//===-- TargetList.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/Target/TargetList.h" #include "lldb/Core/Debugger.h" #include "lldb/Core/Module.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Host/Host.h" #include "lldb/Host/HostInfo.h" #include "lldb/Interpreter/CommandInterpreter.h" #include "lldb/Interpreter/OptionGroupPlatform.h" #include "lldb/Symbol/ObjectFile.h" #include "lldb/Target/Platform.h" #include "lldb/Target/Process.h" #include "lldb/Utility/Broadcaster.h" #include "lldb/Utility/Event.h" #include "lldb/Utility/State.h" #include "lldb/Utility/TildeExpressionResolver.h" #include "lldb/Utility/Timer.h" #include "llvm/ADT/SmallString.h" #include "llvm/Support/FileSystem.h" using namespace lldb; using namespace lldb_private; llvm::StringRef TargetList::GetStaticBroadcasterClass() { static constexpr llvm::StringLiteral class_name("lldb.targetList"); return class_name; } // TargetList constructor TargetList::TargetList(Debugger &debugger) : Broadcaster(debugger.GetBroadcasterManager(), TargetList::GetStaticBroadcasterClass().str()), m_target_list(), m_target_list_mutex(), m_selected_target_idx(0) { CheckInWithManager(); } Status TargetList::CreateTarget(Debugger &debugger, llvm::StringRef user_exe_path, llvm::StringRef triple_str, LoadDependentFiles load_dependent_files, const OptionGroupPlatform *platform_options, TargetSP &target_sp) { std::lock_guard guard(m_target_list_mutex); auto result = TargetList::CreateTargetInternal( debugger, user_exe_path, triple_str, load_dependent_files, platform_options, target_sp); if (target_sp && result.Success()) AddTargetInternal(target_sp, /*do_select*/ true); return result; } Status TargetList::CreateTarget(Debugger &debugger, llvm::StringRef user_exe_path, const ArchSpec &specified_arch, LoadDependentFiles load_dependent_files, PlatformSP &platform_sp, TargetSP &target_sp) { std::lock_guard guard(m_target_list_mutex); auto result = TargetList::CreateTargetInternal( debugger, user_exe_path, specified_arch, load_dependent_files, platform_sp, target_sp); if (target_sp && result.Success()) AddTargetInternal(target_sp, /*do_select*/ true); return result; } Status TargetList::CreateTargetInternal( Debugger &debugger, llvm::StringRef user_exe_path, llvm::StringRef triple_str, LoadDependentFiles load_dependent_files, const OptionGroupPlatform *platform_options, TargetSP &target_sp) { Status error; PlatformList &platform_list = debugger.GetPlatformList(); // Let's start by looking at the selected platform. PlatformSP platform_sp = platform_list.GetSelectedPlatform(); // This variable corresponds to the architecture specified by the triple // string. If that string was empty the currently selected platform will // determine the architecture. const ArchSpec arch(triple_str); if (!triple_str.empty() && !arch.IsValid()) { error.SetErrorStringWithFormat("invalid triple '%s'", triple_str.str().c_str()); return error; } ArchSpec platform_arch(arch); // Create a new platform if a platform was specified in the platform options // and doesn't match the selected platform. if (platform_options && platform_options->PlatformWasSpecified() && !platform_options->PlatformMatches(platform_sp)) { const bool select_platform = true; platform_sp = platform_options->CreatePlatformWithOptions( debugger.GetCommandInterpreter(), arch, select_platform, error, platform_arch); if (!platform_sp) return error; } bool prefer_platform_arch = false; auto update_platform_arch = [&](const ArchSpec &module_arch) { // If the OS or vendor weren't specified, then adopt the module's // architecture so that the