClassOrStruct(expected_tag)); } /// Returns true if `entry` has an extractable DW_ATOM_type_flags and the flag /// "DW_FLAG_type_implementation" is set. static bool HasImplementationFlag(const llvm::AppleAcceleratorTable::Entry &entry) { std::optional form_value = entry.lookup(dwarf::DW_ATOM_type_flags); if (!form_value) return false; std::optional Flags = form_value->getAsUnsignedConstant(); return Flags && (*Flags & llvm::dwarf::AcceleratorTable::DW_FLAG_type_implementation); } void AppleDWARFIndex::SearchFor(const llvm::AppleAcceleratorTable &table, llvm::StringRef name, llvm::function_ref callback, std::optional search_for_tag, std::optional search_for_qualhash) { auto converted_cb = DIERefCallback(callback, name); for (const auto &entry : table.equal_range(name)) { if (search_for_qualhash && !EntryHasMatchingQualhash(entry, *search_for_qualhash)) continue; if (search_for_tag && !EntryHasMatchingTag(entry, *search_for_tag)) continue; if (!converted_cb(entry)) break; } } void AppleDWARFIndex::GetGlobalVariables( ConstString basename, llvm::function_ref callback) { if (!m_apple_names_up) return; SearchFor(*m_apple_names_up, basename, callback); } void AppleDWARFIndex::GetGlobalVariables( const RegularExpression ®ex, llvm::function_ref callback) { if (!m_apple_names_up) return; DIERefCallbackImpl converted_cb = DIERefCallback(callback, regex.GetText()); for (const auto &entry : m_apple_names_up->entries()) if (std::optional name = entry.readName(); name && Mangled(*name).NameMatches(regex)) if (!converted_cb(entry.BaseEntry)) return; } void AppleDWARFIndex::GetGlobalVariables( DWARFUnit &cu, llvm::function_ref callback) { if (!m_apple_names_up) return; const DWARFUnit &non_skeleton_cu = cu.GetNonSkeletonUnit(); dw_offset_t lower_bound = non_skeleton_cu.GetOffset(); dw_offset_t upper_bound = non_skeleton_cu.GetNextUnitOffset(); auto is_in_range = [lower_bound, upper_bound](std::optional val) { return val.has_value() && *val >= lower_bound && *val < upper_bound; }; DIERefCallbackImpl converted_cb = DIERefCallback(callback); for (auto entry : m_apple_names_up->entries()) { if (is_in_range(entry.BaseEntry.getDIESectionOffset())) if (!converted_cb(entry.BaseEntry)) return; } } void AppleDWARFIndex::GetObjCMethods( ConstString class_name, llvm::function_ref callback) { if (!m_apple_objc_up) return; SearchFor(*m_apple_objc_up, class_name, callback); } void AppleDWARFIndex::GetCompleteObjCClass( ConstString class_name, bool must_be_implementation, llvm::function_ref callback) { if (!m_apple_types_up) return; llvm::SmallVector decl_dies; auto converted_cb = DIERefCallback(callback, class_name); for (const auto &entry : m_apple_types_up->equal_range(class_name)) { if (HasImplementationFlag(entry)) { converted_cb(entry); return; } decl_dies.emplace_back(std::nullopt, DIERef::Section::DebugInfo, *entry.getDIESectionOffset()); } if (must_be_implementation) return; for (DIERef ref : decl_dies) if (!converted_cb(ref)) return; } void AppleDWARFIndex::GetTypes( ConstString name, llvm::function_ref callback) { if (!m_apple_types_up) return; SearchFor(*m_apple_types_up, name, callback); } void AppleDWARFIndex::GetTypes( const DWARFDeclContext &context, llvm::function_ref callback) { if (!m_apple_types_up) return; Log *log = GetLog(DWARFLog::TypeCompletion | DWARFLog::Lookups); const bool entries_have_tag = m_apple_types_up->containsAtomType(DW_ATOM_die_tag); const bool entries_have_qual_hash = m_apple_types_up->containsAtomType(DW_ATOM_qual_name_hash); llvm::StringRef expected_name = context[0].name; if (entries_have_tag && entries_have_qual_hash) { const dw_tag_t expected_tag = context[0].tag; const uint32_t expected_qualname_hash = llvm::djbHash(context.GetQualifiedName()); if (log) m_module.LogMessage(log, "FindByNameAndTagAndQualifiedNameHash()"); SearchFor(*m_apple_types_up, expected_name, callback, expected_tag, expected_qualname_hash); return; } // Historically, if there are no tags, we also ignore qual_hash (why?) if (!entries_have_tag) { SearchFor(*m_apple_names_up, expected_name, callback); return; } // We have a tag but no qual hash. // When searching for a scoped type (for example, // "std::vector::const_iterator") searching for the innermost // name alone ("const_iterator") could yield many false // positives. By searching for the parent type ("vector") // first we can avoid extracting type DIEs from object files that // would fail the filter anyway. if ((context.GetSize() > 1) && IsClassOrStruct(context[1].tag)) if (m_apple_types_up->equal_range(context[1].name).empty()) return; if (log) m_module.LogMessage(log, "FindByNameAndTag()"); const dw_tag_t expected_tag = context[0].tag; SearchFor(*m_apple_types_up, expected_name, callback, expected_tag); } void AppleDWARFIndex::GetNamespaces( ConstString name, llvm::function_ref callback) { if (!m_apple_namespaces_up) return; SearchFor(*m_apple_namespaces_up, name, callback); } void AppleDWARFIndex::GetFunctions( const Module::LookupInfo &lookup_info, SymbolFileDWARF &dwarf, const CompilerDeclContext &parent_decl_ctx, llvm::function_ref callback) { if (!m_apple_names_up) return; ConstString name = lookup_info.GetLookupName(); for (const auto &entry : m_apple_names_up->equal_range(name)) { DIERef die_ref(std::nullopt, DIERef::Section::DebugInfo, *entry.getDIESectionOffset()); DWARFDIE die = dwarf.GetDIE(die_ref); if (!die) { ReportInvalidDIERef(die_ref, name); continue; } if (!ProcessFunctionDIE(lookup_info, die, parent_decl_ctx, callback)) return; } } void AppleDWARFIndex::GetFunctions( const RegularExpression ®ex, llvm::function_ref callback) { return GetGlobalVariables(regex, callback); } void AppleDWARFIndex::Dump(Stream &s) { if (m_apple_names_up) s.PutCString(".apple_names index present\n"); if (m_apple_namespaces_up) s.PutCString(".apple_namespaces index present\n"); if (m_apple_types_up) s.PutCString(".apple_types index present\n"); if (m_apple_objc_up) s.PutCString(".apple_objc index present\n"); // TODO: Dump index contents }