//===-- Variable.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/Variable.h" #include "lldb/Core/Module.h" #include "lldb/Core/ValueObject.h" #include "lldb/Core/ValueObjectVariable.h" #include "lldb/Symbol/Block.h" #include "lldb/Symbol/CompileUnit.h" #include "lldb/Symbol/CompilerDecl.h" #include "lldb/Symbol/CompilerDeclContext.h" #include "lldb/Symbol/Function.h" #include "lldb/Symbol/SymbolContext.h" #include "lldb/Symbol/SymbolFile.h" #include "lldb/Symbol/Type.h" #include "lldb/Symbol/TypeSystem.h" #include "lldb/Symbol/VariableList.h" #include "lldb/Target/ABI.h" #include "lldb/Target/Process.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/StackFrame.h" #include "lldb/Target/Target.h" #include "lldb/Target/Thread.h" #include "lldb/Utility/RegularExpression.h" #include "lldb/Utility/Stream.h" #include "llvm/ADT/Twine.h" using namespace lldb; using namespace lldb_private; Variable::Variable(lldb::user_id_t uid, const char *name, const char *mangled, const lldb::SymbolFileTypeSP &symfile_type_sp, ValueType scope, SymbolContextScope *context, const RangeList &scope_range, Declaration *decl_ptr, const DWARFExpression &location, bool external, bool artificial, bool location_is_constant_data, bool static_member) : UserID(uid), m_name(name), m_mangled(ConstString(mangled)), m_symfile_type_sp(symfile_type_sp), m_scope(scope), m_owner_scope(context), m_scope_range(scope_range), m_declaration(decl_ptr), m_location(location), m_external(external), m_artificial(artificial), m_loc_is_const_data(location_is_constant_data), m_static_member(static_member) {} Variable::~Variable() {} lldb::LanguageType Variable::GetLanguage() const { lldb::LanguageType lang = m_mangled.GuessLanguage(); if (lang != lldb::eLanguageTypeUnknown) return lang; if (auto *func = m_owner_scope->CalculateSymbolContextFunction()) { if ((lang = func->GetLanguage()) != lldb::eLanguageTypeUnknown) return lang; } else if (auto *comp_unit = m_owner_scope->CalculateSymbolContextCompileUnit()) { if ((lang = comp_unit->GetLanguage()) != lldb::eLanguageTypeUnknown) return lang; } return lldb::eLanguageTypeUnknown; } ConstString Variable::GetName() const { ConstString name = m_mangled.GetName(); if (name) return name; return m_name; } ConstString Variable::GetUnqualifiedName() const { return m_name; } bool Variable::NameMatches(ConstString name) const { if (m_name == name) return true; SymbolContext variable_sc; m_owner_scope->CalculateSymbolContext(&variable_sc); return m_mangled.NameMatches(name); } bool Variable::NameMatches(const RegularExpression ®ex) const { if (regex.Execute(m_name.AsCString())) return true; if (m_mangled) return m_mangled.NameMatches(regex); return false; } Type *Variable::GetType() { if (m_symfile_type_sp) return m_symfile_type_sp->GetType(); return nullptr; } void Variable::Dump(Stream *s, bool show_context) const { s->Printf("%p: ", static_cast(this)); s->Indent(); *s << "Variable" << (const UserID &)*this; if (m_name) *s << ", name = \"" << m_name << "\""; if (m_symfile_type_sp) { Type *type = m_symfile_type_sp->GetType(); if (type) { s->Format(", type = {{{0:x-16}} {1} (", type->GetID(), type); type->DumpTypeName(s); s->PutChar(')'); } } if (m_scope != eValueTypeInvalid) { s->PutCString(", scope = "); switch (m_scope) { case eValueTypeVariableGlobal: s->PutCString(m_external ? "global" : "static"); break; case eValueTypeVariableArgument: s->PutCString("parameter"); break; case eValueTypeVariableLocal: s->PutCString("local"); break; case eValueTypeVariableThreadLocal: s->PutCString("thread local"); break; default: s->AsRawOstream() << "??? (" << m_scope << ')'; } } if (show_context && m_owner_scope != nullptr) { s->PutCString(", context = ( "); m_owner_scope->DumpSymbolContext(s); s->PutCString(" )"); } bool show_fullpaths = false; m_declaration.Dump(s, show_fullpaths); if (m_location.IsValid()) { s->PutCString(", location = "); lldb::addr_t loclist_base_addr = LLDB_INVALID_ADDRESS; if (m_location.IsLocationList()) { SymbolContext variable_sc; m_owner_scope->CalculateSymbolContext(&variable_sc); if (variable_sc.function) loclist_base_addr = variable_sc.function->GetAddressRange() .GetBaseAddress() .GetFileAddress(); } ABISP abi; if (m_owner_scope) { ModuleSP module_sp(m_owner_scope->CalculateSymbolContextModule()); if (module_sp) abi = ABI::FindPlugin(ProcessSP(), module_sp->GetArchitecture()); } m_location.GetDescription(s, lldb::eDescriptionLevelBrief, loclist_base_addr, abi.get()); } if (m_external) s->PutCString(", external"); if (m_artificial) s->PutCString(", artificial"); s->EOL(); } bool Variable::DumpDeclaration(Stream *s, bool show_fullpaths, bool show_module) { bool dumped_declaration_info = false; if (m_owner_scope) { SymbolContext sc; m_owner_scope->CalculateSymbolContext(&sc); sc.block = nullptr; sc.line_entry.Clear(); bool show_inlined_frames = false; const bool show_function_arguments = true; const bool show_function_name = true; dumped_declaration_info = sc.DumpStopContext( s, nullptr, Address(), show_fullpaths, show_module, show_inlined_frames, show_function_arguments, show_function_name); if (sc.function) s->PutChar(':'); } if (m_declaration.DumpStopContext(s, false)) dumped_declaration_info = true; return dumped_declaration_info; } size_t Variable::MemorySize() const { return sizeof(Variable); } CompilerDeclContext Variable::GetDeclContext() { Type *type = GetType(); if (type) return type->GetSymbolFile()->GetDeclContextContainingUID(GetID()); return CompilerDeclContext(); } CompilerDecl Variable::GetDecl() { Type *type = GetType(); return type ? type->GetSymbolFile()->GetDeclForUID(GetID()) : CompilerDecl(); } void Variable::CalculateSymbolContext(SymbolContext *sc) { if (m_owner_scope) { m_owner_scope->CalculateSymbolContext(sc); sc->variable = this; } else sc->Clear(false); } bool Variable::LocationIsValidForFrame(StackFrame *frame) { // Is the variable is described by a single location? if (!m_location.IsLocationList()) { // Yes it is, the location is valid. return true; } if (frame) { Function *function = frame->GetSymbolContext(eSymbolContextFunction).function; if (function) { TargetSP target_sp(frame->CalculateTarget()); addr_t loclist_base_load_addr = function->GetAddressRange().GetBaseAddress().GetLoadAddress( target_sp.get()); if (loclist_base_load_addr == LLDB_INVALID_ADDRESS) return false; // It is a location list. We just need to tell if the location list // contains the current address when converted to a load address return m_location.LocationListContainsAddress( loclist_base_load_addr, frame->GetFrameCodeAddress().GetLoadAddress(target_sp.get())); } } return false; } bool Variable::LocationIsValidForAddress(const Address &address) { // Be sure to resolve the address to section offset prior to calling this // function. if (address.IsSectionOffset()) { SymbolContext sc; CalculateSymbolContext(&sc); if (sc.module_sp == address.GetModule()) { // Is the variable is described by a single location? if (!m_location.IsLocationList()) { // Yes it is, the location is valid. return true; } if (sc.function) { addr_t loclist_base_file_addr = sc.function->GetAddressRange().GetBaseAddress().GetFileAddress(); if (loclist_base_file_addr == LLDB_INVALID_ADDRESS) return false; // It is a location list. We just need to tell if the location list // contains the current address when converted to a load address return m_location.LocationListContainsAddress(loclist_base_file_addr, address.GetFileAddress()); } } } return false; } bool Variable::IsInScope(StackFrame *frame) { switch (m_scope) { case eValueTypeRegister: case eValueTypeRegisterSet: return frame != nullptr; case eValueTypeConstResult: case eValueTypeVariableGlobal: case eValueTypeVariableStatic: case eValueTypeVariableThreadLocal: return true; case eValueTypeVariableArgument: case eValueTypeVariableLocal: if (frame) { // We don't have a location list, we just need to see if the block