platform matching can be more accurate. if (!platform_arch.TripleOSWasSpecified() || !platform_arch.TripleVendorWasSpecified()) { prefer_platform_arch = true; platform_arch = module_arch; } }; if (!user_exe_path.empty()) { ModuleSpec module_spec(FileSpec(user_exe_path, FileSpec::Style::native)); FileSystem::Instance().Resolve(module_spec.GetFileSpec()); // Try to resolve the exe based on PATH and/or platform-specific suffixes, // but only if using the host platform. if (platform_sp->IsHost() && !FileSystem::Instance().Exists(module_spec.GetFileSpec())) FileSystem::Instance().ResolveExecutableLocation( module_spec.GetFileSpec()); // Resolve the executable in case we are given a path to a application // bundle like a .app bundle on MacOSX. Host::ResolveExecutableInBundle(module_spec.GetFileSpec()); lldb::offset_t file_offset = 0; lldb::offset_t file_size = 0; ModuleSpecList module_specs; const size_t num_specs = ObjectFile::GetModuleSpecifications( module_spec.GetFileSpec(), file_offset, file_size, module_specs); if (num_specs > 0) { ModuleSpec matching_module_spec; if (num_specs == 1) { if (module_specs.GetModuleSpecAtIndex(0, matching_module_spec)) { if (platform_arch.IsValid()) { if (platform_arch.IsCompatibleMatch( matching_module_spec.GetArchitecture())) { // If the OS or vendor weren't specified, then adopt the module's // architecture so that the platform matching can be more // accurate. update_platform_arch(matching_module_spec.GetArchitecture()); } else { StreamString platform_arch_strm; StreamString module_arch_strm; platform_arch.DumpTriple(platform_arch_strm.AsRawOstream()); matching_module_spec.GetArchitecture().DumpTriple( module_arch_strm.AsRawOstream()); error.SetErrorStringWithFormat( "the specified architecture '%s' is not compatible with '%s' " "in '%s'", platform_arch_strm.GetData(), module_arch_strm.GetData(), module_spec.GetFileSpec().GetPath().c_str()); return error; } } else { // Only one arch and none was specified. prefer_platform_arch = true; platform_arch = matching_module_spec.GetArchitecture(); } } } else if (arch.IsValid()) { // Fat binary. A (valid) architecture was specified. module_spec.GetArchitecture() = arch; if (module_specs.FindMatchingModuleSpec(module_spec, matching_module_spec)) update_platform_arch(matching_module_spec.GetArchitecture()); } else { // Fat binary. No architecture specified, check if there is // only one platform for all of the architectures. std::vector candidates; std::vector archs; for (const ModuleSpec &spec : module_specs.ModuleSpecs()) archs.push_back(spec.GetArchitecture()); if (PlatformSP platform_for_archs_sp = platform_list.GetOrCreate(archs, {}, candidates)) { platform_sp = platform_for_archs_sp; } else if (candidates.empty()) { error.SetErrorString("no matching platforms found for this file"); return error; } else { // More than one platform claims to support this file. StreamString error_strm; std::set platform_set; error_strm.Printf( "more than one platform supports this executable ("); for (const auto &candidate : candidates) { llvm::StringRef platform_name = candidate->GetName(); if (platform_set.count(platform_name)) continue; if (!platform_set.empty()) error_strm.PutCString(", "); error_strm.PutCString(platform_name); platform_set.insert(platform_name); } error_strm.Printf("), specify an architecture to disambiguate"); error.SetErrorString(error_strm.GetString()); return error; } } } } // If we have a valid architecture, make sure the current platform is // compatible with that architecture. if (!prefer_platform_arch && arch.IsValid()) { if (!platform_sp->IsCompatibleArchitecture( arch, {}, ArchSpec::CompatibleMatch, nullptr)) { platform_sp = platform_list.GetOrCreate(arch, {}, &platform_arch); if (platform_sp) platform_list.SetSelectedPlatform(platform_sp); } } else if (platform_arch.IsValid()) { // If "arch" isn't valid, yet "platform_arch" is, it means we have an // executable file with a single architecture which should be used. ArchSpec fixed_platform_arch; if (!platform_sp->IsCompatibleArchitecture( platform_arch, {}, ArchSpec::CompatibleMatch, nullptr)) { platform_sp = platform_list.GetOrCreate(platform_arch, {}, &fixed_platform_arch); if (platform_sp) platform_list.SetSelectedPlatform(platform_sp); } } if (!platform_arch.IsValid()) platform_arch = arch; return TargetList::CreateTargetInternal(debugger, user_exe_path, platform_arch, load_dependent_files, platform_sp, target_sp); } Status TargetList::CreateTargetInternal(Debugger &debugger, llvm::StringRef user_exe_path, const ArchSpec &specified_arch, LoadDependentFiles load_dependent_files, lldb::PlatformSP &platform_sp, lldb::TargetSP &target_sp) { LLDB_SCOPED_TIMERF("TargetList::CreateTarget (file = '%s', arch = '%s')", user_exe_path.str().c_str(), specified_arch.GetArchitectureName()); Status error; const bool is_dummy_target = false; ArchSpec arch(specified_arch); if (arch.IsValid()) { if (!platform_sp || !platform_sp->IsCompatibleArchitecture( arch, {}, ArchSpec::CompatibleMatch, nullptr)) platform_sp = debugger.GetPlatformList().GetOrCreate(specified_arch, {}, &arch); } if (!platform_sp) platform_sp = debugger.GetPlatformList().GetSelectedPlatform(); if (!arch.IsValid()) arch = specified_arch; FileSpec file(user_exe_path); if (!FileSystem::Instance().Exists(file) && user_exe_path.starts_with("~")) { // we want to expand the tilde but we don't want to resolve any symbolic // links so we can't use the FileSpec constructor's resolve flag llvm::SmallString<64> unglobbed_path; StandardTildeExpressionResolver Resolver; Resolver.ResolveFullPath(user_exe_path, unglobbed_path); if (unglobbed_path.empty()) file = FileSpec(user_exe_path); else file = FileSpec(unglobbed_path.c_str()); } bool user_exe_path_is_bundle = false; char resolved_bundle_exe_path[PATH_MAX]; resolved_bundle_exe_path[0] = '\0'; if (file) { if (FileSystem::Instance().IsDirectory(file)) user_exe_path_is_bundle = true; if (file.IsRelative() && !user_exe_path.empty()) { llvm::SmallString<64> cwd; if (! llvm::sys::fs::current_path(cwd)) { FileSpec cwd_file(cwd.c_str()); cwd_file.AppendPathComponent(file); if (FileSystem::Instance().Exists(cwd_file)) file = cwd_file; } } ModuleSP exe_module_sp; if (platform_sp) { FileSpecList executable_search_paths( Target::GetDefaultExecutableSearchPaths()); ModuleSpec module_spec(file, arch); error = platform_sp->ResolveExecutable(module_spec, exe_module_sp, executable_search_paths.GetSize() ? &executable_search_paths : nullptr); } if (error.Success() && exe_module_sp) { if (exe_module_sp->GetObjectFile() == nullptr) { if (arch.IsValid()) { error.SetErrorStringWithFormat( "\"%s\" doesn't contain architecture %s", file.GetPath().c_str(), arch.GetArchitectureName()); } else { error.SetErrorStringWithFormat("unsupported file type \"%s\"", file.GetPath().c_str()); } return error; } target_sp.reset(new Target(debugger, arch, platform_sp, is_dummy_target)); debugger.GetTargetList().RegisterInProcessTarget(target_sp); target_sp->SetExecutableModule(exe_module_sp, load_dependent_files); if (user_exe_path_is_bundle) exe_module_sp->GetFileSpec().GetPath(resolved_bundle_exe_path, sizeof(resolved_bundle_exe_path)); if (target_sp->GetPreloadSymbols()) exe_module_sp->PreloadSymbols(); } } else { // No file was specified, just create an empty target with any arch if a // valid arch was specified target_sp.reset(new Target(debugger, arch, platform_sp, is_dummy_target)); debugger.GetTargetList().RegisterInProcessTarget(target_sp); } if (!target_sp) return error; // Set argv0 with what the user typed, unless the user specified a // directory. If the user specified a directory, then it is probably a // bundle that was resolved and we need to use the resolved bundle path if (!user_exe_path.empty()) { // Use exactly what the user typed as the first argument when we exec or // posix_spawn if (user_exe_path_is_bundle && resolved_bundle_exe_path[0]) { target_sp->SetArg0(resolved_bundle_exe_path); } else { // Use resolved path target_sp->SetArg0(file.GetPath().c_str()); } } if (file.GetDirectory()) { FileSpec file_dir; file_dir.SetDirectory(file.GetDirectory()); target_sp->AppendExecutableSearchPaths(file_dir); } // Now prime this from the dummy target: target_sp->PrimeFromDummyTarget(debugger.GetDummyTarget()); return error; } bool TargetList::DeleteTarget(TargetSP &target_sp) { std::lock_guard guard(m_target_list_mutex); auto it = llvm::find(m_target_list, target_sp); if (it == m_target_list.end()) return false; m_target_list.erase(it); return true; } TargetSP TargetList::FindTargetWithExecutableAndArchitecture( const FileSpec &exe_file_spec, const ArchSpec *exe_arch_ptr) const { std::lock_guard guard(m_target_list_mutex); auto it = std::find_if(m_target_list.begin(), m_target_list.end(), [&exe_file_spec, exe_arch_ptr](const TargetSP &item) { Module *exe_module = item->GetExecutableModulePointer(); if (!exe_module || !FileSpec::Match(exe_file_spec, exe_module->GetFileSpec())) return false; return !exe_arch_ptr || exe_arch_ptr->IsCompatibleMatch(exe_module->GetArchitecture()); }); if (it != m_target_list.end()) return *it; return TargetSP(); } TargetSP TargetList::FindTargetWithProcessID(lldb::pid_t pid) const { std::lock_guard guard(m_target_list_mutex); auto it = std::find_if(m_target_list.begin(), m_target_list.end(), [pid](const TargetSP &item) { auto *process_ptr = item->GetProcessSP().get(); return process_ptr && (process_ptr->GetID() == pid); }); if (it != m_target_list.end()) return *it; return TargetSP(); } TargetSP TargetList::FindTargetWithProcess(Process *process) const { TargetSP target_sp; if (!process) return target_sp; std::lock_guard guard(m_target_list_mutex); auto it = std::find_if(m_target_list.begin(), m_target_list.end(), [process](const TargetSP &item) { return item->GetProcessSP().get() == process; }); if (it != m_target_list.end()) target_sp = *it; return target_sp; } TargetSP TargetList::GetTargetSP(Target *target) const { TargetSP target_sp; if (!target) return target_sp; std::lock_guard guard(m_target_list_mutex); auto it = std::find_if(m_target_list.begin(), m_target_list.end(), [target](const TargetSP &item) { return item.get() == target; }); if (it != m_target_list.end()) target_sp = *it; return target_sp; } uint32_t TargetList::SendAsyncInterrupt(lldb::pid_t pid) { uint32_t num_async_interrupts_sent = 0; if (pid != LLDB_INVALID_PROCESS_ID) { TargetSP target_sp(FindTargetWithProcessID(pid)); if (target_sp) { Process *process = target_sp->GetProcessSP().get(); if (process) { process->SendAsyncInterrupt(); ++num_async_interrupts_sent; } } } else { // We don't have a valid pid to broadcast to, so broadcast to the target // list's async broadcaster... BroadcastEvent(Process::eBroadcastBitInterrupt, nullptr); } return num_async_interrupts_sent; } uint32_t