//===-- ProcessMinidump.cpp -------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // Project includes #include "ProcessMinidump.h" #include "ThreadMinidump.h" // Other libraries and framework includes #include "lldb/Core/Module.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Core/PluginManager.h" #include "lldb/Core/Section.h" #include "lldb/Core/State.h" #include "lldb/Target/DynamicLoader.h" #include "lldb/Target/MemoryRegionInfo.h" #include "lldb/Target/SectionLoadList.h" #include "lldb/Target/Target.h" #include "lldb/Target/UnixSignals.h" #include "lldb/Utility/DataBufferLLVM.h" #include "lldb/Utility/LLDBAssert.h" #include "lldb/Utility/Log.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/Threading.h" // C includes // C++ includes using namespace lldb; using namespace lldb_private; using namespace minidump; //------------------------------------------------------------------ /// A placeholder module used for minidumps, where the original /// object files may not be available (so we can't parse the object /// files to extract the set of sections/segments) /// /// This placeholder module has a single synthetic section (.module_image) /// which represents the module memory range covering the whole module. //------------------------------------------------------------------ class PlaceholderModule : public Module { public: PlaceholderModule(const ModuleSpec &module_spec) : Module(module_spec.GetFileSpec(), module_spec.GetArchitecture()) { if (module_spec.GetUUID().IsValid()) SetUUID(module_spec.GetUUID()); } // Creates a synthetic module section covering the whole module image (and // sets the section load address as well) void CreateImageSection(const MinidumpModule *module, Target& target) { const ConstString section_name(".module_image"); lldb::SectionSP section_sp(new Section( shared_from_this(), // Module to which this section belongs. nullptr, // ObjectFile 0, // Section ID. section_name, // Section name. eSectionTypeContainer, // Section type. module->base_of_image, // VM address. module->size_of_image, // VM size in bytes of this section. 0, // Offset of this section in the file. module->size_of_image, // Size of the section as found in the file. 12, // Alignment of the section (log2) 0, // Flags for this section. 1)); // Number of host bytes per target byte section_sp->SetPermissions(ePermissionsExecutable | ePermissionsReadable); GetSectionList()->AddSection(section_sp); target.GetSectionLoadList().SetSectionLoadAddress( section_sp, module->base_of_image); } ObjectFile *GetObjectFile() override { return nullptr; } SectionList *GetSectionList() override { return Module::GetUnifiedSectionList(); } }; ConstString ProcessMinidump::GetPluginNameStatic() { static ConstString g_name("minidump"); return g_name; } const char *ProcessMinidump::GetPluginDescriptionStatic() { return "Minidump plug-in."; } lldb::ProcessSP ProcessMinidump::CreateInstance(lldb::TargetSP target_sp, lldb::ListenerSP listener_sp, const FileSpec *crash_file) { if (!crash_file) return nullptr; lldb::ProcessSP process_sp; // Read enough data for the Minidump header constexpr size_t header_size = sizeof(MinidumpHeader); auto DataPtr = DataBufferLLVM::CreateSliceFromPath(crash_file->GetPath(), header_size, 0); if (!DataPtr) return nullptr; lldbassert(DataPtr->GetByteSize() == header_size); // first, only try to parse the header, beacuse we need to be fast llvm::ArrayRef HeaderBytes = DataPtr->GetData(); const MinidumpHeader *header = MinidumpHeader::Parse(HeaderBytes); if (header == nullptr) return nullptr; auto AllData = DataBufferLLVM::CreateSliceFromPath(crash_file->GetPath(), -1, 0); if (!AllData) return nullptr; auto minidump_parser = MinidumpParser::Create(AllData); // check if the parser object is valid if (!minidump_parser) return nullptr; return std::make_shared(target_sp, listener_sp, *crash_file, minidump_parser.getValue()); } bool ProcessMinidump::CanDebug(lldb::TargetSP target_sp, bool plugin_specified_by_name) { return true; } ProcessMinidump::ProcessMinidump(lldb::TargetSP target_sp, lldb::ListenerSP listener_sp, const FileSpec &core_file, MinidumpParser minidump_parser) : Process(target_sp, listener_sp), m_minidump_parser(minidump_parser), m_core_file(core_file), m_is_wow64(false) {} ProcessMinidump::~ProcessMinidump() { Clear(); // We need to call finalize on the