that // this variable was defined in is currently Block *deepest_frame_block = frame->GetSymbolContext(eSymbolContextBlock).block; if (deepest_frame_block) { SymbolContext variable_sc; CalculateSymbolContext(&variable_sc); // Check for static or global variable defined at the compile unit // level that wasn't defined in a block if (variable_sc.block == nullptr) return true; // Check if the variable is valid in the current block if (variable_sc.block != deepest_frame_block && !variable_sc.block->Contains(deepest_frame_block)) return false; // If no scope range is specified then it means that the scope is the // same as the scope of the enclosing lexical block. if (m_scope_range.IsEmpty()) return true; addr_t file_address = frame->GetFrameCodeAddress().GetFileAddress(); return m_scope_range.FindEntryThatContains(file_address) != nullptr; } } break; default: break; } return false; } Status Variable::GetValuesForVariableExpressionPath( llvm::StringRef variable_expr_path, ExecutionContextScope *scope, GetVariableCallback callback, void *baton, VariableList &variable_list, ValueObjectList &valobj_list) { Status error; if (!callback || variable_expr_path.empty()) { error.SetErrorString("unknown error"); return error; } switch (variable_expr_path.front()) { case '*': error = Variable::GetValuesForVariableExpressionPath( variable_expr_path.drop_front(), scope, callback, baton, variable_list, valobj_list); if (error.Fail()) { error.SetErrorString("unknown error"); return error; } for (uint32_t i = 0; i < valobj_list.GetSize();) { Status tmp_error; ValueObjectSP valobj_sp( valobj_list.GetValueObjectAtIndex(i)->Dereference(tmp_error)); if (tmp_error.Fail()) { variable_list.RemoveVariableAtIndex(i); valobj_list.RemoveValueObjectAtIndex(i); } else { valobj_list.SetValueObjectAtIndex(i, valobj_sp); ++i; } } return error; case '&': { error = Variable::GetValuesForVariableExpressionPath( variable_expr_path.drop_front(), scope, callback, baton, variable_list, valobj_list); if (error.Success()) { for (uint32_t i = 0; i < valobj_list.GetSize();) { Status tmp_error; ValueObjectSP valobj_sp( valobj_list.GetValueObjectAtIndex(i)->AddressOf(tmp_error)); if (tmp_error.Fail()) { variable_list.RemoveVariableAtIndex(i); valobj_list.RemoveValueObjectAtIndex(i); } else { valobj_list.SetValueObjectAtIndex(i, valobj_sp); ++i; } } } else { error.SetErrorString("unknown error"); } return error; } break; default: { static RegularExpression g_regex( llvm::StringRef("^([A-Za-z_:][A-Za-z_0-9:]*)(.*)")); llvm::SmallVector matches; variable_list.Clear(); if (!g_regex.Execute(variable_expr_path, &matches)) { error.SetErrorStringWithFormat( "unable to extract a variable name from '%s'", variable_expr_path.str().c_str()); return error; } std::string variable_name = matches[1].str(); if (!callback(baton, variable_name.c_str(), variable_list)) { error.SetErrorString("unknown error"); return error; } uint32_t i = 0; while (i < variable_list.GetSize()) { VariableSP var_sp(variable_list.GetVariableAtIndex(i)); ValueObjectSP valobj_sp; if (!var_sp) { variable_list.RemoveVariableAtIndex(i); continue; } ValueObjectSP variable_valobj_sp( ValueObjectVariable::Create(scope, var_sp)); if (!variable_valobj_sp) { variable_list.RemoveVariableAtIndex(i); continue; } llvm::StringRef variable_sub_expr_path = variable_expr_path.drop_front(variable_name.size()); if (!variable_sub_expr_path.empty()) { valobj_sp = variable_valobj_sp->GetValueForExpressionPath( variable_sub_expr_path); if (!valobj_sp) { error.SetErrorStringWithFormat( "invalid expression path '%s' for variable '%s'", variable_sub_expr_path.str().c_str(), var_sp->GetName().GetCString()); variable_list.RemoveVariableAtIndex(i); continue; } } else { // Just the name of a variable with no extras valobj_sp = variable_valobj_sp; } valobj_list.Append(valobj_sp); ++i; } if (variable_list.GetSize() > 0) { error.Clear(); return error; } } break; } error.SetErrorString("unknown