//===-- PlatformDarwin.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 "PlatformDarwin.h" #include #include #include #include #include #include "lldb/Breakpoint/BreakpointLocation.h" #include "lldb/Breakpoint/BreakpointSite.h" #include "lldb/Core/Debugger.h" #include "lldb/Core/Module.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Core/PluginManager.h" #include "lldb/Core/Section.h" #include "lldb/Host/Host.h" #include "lldb/Host/HostInfo.h" #include "lldb/Host/XML.h" #include "lldb/Interpreter/CommandInterpreter.h" #include "lldb/Interpreter/OptionValueProperties.h" #include "lldb/Interpreter/OptionValueString.h" #include "lldb/Interpreter/Options.h" #include "lldb/Symbol/CompileUnit.h" #include "lldb/Symbol/ObjectFile.h" #include "lldb/Symbol/SymbolFile.h" #include "lldb/Symbol/SymbolVendor.h" #include "lldb/Target/Platform.h" #include "lldb/Target/Process.h" #include "lldb/Target/Target.h" #include "lldb/Utility/LLDBLog.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/ProcessInfo.h" #include "lldb/Utility/Status.h" #include "lldb/Utility/Timer.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringTable.h" #include "llvm/Support/Error.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Threading.h" #include "llvm/Support/VersionTuple.h" #if defined(__APPLE__) #include #endif using namespace lldb; using namespace lldb_private; #define OPTTABLE_STR_TABLE_CODE #include "clang/Driver/Options.inc" #undef OPTTABLE_STR_TABLE_CODE static Status ExceptionMaskValidator(const char *string, void *unused) { Status error; llvm::StringRef str_ref(string); llvm::SmallVector candidates; str_ref.split(candidates, '|'); for (auto candidate : candidates) { if (!(candidate == "EXC_BAD_ACCESS" || candidate == "EXC_BAD_INSTRUCTION" || candidate == "EXC_ARITHMETIC" || candidate == "EXC_RESOURCE" || candidate == "EXC_GUARD" || candidate == "EXC_SYSCALL")) { error = Status::FromErrorStringWithFormat("invalid exception type: '%s'", candidate.str().c_str()); return error; } } return {}; } /// Destructor. /// /// The destructor is virtual since this class is designed to be /// inherited from by the plug-in instance. PlatformDarwin::~PlatformDarwin() = default; // Static Variables static uint32_t g_initialize_count = 0; void PlatformDarwin::Initialize() { Platform::Initialize(); if (g_initialize_count++ == 0) { PluginManager::RegisterPlugin(PlatformDarwin::GetPluginNameStatic(), PlatformDarwin::GetDescriptionStatic(), PlatformDarwin::CreateInstance, PlatformDarwin::DebuggerInitialize); } } void PlatformDarwin::Terminate() { if (g_initialize_count > 0) { if (--g_initialize_count == 0) { PluginManager::UnregisterPlugin(PlatformDarwin::CreateInstance); } } Platform::Terminate(); } llvm::StringRef PlatformDarwin::GetDescriptionStatic() { return "Darwin platform plug-in."; } PlatformSP PlatformDarwin::CreateInstance(bool force, const ArchSpec *arch) { // We only create subclasses of the PlatformDarwin plugin. return PlatformSP(); } #define LLDB_PROPERTIES_platformdarwin #include "PlatformMacOSXProperties.inc" #define LLDB_PROPERTIES_platformdarwin enum { #include "PlatformMacOSXPropertiesEnum.inc" }; class PlatformDarwinProperties : public Properties { public: static llvm::StringRef GetSettingName() { static constexpr llvm::StringLiteral g_setting_name("darwin"); return g_setting_name; } PlatformDarwinProperties() : Properties() { m_collection_sp = std::make_shared(GetSettingName()); m_collection_sp->Initialize(g_platformdarwin_properties); } ~PlatformDarwinProperties() override = default; const char *GetIgnoredExceptions() const { const uint32_t idx = ePropertyIgnoredExceptions; const OptionValueString *option_value = m_collection_sp->GetPropertyAtIndexAsOptionValueString(idx); assert(option_value); return option_value->GetCurrentValue(); } OptionValueString *GetIgnoredExceptionValue() { const uint32_t idx = ePropertyIgnoredExceptions; OptionValueString *option_value = m_collection_sp->GetPropertyAtIndexAsOptionValueString(idx); assert(option_value); return option_value; } }; static PlatformDarwinProperties &GetGlobalProperties() { static PlatformDarwinProperties g_settings; return g_settings; } void PlatformDarwin::DebuggerInitialize( lldb_private::Debugger &debugger) { if (!PluginManager::GetSettingForPlatformPlugin( debugger, PlatformDarwinProperties::GetSettingName())) { const bool is_global_setting = false; PluginManager::CreateSettingForPlatformPlugin( debugger, GetGlobalProperties().GetValueProperties(), "Properties for the Darwin platform plug-in.", is_global_setting); OptionValueString *value = GetGlobalProperties().GetIgnoredExceptionValue(); value->SetValidator(ExceptionMaskValidator); } } Args PlatformDarwin::GetExtraStartupCommands() { std::string ignored_exceptions = GetGlobalProperties().GetIgnoredExceptions(); if (ignored_exceptions.empty()) return {}; Args ret_args; std::string packet = "QSetIgnoredExceptions:"; packet.append(ignored_exceptions); ret_args.AppendArgument(packet); return ret_args; } lldb_private::Status PlatformDarwin::PutFile(const lldb_private::FileSpec &source, const lldb_private::FileSpec &destination, uint32_t uid, uint32_t gid) { // Unconditionally unlink the destination. If it is an executable, // simply opening it and truncating its contents would invalidate // its cached code signature. Unlink(destination); return PlatformPOSIX::PutFile(source, destination, uid, gid); } FileSpecList PlatformDarwin::LocateExecutableScriptingResources( Target *target, Module &module, Stream &feedback_stream) { FileSpecList file_list; if (target && target->GetDebugger().GetScriptLanguage() == eScriptLanguagePython) { // NB some extensions might be meaningful