TargetList::SignalIfRunning(lldb::pid_t pid, int signo) { uint32_t num_signals_sent = 0; Process *process = nullptr; if (pid == LLDB_INVALID_PROCESS_ID) { // Signal all processes with signal std::lock_guard guard(m_target_list_mutex); for (const auto &target_sp : m_target_list) { process = target_sp->GetProcessSP().get(); if (process && process->IsAlive()) { ++num_signals_sent; process->Signal(signo); } } } else { // Signal a specific process with signal TargetSP target_sp(FindTargetWithProcessID(pid)); if (target_sp) { process = target_sp->GetProcessSP().get(); if (process && process->IsAlive()) { ++num_signals_sent; process->Signal(signo); } } } return num_signals_sent; } size_t TargetList::GetNumTargets() const { std::lock_guard guard(m_target_list_mutex); return m_target_list.size(); } lldb::TargetSP TargetList::GetTargetAtIndex(uint32_t idx) const { TargetSP target_sp; std::lock_guard guard(m_target_list_mutex); if (idx < m_target_list.size()) target_sp = m_target_list[idx]; return target_sp; } uint32_t TargetList::GetIndexOfTarget(lldb::TargetSP target_sp) const { std::lock_guard guard(m_target_list_mutex); auto it = llvm::find(m_target_list, target_sp); if (it != m_target_list.end()) return std::distance(m_target_list.begin(), it); return UINT32_MAX; } void TargetList::AddTargetInternal(TargetSP target_sp, bool do_select) { lldbassert(!llvm::is_contained(m_target_list, target_sp) && "target already exists it the list"); UnregisterInProcessTarget(target_sp); m_target_list.push_back(std::move(target_sp)); if (do_select) SetSelectedTargetInternal(m_target_list.size() - 1); } void TargetList::SetSelectedTargetInternal(uint32_t index) { lldbassert(!m_target_list.empty()); m_selected_target_idx = index < m_target_list.size() ? index : 0; } void TargetList::SetSelectedTarget(uint32_t index) { std::lock_guard guard(m_target_list_mutex); SetSelectedTargetInternal(index); } void TargetList::SetSelectedTarget(const TargetSP &target_sp) { // Don't allow an invalid target shared pointer or a target that has been // destroyed to become the selected target. if (target_sp && target_sp->IsValid()) { std::lock_guard guard(m_target_list_mutex); auto it = llvm::find(m_target_list, target_sp); SetSelectedTargetInternal(std::distance(m_target_list.begin(), it)); } } lldb::TargetSP TargetList::GetSelectedTarget() { std::lock_guard guard(m_target_list_mutex); if (m_selected_target_idx >= m_target_list.size()) m_selected_target_idx = 0; return GetTargetAtIndex(m_selected_target_idx); } bool TargetList::AnyTargetContainsModule(Module &module) { std::lock_guard guard(m_target_list_mutex); for (const auto &target_sp : m_target_list) { if (target_sp->GetImages().FindModule(&module)) return true; } for (const auto &target_sp: m_in_process_target_list) { if (target_sp->GetImages().FindModule(&module)) return true; } return false; } void TargetList::RegisterInProcessTarget(TargetSP target_sp) { std::lock_guard guard(m_target_list_mutex); [[maybe_unused]] bool was_added; std::tie(std::ignore, was_added) = m_in_process_target_list.insert(target_sp); assert(was_added && "Target pointer was left in the in-process map"); } void TargetList::UnregisterInProcessTarget(TargetSP target_sp) { std::lock_guard guard(m_target_list_mutex); [[maybe_unused]] bool was_present = m_in_process_target_list.erase(target_sp); assert(was_present && "Target pointer being removed was not registered"); } bool TargetList::IsTargetInProcess(TargetSP target_sp) { std::lock_guard guard(m_target_list_mutex); return m_in_process_target_list.count(target_sp) == 1; }