//===-- PlatformRemoteDarwinDevice.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 "PlatformRemoteDarwinDevice.h" #include "lldb/Breakpoint/BreakpointLocation.h" #include "lldb/Core/Module.h" #include "lldb/Core/ModuleList.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Core/PluginManager.h" #include "lldb/Host/FileSystem.h" #include "lldb/Host/Host.h" #include "lldb/Host/HostInfo.h" #include "lldb/Target/Process.h" #include "lldb/Target/Target.h" #include "lldb/Utility/FileSpec.h" #include "lldb/Utility/LLDBLog.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/Status.h" #include "lldb/Utility/StreamString.h" using namespace lldb; using namespace lldb_private; PlatformRemoteDarwinDevice::SDKDirectoryInfo::SDKDirectoryInfo( const lldb_private::FileSpec &sdk_dir) : directory(sdk_dir), build(), user_cached(false) { llvm::StringRef dirname_str = sdk_dir.GetFilename().GetStringRef(); llvm::StringRef build_str; std::tie(version, build_str) = ParseVersionBuildDir(dirname_str); build.SetString(build_str); } /// Default Constructor PlatformRemoteDarwinDevice::PlatformRemoteDarwinDevice() : PlatformDarwin(false), // This is a remote platform m_sdk_directory_infos(), m_device_support_directory(), m_device_support_directory_for_os_version(), m_build_update() {} /// Destructor. /// /// The destructor is virtual since this class is designed to be /// inherited from by the plug-in instance. PlatformRemoteDarwinDevice::~PlatformRemoteDarwinDevice() = default; void PlatformRemoteDarwinDevice::GetStatus(Stream &strm) { Platform::GetStatus(strm); const char *sdk_directory = GetDeviceSupportDirectoryForOSVersion(); if (sdk_directory) strm.Printf(" SDK Path: \"%s\"\n", sdk_directory); else strm.PutCString(" SDK Path: error: unable to locate SDK\n"); const uint32_t num_sdk_infos = m_sdk_directory_infos.size(); for (uint32_t i = 0; i < num_sdk_infos; ++i) { const SDKDirectoryInfo &sdk_dir_info = m_sdk_directory_infos[i]; strm.Printf(" SDK Roots: [%2u] \"%s\"\n", i, sdk_dir_info.directory.GetPath().c_str()); } } Status PlatformRemoteDarwinDevice::ResolveExecutable( const ModuleSpec &ms, lldb::ModuleSP &exe_module_sp, const FileSpecList *module_search_paths_ptr) { Status error; // Nothing special to do here, just use the actual file and architecture ModuleSpec resolved_module_spec(ms); // Resolve any executable within a bundle on MacOSX // TODO: verify that this handles shallow bundles, if not then implement one // ourselves Host::ResolveExecutableInBundle(resolved_module_spec.GetFileSpec()); if (FileSystem::Instance().Exists(resolved_module_spec.GetFileSpec())) { if (resolved_module_spec.GetArchitecture().IsValid() || resolved_module_spec.GetUUID().IsValid()) { error = ModuleList::GetSharedModule(resolved_module_spec, exe_module_sp, nullptr, nullptr, nullptr); if (exe_module_sp && exe_module_sp->GetObjectFile()) return error; exe_module_sp.reset(); } // No valid architecture was specified or the exact ARM slice wasn't found // so ask the platform for the architectures that we should be using (in // the correct order) and see if we can find a match that way StreamString arch_names; llvm::ListSeparator LS; ArchSpec process_host_arch; for (const ArchSpec &arch : GetSupportedArchitectures(process_host_arch)) { resolved_module_spec.GetArchitecture() = arch; error = ModuleList::GetSharedModule(resolved_module_spec, exe_module_sp, nullptr, nullptr, nullptr); // Did we find an executable using one of the if (error.Success()) { if (exe_module_sp && exe_module_sp->GetObjectFile()) break; else error.SetErrorToGenericError(); } arch_names << LS << arch.GetArchitectureName(); } if (error.Fail() || !exe_module_sp) { if (FileSystem::Instance().Readable(resolved_module_spec.GetFileSpec())) { error.SetErrorStringWithFormatv( "'{0}' doesn't contain any '{1}' platform architectures: {2}", resolved_module_spec.GetFileSpec(), GetPluginName(), arch_names.GetData()); } else { error.SetErrorStringWithFormat( "'%s' is not readable", resolved_module_spec.GetFileSpec().GetPath().c_str()); } } } else { error.SetErrorStringWithFormat( "'%s' does not exist", resolved_module_spec.GetFileSpec().GetPath().c_str()); } return error; } FileSystem::EnumerateDirectoryResult PlatformRemoteDarwinDevice::GetContainedFilesIntoVectorOfStringsCallback( void *baton, llvm::sys::fs::file_type ft, llvm::StringRef path) { ((PlatformRemoteDarwinDevice::SDKDirectoryInfoCollection *)baton) ->push_back(PlatformRemoteDarwinDevice::SDKDirectoryInfo(FileSpec(path))); return FileSystem::eEnumerateDirectoryResultNext; } bool PlatformRemoteDarwinDevice::UpdateSDKDirectoryInfosIfNeeded() { Log *log = GetLog(LLDBLog::Host); std::lock_guard guard(m_sdk_dir_mutex); if (m_sdk_directory_infos.empty()) { // A --sysroot option was supplied - add it to our list of SDKs to check if (m_sdk_sysroot) { FileSpec sdk_sysroot_fspec(m_sdk_sysroot.GetCString()); FileSystem::Instance().Resolve(sdk_sysroot_fspec); const SDKDirectoryInfo sdk_sysroot_directory_info(sdk_sysroot_fspec); m_sdk_directory_infos.push_back(sdk_sysroot_directory_info); if (log) { LLDB_LOGF( log, "PlatformRemoteDarwinDevice::UpdateSDKDirectoryInfosIfNeeded added " "--sysroot SDK directory %s", m_sdk_sysroot.GetCString()); } return true; } const char *device_support_dir = GetDeviceSupportDirectory(); if (log) { LLDB_LOGF( log, "PlatformRemoteDarwinDevice::UpdateSDKDirectoryInfosIfNeeded Got " "DeviceSupport directory %s", device_support_dir); } if (device_support_dir) { const bool find_directories = true; const bool find_files = false; const bool find_other = false; SDKDirectoryInfoCollection builtin_sdk_directory_infos; FileSystem::Instance().EnumerateDirectory( m_device_support_directory, find_directories, find_files, find_other, GetContainedFilesIntoVectorOfStringsCallback, &builtin_sdk_directory_infos); // Only add SDK directories that have symbols in them, some SDKs only // contain developer disk images and no symbols, so they aren't useful to // us. FileSpec sdk_symbols_symlink_fspec; for (const auto &sdk_directory_info : builtin_sdk_directory_infos) { sdk_symbols_symlink_fspec = sdk_directory_info.directory; sdk_symbols_symlink_fspec.AppendPathComponent("Symbols"); if (FileSystem::Instance().Exists(sdk_symbols_symlink_fspec)) { m_sdk_directory_infos.push_back(sdk_directory_info); if (log) { LLDB_LOGF( log, "PlatformRemoteDarwinDevice::UpdateSDKDirectoryInfosIfNeeded " "added builtin SDK directory %s", sdk_symbols_symlink_fspec.GetPath().c_str()); } } } const uint32_t num_installed = m_sdk_directory_infos.size(); llvm::StringRef dirname = GetDeviceSupportDirectoryName(); std::string local_sdk_cache_str = "~/Library/Developer/Xcode/"; local_sdk_cache_str += std::string(dirname); FileSpec local_sdk_cache(local_sdk_cache_str.c_str()); FileSystem::Instance().Resolve(local_sdk_cache); if (FileSystem::Instance().Exists(local_sdk_cache)) { if (log) { LLDB_LOGF( log, "PlatformRemoteDarwinDevice::UpdateSDKDirectoryInfosIfNeeded " "searching %s for additional SDKs", local_sdk_cache.GetPath().c_str()); } char path[PATH_MAX]; if (local_sdk_cache.GetPath(path, sizeof(path))) { FileSystem::Instance().EnumerateDirectory( path, find_directories, find_files, find_other, GetContainedFilesIntoVectorOfStringsCallback, &m_sdk_directory_infos); const uint32_t num_sdk_infos = m_sdk_directory_infos.size(); // First try for an exact match of major, minor and update for (uint32_t i = num_installed; i < num_sdk_infos; ++i) { m_sdk_directory_infos[i].user_cached = true; if (log) { LLDB_LOGF(log, "PlatformRemoteDarwinDevice::" "UpdateSDKDirectoryInfosIfNeeded " "user SDK directory %s", m_sdk_directory_infos[i].directory.GetPath().c_str()); } } } } const char *addtional_platform_dirs = getenv("PLATFORM_SDK_DIRECTORY"); if (addtional_platform_dirs) { SDKDirectoryInfoCollection env_var_sdk_directory_infos; FileSystem::Instance().EnumerateDirectory( addtional_platform_dirs, find_directories, find_files, find_other, GetContainedFilesIntoVectorOfStringsCallback, &env_var_sdk_directory_infos); FileSpec sdk_symbols_symlink_fspec; for (const auto &sdk_directory_info : env_var_sdk_directory_infos) { sdk_symbols_symlink_fspec = sdk_directory_info.directory; sdk_symbols_symlink_fspec.AppendPathComponent("Symbols"); if (FileSystem::Instance().Exists(sdk_symbols_symlink_fspec)) { m_sdk_directory_infos.push_back(sdk_directory_info); if (log) { LLDB_LOGF( log, "PlatformRemoteDarwinDevice::UpdateSDKDirectoryInfosIfNeeded " "added env var SDK directory %s", sdk_symbols_symlink_fspec.GetPath().c_str()); } } } } } } return !m_sdk_directory_infos.empty(); } const PlatformRemoteDarwinDevice::SDKDirectoryInfo * PlatformRemoteDarwinDevice::GetSDKDirectoryForCurrentOSVersion() { uint32_t i; if (UpdateSDKDirectoryInfosIfNeeded()) { const uint32_t num_sdk_infos = m_sdk_directory_infos.size(); // Check to see if the user specified a build string. If they did, then be // sure to match it. std::vector check_sdk_info(num_sdk_infos, true); ConstString build(m_sdk_build); if (build) { for (i = 0; i < num_sdk_infos; ++i) check_sdk_info[i] = m_sdk_directory_infos[i].build == build; } // If we are connected we can find the version of the OS the platform us // running on and select the right SDK llvm::VersionTuple version = GetOSVersion(); if (!version.empty()) { if (UpdateSDKDirectoryInfosIfNeeded()) { // First try for an exact match of major, minor and update for (i = 0; i < num_sdk_infos; ++i) { if (check_sdk_info[i]) { if (m_sdk_directory_infos[i].version == version) return &m_sdk_directory_infos[i]; } } // First try for an exact match of major and minor for (i = 0; i < num_sdk_infos; ++i) { if (check_sdk_info[i]) { if (m_sdk_directory_infos[i].version.getMajor() == version.getMajor() && m_sdk_directory_infos[i].version.getMinor() == version.getMinor()) { return &m_sdk_directory_infos[i]; } } } // Lastly try to match of major version only.. for (i = 0; i < num_sdk_infos; ++i) { if (check_sdk_info[i]) { if (m_sdk_directory_infos[i].version.getMajor() == version.getMajor()) { return &m_sdk_directory_infos[i]; } } } } } else if (build) { // No version, just a build number, search for the first one that matches for (i = 0; i < num_sdk_infos; ++i) if (check_sdk_info[i]) return &m_sdk_directory_infos[i]; } } return nullptr; } const PlatformRemoteDarwinDevice::SDKDirectoryInfo * PlatformRemoteDarwinDevice::GetSDKDirectoryForLatestOSVersion() { const PlatformRemoteDarwinDevice::SDKDirectoryInfo *result = nullptr; if (UpdateSDKDirectoryInfosIfNeeded()) { auto max = std::max_element( m_sdk_directory_infos.begin(), m_sdk_directory_infos.end(), [](const SDKDirectoryInfo &a, const SDKDirectoryInfo &b) { return a.version < b.version; }); if (max != m_sdk_directory_infos.end()) result = &*max; } return