and should not be stripped - // "this.binary.file" // should not lose ".file" but GetFileNameStrippingExtension() will do // precisely that. Ideally, we should have a per-platform list of // extensions (".exe", ".app", ".dSYM", ".framework") which should be // stripped while leaving "this.binary.file" as-is. FileSpec module_spec = module.GetFileSpec(); if (module_spec) { if (SymbolFile *symfile = module.GetSymbolFile()) { ObjectFile *objfile = symfile->GetObjectFile(); if (objfile) { FileSpec symfile_spec(objfile->GetFileSpec()); if (symfile_spec && llvm::StringRef(symfile_spec.GetPath()) .contains_insensitive(".dSYM/Contents/Resources/DWARF") && FileSystem::Instance().Exists(symfile_spec)) { while (module_spec.GetFilename()) { std::string module_basename( module_spec.GetFilename().GetCString()); std::string original_module_basename(module_basename); bool was_keyword = false; // FIXME: for Python, we cannot allow certain characters in // module // filenames we import. Theoretically, different scripting // languages may have different sets of forbidden tokens in // filenames, and that should be dealt with by each // ScriptInterpreter. For now, we just replace dots with // underscores, but if we ever support anything other than // Python we will need to rework this std::replace(module_basename.begin(), module_basename.end(), '.', '_'); std::replace(module_basename.begin(), module_basename.end(), ' ', '_'); std::replace(module_basename.begin(), module_basename.end(), '-', '_'); ScriptInterpreter *script_interpreter = target->GetDebugger().GetScriptInterpreter(); if (script_interpreter && script_interpreter->IsReservedWord(module_basename.c_str())) { module_basename.insert(module_basename.begin(), '_'); was_keyword = true; } StreamString path_string; StreamString original_path_string; // for OSX we are going to be in // .dSYM/Contents/Resources/DWARF/ let us go to // .dSYM/Contents/Resources/Python/.py and see if the // file exists path_string.Printf("%s/../Python/%s.py", symfile_spec.GetDirectory().GetCString(), module_basename.c_str()); original_path_string.Printf( "%s/../Python/%s.py", symfile_spec.GetDirectory().GetCString(), original_module_basename.c_str()); FileSpec script_fspec(path_string.GetString()); FileSystem::Instance().Resolve(script_fspec); FileSpec orig_script_fspec(original_path_string.GetString()); FileSystem::Instance().Resolve(orig_script_fspec); // if we did some replacements of reserved characters, and a // file with the untampered name exists, then warn the user // that the file as-is shall not be loaded if (module_basename != original_module_basename && FileSystem::Instance().Exists(orig_script_fspec)) { const char *reason_for_complaint = was_keyword ? "conflicts with a keyword" : "contains reserved characters"; if (FileSystem::Instance().Exists(script_fspec)) feedback_stream.Printf( "warning: the symbol file '%s' contains a debug " "script. However, its name" " '%s' %s and as such cannot be loaded. LLDB will" " load '%s' instead. Consider removing the file with " "the malformed name to" " eliminate this warning.\n", symfile_spec.GetPath().c_str(), original_path_string.GetData(), reason_for_complaint, path_string.GetData()); else feedback_stream.Printf( "warning: the symbol file '%s' contains a debug " "script. However, its name" " %s and as such cannot be loaded. If you intend" " to have this script loaded, please rename '%s' to " "'%s' and retry.\n", symfile_spec.GetPath().c_str(), reason_for_complaint, original_path_string.GetData(), path_string.GetData()); } if (FileSystem::Instance().Exists(script_fspec)) { file_list.Append(script_fspec); break; } // If we didn't find the python file, then keep stripping the // extensions and try again ConstString filename_no_extension( module_spec.GetFileNameStrippingExtension()); if (module_spec.GetFilename() == filename_no_extension) break; module_spec.SetFilename(filename_no_extension); } } } } } } return file_list; } Status PlatformDarwin::ResolveSymbolFile(Target &target, const ModuleSpec &sym_spec, FileSpec &sym_file) { sym_file = sym_spec.GetSymbolFileSpec(); if (FileSystem::Instance().IsDirectory(sym_file)) { sym_file = PluginManager::FindSymbolFileInBundle( sym_file, sym_spec.GetUUIDPtr(), sym_spec.GetArchitecturePtr()); } return {}; } Status PlatformDarwin::GetSharedModule( const ModuleSpec &module_spec, Process *process, ModuleSP &module_sp, const FileSpecList *module_search_paths_ptr, llvm::SmallVectorImpl *old_modules, bool *did_create_ptr) { Status error; module_sp.reset(); if (IsRemote()) { // If we have a remote platform always, let it try and locate the shared // module first. if (m_remote_platform_sp) { error = m_remote_platform_sp->GetSharedModule( module_spec, process, module_sp, module_search_paths_ptr, old_modules, did_create_ptr); } } if (!module_sp) { // Fall back to the local platform and find the file locally error = Platform::GetSharedModule(module_spec, process, module_sp, module_search_paths_ptr, old_modules, did_create_ptr); const FileSpec &platform_file = module_spec.GetFileSpec(); if (!module_sp && module_search_paths_ptr && platform_file) { // We can try to pull off part of the file path up to the bundle // directory level and try any module search paths... FileSpec bundle_directory; if (Host::GetBundleDirectory(platform_file, bundle_directory)) { if (platform_file == bundle_directory) { ModuleSpec new_module_spec(module_spec); new_module_spec.GetFileSpec() = bundle_directory; if (Host::ResolveExecutableInBundle(new_module_spec.GetFileSpec())) { Status new_error(Platform::GetSharedModule( new_module_spec, process, module_sp, nullptr, old_modules, did_create_ptr)); if (module_sp) return