error"); return error; } bool Variable::DumpLocationForAddress(Stream *s, const Address &address) { // Be sure to resolve the address to section offset prior to calling this // function. if (address.IsSectionOffset()) { SymbolContext sc; CalculateSymbolContext(&sc); if (sc.module_sp == address.GetModule()) { ABISP abi; if (m_owner_scope) { ModuleSP module_sp(m_owner_scope->CalculateSymbolContextModule()); if (module_sp) abi = ABI::FindPlugin(ProcessSP(), module_sp->GetArchitecture()); } const addr_t file_addr = address.GetFileAddress(); if (sc.function) { if (sc.function->GetAddressRange().ContainsFileAddress(address)) { addr_t loclist_base_file_addr = sc.function->GetAddressRange().GetBaseAddress().GetFileAddress(); if (loclist_base_file_addr == LLDB_INVALID_ADDRESS) return false; return m_location.DumpLocationForAddress(s, eDescriptionLevelBrief, loclist_base_file_addr, file_addr, abi.get()); } } return m_location.DumpLocationForAddress(s, eDescriptionLevelBrief, LLDB_INVALID_ADDRESS, file_addr, abi.get()); } } return false; } static void PrivateAutoComplete( StackFrame *frame, llvm::StringRef partial_path, const llvm::Twine &prefix_path, // Anything that has been resolved already will be in here const CompilerType &compiler_type, CompletionRequest &request); static void PrivateAutoCompleteMembers( StackFrame *frame, const std::string &partial_member_name, llvm::StringRef partial_path, const llvm::Twine &prefix_path, // Anything that has been resolved already will be in here const CompilerType &compiler_type, CompletionRequest &request) { // We are in a type parsing child members const uint32_t num_bases = compiler_type.GetNumDirectBaseClasses(); if (num_bases > 0) { for (uint32_t i = 0; i < num_bases; ++i) { CompilerType base_class_type = compiler_type.GetDirectBaseClassAtIndex(i, nullptr); PrivateAutoCompleteMembers(frame, partial_member_name, partial_path, prefix_path, base_class_type.GetCanonicalType(), request); } } const uint32_t num_vbases = compiler_type.GetNumVirtualBaseClasses(); if (num_vbases > 0) { for (uint32_t i = 0; i < num_vbases; ++i) { CompilerType vbase_class_type = compiler_type.GetVirtualBaseClassAtIndex(i, nullptr); PrivateAutoCompleteMembers(frame, partial_member_name, partial_path, prefix_path, vbase_class_type.GetCanonicalType(), request); } } // We are in a type parsing child members const uint32_t num_fields = compiler_type.GetNumFields(); if (num_fields > 0) { for (uint32_t i = 0; i < num_fields; ++i) { std::string member_name; CompilerType member_compiler_type = compiler_type.GetFieldAtIndex( i, member_name, nullptr, nullptr, nullptr); if (partial_member_name.empty() || llvm::StringRef(member_name).startswith(partial_member_name)) { if (member_name == partial_member_name) { PrivateAutoComplete( frame, partial_path, prefix_path + member_name, // Anything that has been resolved // already will be in here member_compiler_type.GetCanonicalType(), request); } else { request.AddCompletion((prefix_path + member_name).str()); } } } } } static void PrivateAutoComplete( StackFrame *frame, llvm::StringRef partial_path, const llvm::Twine &prefix_path, // Anything that has been resolved already will be in here const CompilerType &compiler_type, CompletionRequest &request) { // printf ("\nPrivateAutoComplete()\n\tprefix_path = '%s'\n\tpartial_path = // '%s'\n", prefix_path.c_str(), partial_path.c_str()); std::string remaining_partial_path; const lldb::TypeClass type_class = compiler_type.GetTypeClass(); if (partial_path.empty()) { if (compiler_type.IsValid()) { switch (type_class) { default: case eTypeClassArray: case eTypeClassBlockPointer: case eTypeClassBuiltin: case eTypeClassComplexFloat: case eTypeClassComplexInteger: case eTypeClassEnumeration: case eTypeClassFunction: case eTypeClassMemberPointer: case eTypeClassReference: case eTypeClassTypedef: case eTypeClassVector: { request.AddCompletion(prefix_path.str()); } break; case eTypeClassClass: case eTypeClassStruct: case eTypeClassUnion: if (prefix_path.str().back() != '.') request.AddCompletion((prefix_path + ".").str()); break; case eTypeClassObjCObject: case eTypeClassObjCInterface: break; case eTypeClassObjCObjectPointer: case eTypeClassPointer: { bool omit_empty_base_classes = true; if (compiler_type.GetNumChildren(omit_empty_base_classes, nullptr) > 0) request.AddCompletion((prefix_path + "->").str()); else { request.AddCompletion(prefix_path.str()); } } break; } } else { if (frame) { const bool get_file_globals = true; VariableList *variable_list = frame->GetVariableList(get_file_globals); if (variable_list) { for (const VariableSP &var_sp : *variable_list) request.AddCompletion(var_sp->GetName().AsCString()); } } } } else { const char ch = partial_path[0]; switch (ch) { case '*': if (prefix_path.str().empty()) { PrivateAutoComplete(frame, partial_path.substr(1), "*", compiler_type, request); } break; case '&': if (prefix_path.isTriviallyEmpty()) { PrivateAutoComplete(frame, partial_path.substr(1), std::string("&"), compiler_type, request); } break; case '-': if (partial_path.size() > 1 && partial_path[1] == '>' && !prefix_path.str().empty()) { switch (type_class) { case lldb::eTypeClassPointer: { CompilerType pointee_type(compiler_type.GetPointeeType()); if (partial_path.size() > 2 && partial_path[2]) { // If there is more after the "->", then search deeper PrivateAutoComplete(frame, partial_path.substr(2), prefix_path + "->", pointee_type.GetCanonicalType(), request); } else { // Nothing after the "->", so list all members PrivateAutoCompleteMembers( frame, std::string(), std::string(), prefix_path + "->", pointee_type.GetCanonicalType(), request); } } break; default: break; } } break; case '.': if (compiler_type.IsValid()) { switch (type_class) { case lldb::eTypeClassUnion: case lldb::eTypeClassStruct: case lldb::eTypeClassClass: if (partial_path.size() > 1 && partial_path[1]) { // If there is more after the ".", then search deeper PrivateAutoComplete(frame, partial_path.substr(1), prefix_path + ".", compiler_type, request); } else { // Nothing after the ".", so list all members PrivateAutoCompleteMembers(frame, std::string(), partial_path, prefix_path + ".", compiler_type, request); } break; default: break; } } break; default: if (isalpha(ch) || ch == '_' || ch == '$') { const size_t partial_path_len = partial_path.size(); size_t pos = 1; while (pos < partial_path_len) { const char curr_ch = partial_path[pos]; if (isalnum(curr_ch) || curr_ch == '_' || curr_ch == '$') { ++pos; continue; } break; } std::string token(std::string(partial_path), 0, pos); remaining_partial_path = std::string(partial_path.substr(pos)); if (compiler_type.IsValid()) { PrivateAutoCompleteMembers(frame, token, remaining_partial_path, prefix_path, compiler_type, request); } else if (frame) { // We haven't found our variable yet const bool get_file_globals = true; VariableList *variable_list = frame->GetVariableList(get_file_globals); if (!variable_list) break; for (VariableSP var_sp : *variable_list) { if (!var_sp) continue; llvm::StringRef variable_name = var_sp->GetName().GetStringRef(); if (variable_name.startswith(token)) { if (variable_name == token) { Type *variable_type = var_sp->GetType(); if (variable_type) { CompilerType variable_compiler_type( variable_type->GetForwardCompilerType()); PrivateAutoComplete( frame, remaining_partial_path, prefix_path + token, // Anything that has been resolved // already will be in here variable_compiler_type.GetCanonicalType(), request); } else { request.AddCompletion((prefix_path + variable_name).str()); } } else if (remaining_partial_path.empty()) { request.AddCompletion((prefix_path + variable_name).str()); } } } } } break; } } } void Variable::AutoComplete(const ExecutionContext &exe_ctx, CompletionRequest &request) { CompilerType compiler_type; PrivateAutoComplete(exe_ctx.GetFramePtr(), request.GetCursorArgumentPrefix(), "", compiler_type, request); }