result; } const char *PlatformRemoteDarwinDevice::GetDeviceSupportDirectory() { std::string platform_dir = ("/Platforms/" + GetPlatformName() + "/DeviceSupport").str(); if (m_device_support_directory.empty()) { if (FileSpec fspec = HostInfo::GetXcodeDeveloperDirectory()) { m_device_support_directory = fspec.GetPath(); m_device_support_directory.append(platform_dir.c_str()); } else { // Assign a single NULL character so we know we tried to find the device // support directory and we don't keep trying to find it over and over. m_device_support_directory.assign(1, '\0'); } } // We should have put a single NULL character into m_device_support_directory // or it should have a valid path if the code gets here assert(m_device_support_directory.empty() == false); if (m_device_support_directory[0]) return m_device_support_directory.c_str(); return nullptr; } const char *PlatformRemoteDarwinDevice::GetDeviceSupportDirectoryForOSVersion() { if (m_sdk_sysroot) return m_sdk_sysroot.GetCString(); if (m_device_support_directory_for_os_version.empty()) { const PlatformRemoteDarwinDevice::SDKDirectoryInfo *sdk_dir_info = GetSDKDirectoryForCurrentOSVersion(); if (sdk_dir_info == nullptr) sdk_dir_info = GetSDKDirectoryForLatestOSVersion(); if (sdk_dir_info) { char path[PATH_MAX]; if (sdk_dir_info->directory.GetPath(path, sizeof(path))) { m_device_support_directory_for_os_version = path; return m_device_support_directory_for_os_version.c_str(); } } else { // Assign a single NULL character so we know we tried to find the device // support directory and we don't keep trying to find it over and over. m_device_support_directory_for_os_version.assign(1, '\0'); } } // We should have put a single NULL character into // m_device_support_directory_for_os_version or it should have a valid path // if the code gets here assert(m_device_support_directory_for_os_version.empty() == false); if (m_device_support_directory_for_os_version[0]) return m_device_support_directory_for_os_version.c_str(); return nullptr; } uint32_t PlatformRemoteDarwinDevice::FindFileInAllSDKs(const char *platform_file_path, FileSpecList &file_list) { Log *log = GetLog(LLDBLog::Host); if (platform_file_path && platform_file_path[0] && UpdateSDKDirectoryInfosIfNeeded()) { const uint32_t num_sdk_infos = m_sdk_directory_infos.size(); lldb_private::FileSpec local_file; // First try for an exact match of major, minor and update for (uint32_t sdk_idx = 0; sdk_idx < num_sdk_infos; ++sdk_idx) { LLDB_LOGV(log, "Searching for {0} in sdk path {1}", platform_file_path, m_sdk_directory_infos[sdk_idx].directory); if (GetFileInSDK(platform_file_path, sdk_idx, local_file)) { file_list.Append(local_file); } } } return file_list.GetSize(); } bool PlatformRemoteDarwinDevice::GetFileInSDK(const char *platform_file_path, uint32_t sdk_idx, lldb_private::FileSpec &local_file) { Log *log = GetLog(LLDBLog::Host); if (sdk_idx < m_sdk_directory_infos.size()) { std::string sdkroot_path = m_sdk_directory_infos[sdk_idx].directory.GetPath(); local_file.Clear(); if (!sdkroot_path.empty() && platform_file_path && platform_file_path[0]) { // We may need to interpose "/Symbols/" or "/Symbols.Internal/" between // the // SDK root directory and the file path. const char *paths_to_try[] = {"Symbols", "", "Symbols.Internal", nullptr}; for (size_t i = 0; paths_to_try[i] != nullptr; i++) { local_file.SetFile(sdkroot_path, FileSpec::Style::native); if (paths_to_try[i][0] != '\0') local_file.AppendPathComponent(paths_to_try[i]); local_file.AppendPathComponent(platform_file_path); FileSystem::Instance().Resolve(local_file); if (FileSystem::Instance().Exists(local_file)) { LLDB_LOGF(log, "Found a copy of %s in the SDK dir %s/%s", platform_file_path, sdkroot_path.c_str(), paths_to_try[i]); return true; } local_file.Clear(); } } } return false; } Status PlatformRemoteDarwinDevice::GetSymbolFile(const FileSpec &platform_file, const UUID *uuid_ptr, FileSpec &local_file) { Log *log = GetLog(LLDBLog::Host); Status error; char platform_file_path[PATH_MAX]; if (platform_file.GetPath(platform_file_path, sizeof(platform_file_path))) { const char *os_version_dir = GetDeviceSupportDirectoryForOSVersion(); if (os_version_dir) { std::string resolved_path = (llvm::Twine(os_version_dir) + "/" + platform_file_path).str(); local_file.SetFile(resolved_path, FileSpec::Style::native); FileSystem::Instance().Resolve(local_file); if (FileSystem::Instance().Exists(local_file)) { if (log) { LLDB_LOGF(log, "Found a copy of %s in the DeviceSupport dir %s", platform_file_path, os_version_dir); } return error; } resolved_path = (llvm::Twine(os_version_dir) + "/Symbols.Internal/" + platform_file_path) .str(); local_file.SetFile(resolved_path, FileSpec::Style::native); FileSystem::Instance().Resolve(local_file); if (FileSystem::Instance().Exists(local_file)) { LLDB_LOGF( log, "Found a copy of %s in the DeviceSupport dir %s/Symbols.Internal", platform_file_path, os_version_dir); return error; } resolved_path = (llvm::Twine(os_version_dir) + "/Symbols/" + platform_file_path) .str(); local_file.SetFile(resolved_path, FileSpec::Style::native); FileSystem::Instance().Resolve(local_file); if (FileSystem::Instance().Exists(local_file)) { LLDB_LOGF(log, "Found a copy of %s in the DeviceSupport dir %s/Symbols", platform_file_path, os_version_dir); return error; } } local_file = platform_file; if (FileSystem::Instance().Exists(local_file)) return error; error.SetErrorStringWithFormatv( "unable to locate a platform file for '{0}' in platform '{1}'", platform_file_path, GetPluginName()); } else { error.SetErrorString("invalid platform file argument"); } return error; } Status PlatformRemoteDarwinDevice::GetSharedModule( const ModuleSpec &module_spec, Process *process, ModuleSP &module_sp, const FileSpecList *module_search_paths_ptr, llvm::SmallVectorImpl *old_modules, bool *did_create_ptr) { // For iOS, the SDK files are all cached locally on the host system. So first // we ask for the file in the cached SDK, then we attempt to get a shared // module for the right architecture with the right UUID. const FileSpec &platform_file = module_spec.GetFileSpec(); Log *log = GetLog(LLDBLog::Host); Status error; char platform_file_path[PATH_MAX]; if (platform_file.GetPath(platform_file_path, sizeof(platform_file_path))) { ModuleSpec platform_module_spec(module_spec); UpdateSDKDirectoryInfosIfNeeded(); const uint32_t num_sdk_infos = m_sdk_directory_infos.size(); // If we are connected we migth be able to correctly deduce the SDK // directory using the OS build. const uint32_t connected_sdk_idx = GetConnectedSDKIndex(); if (connected_sdk_idx < num_sdk_infos) { LLDB_LOGV(log, "Searching for {0} in sdk path {1}", platform_file, m_sdk_directory_infos[connected_sdk_idx].directory); if (GetFileInSDK(platform_file_path, connected_sdk_idx, platform_module_spec.GetFileSpec())) { module_sp.reset(); error = ResolveExecutable(platform_module_spec, module_sp, nullptr); if (module_sp) { m_last_module_sdk_idx = connected_sdk_idx; error.Clear(); return error; } } } // Try the last SDK index if it is set as most files from an SDK will tend // to be valid in that same SDK. if (m_last_module_sdk_idx < num_sdk_infos) { LLDB_LOGV(log, "Searching for {0} in sdk path {1}", platform_file, m_sdk_directory_infos[m_last_module_sdk_idx].directory); if (GetFileInSDK(platform_file_path, m_last_module_sdk_idx, platform_module_spec.GetFileSpec())) { module_sp.reset(); error = ResolveExecutable(platform_module_spec, module_sp, nullptr); if (module_sp) { error.Clear(); return error; } } } // First try for an exact match of major, minor and update: If a particalar // SDK version was specified via --version or --build, look for a match on // disk. const SDKDirectoryInfo *current_sdk_info = GetSDKDirectoryForCurrentOSVersion(); const uint32_t current_sdk_idx = GetSDKIndexBySDKDirectoryInfo(current_sdk_info); if (current_sdk_idx < num_sdk_infos && current_sdk_idx != m_last_module_sdk_idx) { LLDB_LOGV(log, "Searching for {0} in sdk path {1}", platform_file, m_sdk_directory_infos[current_sdk_idx].directory); if (GetFileInSDK(platform_file_path, current_sdk_idx, platform_module_spec.GetFileSpec())) { module_sp.reset(); error = ResolveExecutable(platform_module_spec, module_sp, nullptr); if (module_sp) { m_last_module_sdk_idx = current_sdk_idx; error.Clear(); return error; } } } // Second try all SDKs that were found. for (uint32_t sdk_idx = 0; sdk_idx < num_sdk_infos; ++sdk_idx) { if (m_last_module_sdk_idx == sdk_idx) { // Skip the last module SDK index if we already searched it above continue; } LLDB_LOGV(log, "Searching for {0} in sdk path {1}", platform_file, m_sdk_directory_infos[sdk_idx].directory); if (GetFileInSDK(platform_file_path, sdk_idx, platform_module_spec.GetFileSpec())) { // printf ("sdk[%u]: '%s'\n", sdk_idx, local_file.GetPath().c_str()); error = ResolveExecutable(platform_module_spec, module_sp, nullptr); if (module_sp) { // Remember the index of the last SDK that we found a file in in case // the wrong SDK was selected. m_last_module_sdk_idx = sdk_idx; error.Clear(); return error; } } } } // Not the module we are looking for... Nothing to see here... module_sp.reset(); // This may not be an SDK-related module. Try whether we can bring in the // thing to our local cache. error = GetSharedModuleWithLocalCache(module_spec, module_sp, module_search_paths_ptr, old_modules, did_create_ptr); if (error.Success()) return error; // See if the file is present in any of the module_search_paths_ptr // directories. if (!module_sp) error = PlatformDarwin::FindBundleBinaryInExecSearchPaths( module_spec, process, module_sp, module_search_paths_ptr, old_modules, did_create_ptr); if (error.Success()) return error; const bool always_create = false; error = ModuleList::GetSharedModule(module_spec, module_sp, module_search_paths_ptr, old_modules, did_create_ptr, always_create); if (module_sp) module_sp->SetPlatformFileSpec(platform_file); return error; } uint32_t PlatformRemoteDarwinDevice::GetConnectedSDKIndex() { if (IsConnected()) { if (m_connected_module_sdk_idx == UINT32_MAX) { if (llvm::Optional build = GetRemoteOSBuildString()) { const uint32_t num_sdk_infos = m_sdk_directory_infos.size(); for (uint32_t i = 0; i < num_sdk_infos; ++i) { const SDKDirectoryInfo &sdk_dir_info = m_sdk_directory_infos[i]; if (strstr(sdk_dir_info.directory.GetFilename().AsCString(""), build->c_str())) { m_connected_module_sdk_idx = i; } } } } } else { m_connected_module_sdk_idx = UINT32_MAX; } return m_connected_module_sdk_idx; } uint32_t PlatformRemoteDarwinDevice::GetSDKIndexBySDKDirectoryInfo( const SDKDirectoryInfo *sdk_info) { if (sdk_info == nullptr) { return UINT32_MAX; } return sdk_info - &m_sdk_directory_infos[0]; }