new_error; } } else { char platform_path[PATH_MAX]; char bundle_dir[PATH_MAX]; platform_file.GetPath(platform_path, sizeof(platform_path)); const size_t bundle_directory_len = bundle_directory.GetPath(bundle_dir, sizeof(bundle_dir)); char new_path[PATH_MAX]; size_t num_module_search_paths = module_search_paths_ptr->GetSize(); for (size_t i = 0; i < num_module_search_paths; ++i) { const size_t search_path_len = module_search_paths_ptr->GetFileSpecAtIndex(i).GetPath( new_path, sizeof(new_path)); if (search_path_len < sizeof(new_path)) { snprintf(new_path + search_path_len, sizeof(new_path) - search_path_len, "/%s", platform_path + bundle_directory_len); FileSpec new_file_spec(new_path); if (FileSystem::Instance().Exists(new_file_spec)) { ModuleSpec new_module_spec(module_spec); new_module_spec.GetFileSpec() = new_file_spec; Status new_error(Platform::GetSharedModule( new_module_spec, process, module_sp, nullptr, old_modules, did_create_ptr)); if (module_sp) { module_sp->SetPlatformFileSpec(new_file_spec); return new_error; } } } } } } } } if (module_sp) module_sp->SetPlatformFileSpec(module_spec.GetFileSpec()); return error; } size_t PlatformDarwin::GetSoftwareBreakpointTrapOpcode(Target &target, BreakpointSite *bp_site) { const uint8_t *trap_opcode = nullptr; uint32_t trap_opcode_size = 0; bool bp_is_thumb = false; llvm::Triple::ArchType machine = target.GetArchitecture().GetMachine(); switch (machine) { case llvm::Triple::aarch64_32: case llvm::Triple::aarch64: { // 'brk #0' or 0xd4200000 in BE byte order static const uint8_t g_arm64_breakpoint_opcode[] = {0x00, 0x00, 0x20, 0xD4}; trap_opcode = g_arm64_breakpoint_opcode; trap_opcode_size = sizeof(g_arm64_breakpoint_opcode); } break; case llvm::Triple::thumb: bp_is_thumb = true; [[fallthrough]]; case llvm::Triple::arm: { static const uint8_t g_arm_breakpoint_opcode[] = {0xFE, 0xDE, 0xFF, 0xE7}; static const uint8_t g_thumb_breakpooint_opcode[] = {0xFE, 0xDE}; // Auto detect arm/thumb if it wasn't explicitly specified if (!bp_is_thumb) { lldb::BreakpointLocationSP bp_loc_sp(bp_site->GetConstituentAtIndex(0)); if (bp_loc_sp) bp_is_thumb = bp_loc_sp->GetAddress().GetAddressClass() == AddressClass::eCodeAlternateISA; } if (bp_is_thumb) { trap_opcode = g_thumb_breakpooint_opcode; trap_opcode_size = sizeof(g_thumb_breakpooint_opcode); break; } trap_opcode = g_arm_breakpoint_opcode; trap_opcode_size = sizeof(g_arm_breakpoint_opcode); } break; case llvm::Triple::ppc: case llvm::Triple::ppc64: { static const uint8_t g_ppc_breakpoint_opcode[] = {0x7F, 0xC0, 0x00, 0x08}; trap_opcode = g_ppc_breakpoint_opcode; trap_opcode_size = sizeof(g_ppc_breakpoint_opcode); } break; default: return Platform::GetSoftwareBreakpointTrapOpcode(target, bp_site); } if (trap_opcode && trap_opcode_size) { if (bp_site->SetTrapOpcode(trap_opcode, trap_opcode_size)) return trap_opcode_size; } return 0; } bool PlatformDarwin::ModuleIsExcludedForUnconstrainedSearches( lldb_private::Target &target, const lldb::ModuleSP &module_sp) { if (!module_sp) return false; ObjectFile *obj_file = module_sp->GetObjectFile(); if (!obj_file) return false; ObjectFile::Type obj_type = obj_file->GetType(); return obj_type == ObjectFile::eTypeDynamicLinker; } void PlatformDarwin::x86GetSupportedArchitectures( std::vector &archs) { ArchSpec host_arch = HostInfo::GetArchitecture(HostInfo::eArchKindDefault); archs.push_back(host_arch); if (host_arch.GetCore() == ArchSpec::eCore_x86_64_x86_64h) { archs.push_back(ArchSpec("x86_64-apple-macosx")); archs.push_back(HostInfo::GetArchitecture(HostInfo::eArchKind32)); } else { ArchSpec host_arch64 = HostInfo::GetArchitecture(HostInfo::eArchKind64); if (host_arch.IsExactMatch(host_arch64)) archs.push_back(HostInfo::GetArchitecture(HostInfo::eArchKind32)); } } static llvm::ArrayRef GetCompatibleArchs(ArchSpec::Core core) { switch (core) { default: [[fallthrough]]; case ArchSpec::eCore_arm_arm64e: { static const char *g_arm64e_compatible_archs[] = { "arm64e", "arm64", "armv7", "armv7f", "armv7k", "armv7s", "armv7m", "armv7em", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7", "thumbv7f", "thumbv7k", "thumbv7s", "thumbv7m", "thumbv7em", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_arm64e_compatible_archs}; } case ArchSpec::eCore_arm_arm64: { static const char *g_arm64_compatible_archs[] = { "arm64", "armv7", "armv7f", "armv7k", "armv7s", "armv7m", "armv7em", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7", "thumbv7f", "thumbv7k", "thumbv7s", "thumbv7m", "thumbv7em", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_arm64_compatible_archs}; } case ArchSpec::eCore_arm_armv7: { static const char *g_armv7_compatible_archs[] = { "armv7", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv7_compatible_archs}; } case ArchSpec::eCore_arm_armv7f: { static const char *g_armv7f_compatible_archs[] = { "armv7f", "armv7", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7f", "thumbv7", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv7f_compatible_archs}; } case ArchSpec::eCore_arm_armv7k: { static const char *g_armv7k_compatible_archs[] = { "armv7k", "armv7", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7k", "thumbv7", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv7k_compatible_archs}; } case ArchSpec::eCore_arm_armv7s: { static const char *g_armv7s_compatible_archs[] = { "armv7s", "armv7", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7s", "thumbv7", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv7s_compatible_archs}; } case ArchSpec::eCore_arm_armv7m: { static const char *g_armv7m_compatible_archs[] = { "armv7m", "armv7", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7m", "thumbv7", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv7m_compatible_archs}; } case ArchSpec::eCore_arm_armv7em: { static const char *g_armv7em_compatible_archs[] = { "armv7em", "armv7", "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv7em", "thumbv7", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv7em_compatible_archs}; } case ArchSpec::eCore_arm_armv6m: { static const char *g_armv6m_compatible_archs[] = { "armv6m", "armv6", "armv5", "armv4", "arm", "thumbv6m", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv6m_compatible_archs}; } case ArchSpec::eCore_arm_armv6: { static const char *g_armv6_compatible_archs[] = { "armv6", "armv5", "armv4", "arm", "thumbv6", "thumbv5", "thumbv4t", "thumb", }; return {g_armv6_compatible_archs}; } case ArchSpec::eCore_arm_armv5: { static const char *g_armv5_compatible_archs[] = { "armv5", "armv4", "arm", "thumbv5", "thumbv4t", "thumb", }; return {g_armv5_compatible_archs}; } case ArchSpec::eCore_arm_armv4: { static const char *g_armv4_compatible_archs[] = { "armv4", "arm", "thumbv4t", "thumb", }; return {g_armv4_compatible_archs}; } } return {}; } /// The architecture selection rules for arm processors These cpu subtypes have /// distinct names (e.g. armv7f) but armv7 binaries run fine on an armv7f /// processor. void PlatformDarwin::ARMGetSupportedArchitectures( std::vector &archs, std::optional os) { const ArchSpec system_arch = GetSystemArchitecture(); const ArchSpec::Core system_core = system_arch.GetCore(); for (const char *arch : GetCompatibleArchs(system_core)) { llvm::Triple triple; triple.setArchName(arch); triple.setVendor(llvm::Triple::VendorType::Apple); if (os) triple.setOS(*os); archs.push_back(ArchSpec(triple)); } } static FileSpec GetXcodeSelectPath() { static FileSpec g_xcode_select_filespec; if (!g_xcode_select_filespec) { FileSpec xcode_select_cmd("/usr/bin/xcode-select"); if (FileSystem::Instance().Exists(xcode_select_cmd)) { int exit_status = -1; int signo = -1; std::string command_output; Status status = Host::RunShellCommand("/usr/bin/xcode-select --print-path", FileSpec(), // current working directory &exit_status, &signo, &command_output, std::chrono::seconds(2), // short timeout false); // don't run in a shell if (status.Success() && exit_status == 0 && !command_output.empty()) { size_t first_non_newline = command_output.find_last_not_of("\r\n"); if (first_non_newline != std::string::npos) { command_output.erase(first_non_newline + 1); } g_xcode_select_filespec = FileSpec(command_output); } } } return g_xcode_select_filespec; } BreakpointSP PlatformDarwin::SetThreadCreationBreakpoint(Target &target) { BreakpointSP bp_sp; static const char *g_bp_names[] = { "start_wqthread", "_pthread_wqthread", "_pthread_start", }; static const char *g_bp_modules[] = {"libsystem_c.dylib", "libSystem.B.dylib"}; FileSpecList bp_modules; for (size_t i = 0; i < std::size(g_bp_modules); i++) { const char *bp_module = g_bp_modules[i]; bp_modules.EmplaceBack(bp_module); } bool internal = true; bool hardware = false; LazyBool skip_prologue = eLazyBoolNo; bp_sp = target.CreateBreakpoint(&bp_modules, nullptr, g_bp_names, std::size(g_bp_names), eFunctionNameTypeFull, eLanguageTypeUnknown, 0, skip_prologue, internal, hardware); bp_sp->SetBreakpointKind("thread-creation"); return bp_sp; } uint32_t PlatformDarwin::GetResumeCountForLaunchInfo(ProcessLaunchInfo &launch_info) { const FileSpec &shell = launch_info.GetShell(); if (!shell) return 1; std::string shell_string = shell.GetPath(); const char *shell_name = strrchr(shell_string.c_str(), '/'); if (shell_name == nullptr) shell_name = shell_string.c_str(); else shell_name++; if (strcmp(shell_name, "sh") == 0) { // /bin/sh re-exec's itself as /bin/bash requiring another resume. But it // only does this if the COMMAND_MODE environment variable is set to // "legacy". if (launch_info.GetEnvironment().lookup("COMMAND_MODE") == "legacy") return 2; return 1; } else if (strcmp(shell_name, "csh") == 0 || strcmp(shell_name, "tcsh") == 0 || strcmp(shell_name, "zsh") == 0) { // csh and tcsh always seem to re-exec themselves. return 2; } else return 1; } lldb::ProcessSP PlatformDarwin::DebugProcess(ProcessLaunchInfo &launch_info, Debugger &debugger, Target &target, Status &error) { ProcessSP process_sp; if (IsHost()) { // We are going to hand this process off to debugserver which will be in // charge of setting the exit status. However, we still need to reap it // from lldb. So, make sure we use a exit callback which does not set exit // status. launch_info.SetMonitorProcessCallback( &ProcessLaunchInfo::NoOpMonitorCallback); process_sp = Platform::DebugProcess(launch_info, debugger, target, error); } else { if (m_remote_platform_sp) process_sp = m_remote_platform_sp->DebugProcess(launch_info, debugger, target, error); else error = Status::FromErrorString("the platform is not currently connected"); } return process_sp; } void PlatformDarwin::CalculateTrapHandlerSymbolNames() { m_trap_handlers.push_back(ConstString("_sigtramp")); } static FileSpec GetCommandLineToolsLibraryPath() { static FileSpec g_command_line_tools_filespec; if (!g_command_line_tools_filespec) { FileSpec command_line_tools_path(GetXcodeSelectPath()); command_line_tools_path.AppendPathComponent("Library"); if (FileSystem::Instance().Exists(command_line_tools_path)) { g_command_line_tools_filespec = command_line_tools_path; } } return g_command_line_tools_filespec; } FileSystem::EnumerateDirectoryResult PlatformDarwin::DirectoryEnumerator( void *baton, llvm::sys::fs::file_type file_type, llvm::StringRef path) { SDKEnumeratorInfo *enumerator_info = static_cast(baton); FileSpec spec(path); if (XcodeSDK::SDKSupportsModules(enumerator_info->sdk_type, spec)) { enumerator_info->found_path = spec; return FileSystem::EnumerateDirectoryResult::eEnumerateDirectoryResultNext; } return FileSystem::EnumerateDirectoryResult::eEnumerateDirectoryResultNext; } FileSpec PlatformDarwin::FindSDKInXcodeForModules(XcodeSDK::Type sdk_type, const FileSpec &sdks_spec) { // Look inside Xcode for the required installed iOS SDK version if (!FileSystem::Instance().IsDirectory(sdks_spec)) { return FileSpec(); } const bool find_directories = true; const bool find_files = false; const bool find_other = true; // include symlinks SDKEnumeratorInfo enumerator_info; enumerator_info.sdk_type = sdk_type; FileSystem::Instance().EnumerateDirectory( sdks_spec.GetPath(), find_directories, find_files, find_other, DirectoryEnumerator, &enumerator_info); if (FileSystem::Instance().IsDirectory(enumerator_info.found_path)) return enumerator_info.found_path; else return FileSpec(); } FileSpec PlatformDarwin::GetSDKDirectoryForModules(XcodeSDK::Type sdk_type) { FileSpec sdks_spec = HostInfo::GetXcodeContentsDirectory(); sdks_spec.AppendPathComponent("Developer"); sdks_spec.AppendPathComponent("Platforms"); switch (sdk_type) { case XcodeSDK::Type::MacOSX: sdks_spec.AppendPathComponent("MacOSX.platform"); break; case XcodeSDK::Type::iPhoneSimulator: sdks_spec.AppendPathComponent("iPhoneSimulator.platform"); break; case XcodeSDK::Type::iPhoneOS: sdks_spec.AppendPathComponent("iPhoneOS.platform"); break; case XcodeSDK::Type::WatchSimulator: sdks_spec.AppendPathComponent("WatchSimulator.platform"); break; case XcodeSDK::Type::AppleTVSimulator: sdks_spec.AppendPathComponent("AppleTVSimulator.platform"); break; case XcodeSDK::Type::XRSimulator: sdks_spec.AppendPathComponent("XRSimulator.platform"); break; default: llvm_unreachable("unsupported sdk"); } sdks_spec.AppendPathComponent("Developer"); sdks_spec.AppendPathComponent("SDKs"); if (sdk_type == XcodeSDK::Type::MacOSX) { llvm::VersionTuple version = HostInfo::GetOSVersion(); if (!version.empty()) { if (XcodeSDK::SDKSupportsModules(XcodeSDK::Type::MacOSX, version)) { // If the Xcode SDKs are not available then try to use the // Command Line Tools one which is only for MacOSX. if (!FileSystem::Instance().Exists(sdks_spec)) { sdks_spec = GetCommandLineToolsLibraryPath(); sdks_spec.AppendPathComponent("SDKs"); } // We slightly prefer the exact SDK for this machine. See if it is // there. FileSpec native_sdk_spec = sdks_spec; StreamString native_sdk_name; native_sdk_name.Printf("MacOSX%u.%u.sdk", version.getMajor(), version.getMinor().value_or(0)); native_sdk_spec.AppendPathComponent(native_sdk_name.GetString()); if (FileSystem::Instance().Exists(native_sdk_spec)) { return native_sdk_spec; } } } } return FindSDKInXcodeForModules(sdk_type, sdks_spec); } std::tuple PlatformDarwin::ParseVersionBuildDir(llvm::StringRef dir) { llvm::StringRef build; llvm::StringRef version_str; llvm::StringRef build_str; std::tie(version_str, build_str) = dir.split(' '); llvm::VersionTuple version; if (!version.tryParse(version_str) || build_str.empty()) { if (build_str.consume_front("(")) { size_t pos = build_str.find(')'); build = build_str.slice(0, pos); } } return std::make_tuple(version, build); } llvm::Expected PlatformDarwin::FetchExtendedCrashInformation(Process &process) { static constexpr llvm::StringLiteral crash_info_key("Crash-Info Annotations"); static constexpr llvm::StringLiteral asi_info_key( "Application Specific Information"); // We cache the information we find in the process extended info dict: StructuredData::DictionarySP process_dict_sp = process.GetExtendedCrashInfoDict(); StructuredData::Array *annotations = nullptr; StructuredData::ArraySP new_annotations_sp; if (!process_dict_sp->GetValueForKeyAsArray(crash_info_key, annotations)) { new_annotations_sp = ExtractCrashInfoAnnotations(process); if (new_annotations_sp && new_annotations_sp->GetSize()) { process_dict_sp->AddItem(crash_info_key, new_annotations_sp); annotations = new_annotations_sp.get(); } } StructuredData::Dictionary *app_specific_info; StructuredData::DictionarySP new_app_specific_info_sp; if (!process_dict_sp->GetValueForKeyAsDictionary(asi_info_key, app_specific_info)) { new_app_specific_info_sp = ExtractAppSpecificInfo(process); if (new_app_specific_info_sp && new_app_specific_info_sp->GetSize()) { process_dict_sp->AddItem(asi_info_key, new_app_specific_info_sp); app_specific_info = new_app_specific_info_sp.get(); } } // Now get anything else that was in the process info dict, and add it to the // return here: return process_dict_sp->GetSize() ? process_dict_sp : nullptr; } StructuredData::ArraySP PlatformDarwin::ExtractCrashInfoAnnotations(Process &process) { Log *log = GetLog(LLDBLog::Process); ConstString section_name("__crash_info"); Target &target = process.GetTarget(); StructuredData::ArraySP array_sp = std::make_shared(); for (ModuleSP module : target.GetImages().Modules()) { SectionList *sections = module->GetSectionList(); std::string module_name = module->GetSpecificationDescription(); // The DYDL module is skipped since it's always loaded when running the // binary. if (module_name == "/usr/lib/dyld") continue; if (!sections) { LLDB_LOG(log, "Module {0} doesn't have any section!", module_name); continue; } SectionSP crash_info = sections->FindSectionByName(section_name); if (!crash_info) { LLDB_LOG(log, "Module {0} doesn't have section {1}!", module_name, section_name); continue; } addr_t load_addr = crash_info->GetLoadBaseAddress(&target); if (load_addr == LLDB_INVALID_ADDRESS) { LLDB_LOG(log, "Module {0} has an invalid '{1}' section load address: {2}", module_name, section_name, load_addr); continue; } Status error; CrashInfoAnnotations annotations; size_t expected_size = sizeof(CrashInfoAnnotations); size_t bytes_read = process.ReadMemoryFromInferior(load_addr, &annotations, expected_size, error); if (expected_size != bytes_read || error.Fail()) { LLDB_LOG(log, "Failed to read {0} section from memory in module {1}: {2}", section_name, module_name, error); continue; } // initial support added for version 5 if (annotations.version < 5) { LLDB_LOG(log, "Annotation version lower than 5 unsupported! Module {0} has " "version {1} instead.", module_name, annotations.version); continue; } if (!annotations.message) { LLDB_LOG(log, "No message available for module {0}.", module_name); continue; } std::string message; bytes_read = process.ReadCStringFromMemory(annotations.message, message, error); if (message.empty() || bytes_read != message.size() || error.Fail()) { LLDB_LOG(log, "Failed to read the message from memory in module {0}: {1}", module_name, error); continue; } // Remove trailing newline from message if (message.back() == '\n') message.pop_back(); if (!annotations.message2) LLDB_LOG(log, "No message2 available for module {0}.", module_name); std::string message2; bytes_read = process.ReadCStringFromMemory(annotations.message2, message2, error); if (!message2.empty() && bytes_read == message2.size() && error.Success()) if (message2.back() == '\n') message2.pop_back(); StructuredData::DictionarySP entry_sp = std::make_shared(); entry_sp->AddStringItem("image", module->GetFileSpec().GetPath(false)); entry_sp->AddStringItem("uuid", module->GetUUID().GetAsString()); entry_sp->AddStringItem("message", message); entry_sp->AddStringItem("message2", message2); entry_sp->AddIntegerItem("abort-cause", annotations.abort_cause); array_sp->AddItem(entry_sp); } return array_sp; } StructuredData::DictionarySP PlatformDarwin::ExtractAppSpecificInfo(Process &process) { StructuredData::DictionarySP metadata_sp = process.GetMetadata(); if (!metadata_sp || !metadata_sp->GetSize() || !metadata_sp->HasKey("asi")) return {}; StructuredData::Dictionary *asi; if (!metadata_sp->GetValueForKeyAsDictionary("asi", asi)) return {}; StructuredData::DictionarySP dict_sp = std::make_shared(); auto flatten_asi_dict = [&dict_sp](llvm::StringRef key, StructuredData::Object *val) -> bool { if (!val) return false; StructuredData::Array *arr = val->GetAsArray(); if (!arr || !arr->GetSize()) return false; dict_sp->AddItem(key, arr->GetItemAtIndex(0)); return true; }; asi->ForEach(flatten_asi_dict); return dict_sp; } void PlatformDarwin::AddClangModuleCompilationOptionsForSDKType( Target *target, std::vector &options, XcodeSDK::Type sdk_type) { const std::vector apple_arguments = { "-x", "objective-c++", "-fobjc-arc", "-fblocks", "-D_ISO646_H", "-D__ISO646_H", "-fgnuc-version=4.2.1"}; options.insert(options.end(), apple_arguments.begin(), apple_arguments.end()); StreamString minimum_version_option; bool use_current_os_version = false; // If the SDK type is for the host OS, use its version number. auto get_host_os = []() { return HostInfo::GetTargetTriple().getOS(); }; switch (sdk_type) { case XcodeSDK::Type::MacOSX: use_current_os_version = get_host_os() == llvm::Triple::MacOSX; break; case XcodeSDK::Type::iPhoneOS: use_current_os_version = get_host_os() == llvm::Triple::IOS; break; case XcodeSDK::Type::AppleTVOS: use_current_os_version = get_host_os() == llvm::Triple::TvOS; break; case XcodeSDK::Type::watchOS: use_current_os_version = get_host_os() == llvm::Triple::WatchOS; break; case XcodeSDK::Type::XROS: use_current_os_version = get_host_os() == llvm::Triple::XROS; break; default: break; } llvm::VersionTuple version; if (use_current_os_version) version = GetOSVersion(); else if (target) { // Our OS doesn't match our executable so we need to get the min OS version // from the object file ModuleSP exe_module_sp = target->GetExecutableModule(); if (exe_module_sp) { ObjectFile *object_file = exe_module_sp->GetObjectFile(); if (object_file) version = object_file->GetMinimumOSVersion(); } } // Only add the version-min options if we got a version from somewhere. // clang has no version-min clang flag for XROS. if (!version.empty() && sdk_type != XcodeSDK::Type::Linux && sdk_type != XcodeSDK::Type::XROS) { #define OPTION(PREFIX_OFFSET, NAME_OFFSET, VAR, ...) \ llvm::StringRef opt_##VAR = OptionStrTable[NAME_OFFSET]; \ (void)opt_##VAR; #include "clang/Driver/Options.inc" #undef OPTION minimum_version_option << '-'; switch (sdk_type) { case XcodeSDK::Type::MacOSX: minimum_version_option << opt_mmacos_version_min_EQ; break; case XcodeSDK::Type::iPhoneSimulator: minimum_version_option << opt_mios_simulator_version_min_EQ; break; case XcodeSDK::Type::iPhoneOS: minimum_version_option << opt_mios_version_min_EQ; break; case XcodeSDK::Type::AppleTVSimulator: minimum_version_option << opt_mtvos_simulator_version_min_EQ; break; case XcodeSDK::Type::AppleTVOS: minimum_version_option << opt_mtvos_version_min_EQ; break; case XcodeSDK::Type::WatchSimulator: minimum_version_option << opt_mwatchos_simulator_version_min_EQ; break; case XcodeSDK::Type::watchOS: minimum_version_option << opt_mwatchos_version_min_EQ; break; case XcodeSDK::Type::XRSimulator: case XcodeSDK::Type::XROS: // FIXME: Pass the right argument once it exists. case XcodeSDK::Type::bridgeOS: case XcodeSDK::Type::Linux: case XcodeSDK::Type::unknown: if (Log *log = GetLog(LLDBLog::Host)) { XcodeSDK::Info info; info.type = sdk_type; LLDB_LOGF(log, "Clang modules on %s are not supported", XcodeSDK::GetCanonicalName(info).c_str()); } return; } minimum_version_option << version.getAsString(); options.emplace_back(std::string(minimum_version_option.GetString())); } FileSpec sysroot_spec; if (target) { if (ModuleSP exe_module_sp = target->GetExecutableModule()) { auto path_or_err = ResolveSDKPathFromDebugInfo(*exe_module_sp); if (path_or_err) { sysroot_spec = FileSpec(*path_or_err); } else { LLDB_LOG_ERROR(GetLog(LLDBLog::Types | LLDBLog::Host), path_or_err.takeError(), "Failed to resolve SDK path: {0}"); } } } if (!FileSystem::Instance().IsDirectory(sysroot_spec.GetPath())) { std::lock_guard guard(m_mutex); sysroot_spec = GetSDKDirectoryForModules(sdk_type); } if (FileSystem::Instance().IsDirectory(sysroot_spec.GetPath())) { options.push_back("-isysroot"); options.push_back(sysroot_spec.GetPath()); } } ConstString PlatformDarwin::GetFullNameForDylib(ConstString basename) { if (basename.IsEmpty()) return basename; StreamString stream; stream.Printf("lib%s.dylib", basename.GetCString()); return ConstString(stream.GetString()); } llvm::VersionTuple PlatformDarwin::GetOSVersion(Process *process) { if (process && GetPluginName().contains("-simulator")) { lldb_private::ProcessInstanceInfo proc_info; if (Host::GetProcessInfo(process->GetID(), proc_info)) { const Environment &env = proc_info.GetEnvironment(); llvm::VersionTuple result; if (!result.tryParse(env.lookup("SIMULATOR_RUNTIME_VERSION"))) return result; std::string dyld_root_path = env.lookup("DYLD_ROOT_PATH"); if (!dyld_root_path.empty()) { dyld_root_path += "/System/Library/CoreServices/SystemVersion.plist"; ApplePropertyList system_version_plist(dyld_root_path.c_str()); std::string product_version; if (system_version_plist.GetValueAsString("ProductVersion", product_version)) { if (!result.tryParse(product_version)) return result; } } } // For simulator platforms, do NOT call back through // Platform::GetOSVersion() as it might call Process::GetHostOSVersion() // which we don't want as it will be incorrect return llvm::VersionTuple(); } return Platform::GetOSVersion(process); } lldb_private::FileSpec PlatformDarwin::LocateExecutable(const char *basename) { // A collection of SBFileSpec whose SBFileSpec.m_directory members are filled // in with any executable directories that should be searched. static std::vector g_executable_dirs; // Find the global list of directories that we will search for executables // once so we don't keep doing the work over and over. static llvm::once_flag g_once_flag; llvm::call_once(g_once_flag, []() { // When locating executables, trust the DEVELOPER_DIR first if it is set FileSpec xcode_contents_dir = HostInfo::GetXcodeContentsDirectory(); if (xcode_contents_dir) { FileSpec xcode_lldb_resources = xcode_contents_dir; xcode_lldb_resources.AppendPathComponent("SharedFrameworks"); xcode_lldb_resources.AppendPathComponent("LLDB.framework"); xcode_lldb_resources.AppendPathComponent("Resources"); if (FileSystem::Instance().Exists(xcode_lldb_resources)) { FileSpec dir; dir.SetDirectory(xcode_lldb_resources.GetPathAsConstString()); g_executable_dirs.push_back(dir); } } // Xcode might not be installed so we also check for the Command Line Tools. FileSpec command_line_tools_dir = GetCommandLineToolsLibraryPath(); if (command_line_tools_dir) { FileSpec cmd_line_lldb_resources = command_line_tools_dir; cmd_line_lldb_resources.AppendPathComponent("PrivateFrameworks"); cmd_line_lldb_resources.AppendPathComponent("LLDB.framework"); cmd_line_lldb_resources.AppendPathComponent("Resources"); if (FileSystem::Instance().Exists(cmd_line_lldb_resources)) { FileSpec dir; dir.SetDirectory(cmd_line_lldb_resources.GetPathAsConstString()); g_executable_dirs.push_back(dir); } } }); // Now search the global list of executable directories for the executable we // are looking for for (const auto &executable_dir : g_executable_dirs) { FileSpec executable_file; executable_file.SetDirectory(executable_dir.GetDirectory()); executable_file.SetFilename(basename); if (FileSystem::Instance().Exists(executable_file)) return executable_file; } return FileSpec(); } lldb_private::Status PlatformDarwin::LaunchProcess(lldb_private::ProcessLaunchInfo &launch_info) { // Starting in Fall 2016 OSes, NSLog messages only get mirrored to stderr if // the OS_ACTIVITY_DT_MODE environment variable is set. (It doesn't require // any specific value; rather, it just needs to exist). We will set it here // as long as the IDE_DISABLED_OS_ACTIVITY_DT_MODE flag is not set. Xcode // makes use of IDE_DISABLED_OS_ACTIVITY_DT_MODE to tell // LLDB *not* to muck with the OS_ACTIVITY_DT_MODE flag when they // specifically want it unset. const char *disable_env_var = "IDE_DISABLED_OS_ACTIVITY_DT_MODE"; auto &env_vars = launch_info.GetEnvironment(); if (!env_vars.count(disable_env_var)) { // We want to make sure that OS_ACTIVITY_DT_MODE is set so that we get // os_log and NSLog messages mirrored to the target process stderr. env_vars.try_emplace("OS_ACTIVITY_DT_MODE", "enable"); } // Let our parent class do the real launching. return PlatformPOSIX::LaunchProcess(launch_info); } lldb_private::Status PlatformDarwin::FindBundleBinaryInExecSearchPaths( const ModuleSpec &module_spec, Process *process, ModuleSP &module_sp, const FileSpecList *module_search_paths_ptr, llvm::SmallVectorImpl *old_modules, bool *did_create_ptr) { const FileSpec &platform_file = module_spec.GetFileSpec(); // See if the file is present in any of the module_search_paths_ptr // directories. if (!module_sp && module_search_paths_ptr && platform_file) { // create a vector of all the file / directory names in platform_file e.g. // this might be // /System/Library/PrivateFrameworks/UIFoundation.framework/UIFoundation // // We'll need to look in the module_search_paths_ptr directories for both // "UIFoundation" and "UIFoundation.framework" -- most likely the latter // will be the one we find there. std::vector path_parts = platform_file.GetComponents(); // We want the components in reverse order. std::reverse(path_parts.begin(), path_parts.end()); const size_t path_parts_size = path_parts.size(); size_t num_module_search_paths = module_search_paths_ptr->GetSize(); for (size_t i = 0; i < num_module_search_paths; ++i) { Log *log_verbose = GetLog(LLDBLog::Host); LLDB_LOGF( log_verbose, "PlatformRemoteDarwinDevice::GetSharedModule searching for binary in " "search-path %s", module_search_paths_ptr->GetFileSpecAtIndex(i).GetPath().c_str()); // Create a new FileSpec with this module_search_paths_ptr plus just the // filename ("UIFoundation"), then the parent dir plus filename // ("UIFoundation.framework/UIFoundation") etc - up to four names (to // handle "Foo.framework/Contents/MacOS/Foo") for (size_t j = 0; j < 4 && j < path_parts_size - 1; ++j) { FileSpec path_to_try(module_search_paths_ptr->GetFileSpecAtIndex(i)); // Add the components backwards. For // .../PrivateFrameworks/UIFoundation.framework/UIFoundation path_parts // is // [0] UIFoundation // [1] UIFoundation.framework // [2] PrivateFrameworks // // and if 'j' is 2, we want to append path_parts[1] and then // path_parts[0], aka 'UIFoundation.framework/UIFoundation', to the // module_search_paths_ptr path. for (int k = j; k >= 0; --k) { path_to_try.AppendPathComponent(path_parts[k]); } if (FileSystem::Instance().Exists(path_to_try)) { ModuleSpec new_module_spec(module_spec); new_module_spec.GetFileSpec() = path_to_try; Status new_error( Platform::GetSharedModule(new_module_spec, process, module_sp, nullptr, old_modules, did_create_ptr)); if (module_sp) { module_sp->SetPlatformFileSpec(path_to_try); return new_error; } } } } } return Status(); } std::string PlatformDarwin::FindComponentInPath(llvm::StringRef path, llvm::StringRef component) { auto begin = llvm::sys::path::begin(path); auto end = llvm::sys::path::end(path); for (auto it = begin; it != end; ++it) { if (it->contains(component)) { llvm::SmallString<128> buffer; llvm::sys::path::append(buffer, begin, ++it, llvm::sys::path::Style::posix); return buffer.str().str(); } } return {}; } FileSpec PlatformDarwin::GetCurrentToolchainDirectory() { if (FileSpec fspec = HostInfo::GetShlibDir()) return FileSpec(FindComponentInPath(fspec.GetPath(), ".xctoolchain")); return {}; } FileSpec PlatformDarwin::GetCurrentCommandLineToolsDirectory() { if (FileSpec fspec = HostInfo::GetShlibDir()) return FileSpec(FindComponentInPath(fspec.GetPath(), "CommandLineTools")); return {}; } llvm::Triple::OSType PlatformDarwin::GetHostOSType() { #if !defined(__APPLE__) return llvm::Triple::MacOSX; #else #if TARGET_OS_OSX return llvm::Triple::MacOSX; #elif TARGET_OS_IOS return llvm::Triple::IOS; #elif TARGET_OS_WATCH return llvm::Triple::WatchOS; #elif TARGET_OS_TV return llvm::Triple::TvOS; #elif TARGET_OS_BRIDGE return llvm::Triple::BridgeOS; #elif TARGET_OS_XR return llvm::Triple::XROS; #else #error "LLDB being compiled for an unrecognized Darwin OS" #endif #endif // __APPLE__ } llvm::Expected> PlatformDarwin::GetSDKPathFromDebugInfo(Module &module) { SymbolFile *sym_file = module.GetSymbolFile(); if (!sym_file) return llvm::createStringError( llvm::inconvertibleErrorCode(), llvm::formatv("No symbol file available for module '{0}'", module.GetFileSpec().GetFilename().AsCString(""))); bool found_public_sdk = false; bool found_internal_sdk = false; XcodeSDK merged_sdk; for (unsigned i = 0; i < sym_file->GetNumCompileUnits(); ++i) { if (auto cu_sp = sym_file->GetCompileUnitAtIndex(i)) { auto cu_sdk = sym_file->ParseXcodeSDK(*cu_sp); bool is_internal_sdk = cu_sdk.IsAppleInternalSDK(); found_public_sdk |= !is_internal_sdk; found_internal_sdk |= is_internal_sdk; merged_sdk.Merge(cu_sdk); } } const bool found_mismatch = found_internal_sdk && found_public_sdk; return std::pair{std::move(merged_sdk), found_mismatch}; } llvm::Expected PlatformDarwin::ResolveSDKPathFromDebugInfo(Module &module) { auto sdk_or_err = GetSDKPathFromDebugInfo(module); if (!sdk_or_err) return llvm::createStringError( llvm::inconvertibleErrorCode(), llvm::formatv("Failed to parse SDK path from debug-info: {0}", llvm::toString(sdk_or_err.takeError()))); auto [sdk, _] = std::move(*sdk_or_err); auto path_or_err = HostInfo::GetSDKRoot(HostInfo::SDKOptions{sdk}); if (!path_or_err) return llvm::createStringError( llvm::inconvertibleErrorCode(), llvm::formatv("Error while searching for SDK (XcodeSDK '{0}'): {1}", sdk.GetString(), llvm::toString(path_or_err.takeError()))); return path_or_err->str(); } llvm::Expected PlatformDarwin::GetSDKPathFromDebugInfo(CompileUnit &unit) { ModuleSP module_sp = unit.CalculateSymbolContextModule(); if (!module_sp) return llvm::createStringError("compile unit has no module"); SymbolFile *sym_file = module_sp->GetSymbolFile(); if (!sym_file) return llvm::createStringError( llvm::formatv("No symbol file available for module '{0}'", module_sp->GetFileSpec().GetFilename())); return sym_file->ParseXcodeSDK(unit); } llvm::Expected PlatformDarwin::ResolveSDKPathFromDebugInfo(CompileUnit &unit) { auto sdk_or_err = GetSDKPathFromDebugInfo(unit); if (!sdk_or_err) return llvm::createStringError( llvm::inconvertibleErrorCode(), llvm::formatv("Failed to parse SDK path from debug-info: {0}", llvm::toString(sdk_or_err.takeError()))); auto sdk = std::move(*sdk_or_err); auto path_or_err = HostInfo::GetSDKRoot(HostInfo::SDKOptions{sdk}); if (!path_or_err) return llvm::createStringError( llvm::inconvertibleErrorCode(), llvm::formatv("Error while searching for SDK (XcodeSDK '{0}'): {1}", sdk.GetString(), llvm::toString(path_or_err.takeError()))); return path_or_err->str(); }