process before destroying ourselves to // make sure all of the broadcaster cleanup goes as planned. If we destruct // this class, then Process::~Process() might have problems trying to fully // destroy the broadcaster. Finalize(); } void ProcessMinidump::Initialize() { static llvm::once_flag g_once_flag; llvm::call_once(g_once_flag, []() { PluginManager::RegisterPlugin(GetPluginNameStatic(), GetPluginDescriptionStatic(), ProcessMinidump::CreateInstance); }); } void ProcessMinidump::Terminate() { PluginManager::UnregisterPlugin(ProcessMinidump::CreateInstance); } Status ProcessMinidump::DoLoadCore() { Status error; // Minidump parser initialization & consistency checks error = m_minidump_parser.Initialize(); if (error.Fail()) return error; // Do we support the minidump's architecture? ArchSpec arch = GetArchitecture(); switch (arch.GetMachine()) { case llvm::Triple::x86: case llvm::Triple::x86_64: // supported break; default: error.SetErrorStringWithFormat("unsupported minidump architecture: %s", arch.GetArchitectureName()); return error; } m_thread_list = m_minidump_parser.GetThreads(); m_active_exception = m_minidump_parser.GetExceptionStream(); ReadModuleList(); GetTarget().SetArchitecture(arch); llvm::Optional pid = m_minidump_parser.GetPid(); if (!pid) { error.SetErrorString("failed to parse PID"); return error; } SetID(pid.getValue()); return error; } DynamicLoader *ProcessMinidump::GetDynamicLoader() { if (m_dyld_ap.get() == nullptr) m_dyld_ap.reset(DynamicLoader::FindPlugin(this, nullptr)); return m_dyld_ap.get(); } ConstString ProcessMinidump::GetPluginName() { return GetPluginNameStatic(); } uint32_t ProcessMinidump::GetPluginVersion() { return 1; } Status ProcessMinidump::DoDestroy() { return Status(); } void ProcessMinidump::RefreshStateAfterStop() { if (!m_active_exception) return; if (m_active_exception->exception_record.exception_code == MinidumpException::DumpRequested) { return; } lldb::StopInfoSP stop_info; lldb::ThreadSP stop_thread; Process::m_thread_list.SetSelectedThreadByID(m_active_exception->thread_id); stop_thread = Process::m_thread_list.GetSelectedThread(); ArchSpec arch = GetArchitecture(); if (arch.GetTriple().getOS() == llvm::Triple::Linux) { stop_info = StopInfo::CreateStopReasonWithSignal( *stop_thread, m_active_exception->exception_record.exception_code); } else { std::string desc; llvm::raw_string_ostream desc_stream(desc); desc_stream << "Exception " << llvm::format_hex( m_active_exception->exception_record.exception_code, 8) << " encountered at address " << llvm::format_hex( m_active_exception->exception_record.exception_address, 8); stop_info = StopInfo::CreateStopReasonWithException( *stop_thread, desc_stream.str().c_str()); } stop_thread->SetStopInfo(stop_info); } bool ProcessMinidump::IsAlive() { return true; } bool ProcessMinidump::WarnBeforeDetach() const { return false; } size_t ProcessMinidump::ReadMemory(lldb::addr_t addr, void *buf, size_t size, Status &error) { // Don't allow the caching that lldb_private::Process::ReadMemory does since // we have it all cached in our dump file anyway. return DoReadMemory(addr, buf, size, error); } size_t ProcessMinidump::DoReadMemory(lldb::addr_t addr, void *buf, size_t size, Status &error) { llvm::ArrayRef mem = m_minidump_parser.GetMemory(addr, size); if (mem.empty()) { error.SetErrorString("could not parse memory info"); return 0; } std::memcpy(buf, mem.data(), mem.size()); return mem.size(); } ArchSpec ProcessMinidump::GetArchitecture() { if (!m_is_wow64) { return m_minidump_parser.GetArchitecture(); } llvm::Triple triple; triple.setVendor(llvm::Triple::VendorType::UnknownVendor); triple.setArch(llvm::Triple::ArchType::x86); triple.setOS(llvm::Triple::OSType::Win32); return ArchSpec(triple); } Status ProcessMinidump::GetMemoryRegionInfo(lldb::addr_t load_addr, MemoryRegionInfo &range_info) { Status error; auto info = m_minidump_parser.GetMemoryRegionInfo(load_addr); if (!info) { error.SetErrorString("No valid MemoryRegionInfo found!"); return error; } range_info = info.getValue(); return error; } void ProcessMinidump::Clear() { Process::m_thread_list.Clear(); } bool ProcessMinidump::UpdateThreadList(ThreadList &old_thread_list, ThreadList &new_thread_list) { uint32_t num_threads = 0; if (m_thread_list.size() > 0) num_threads = m_thread_list.size(); for (lldb::tid_t tid = 0; tid < num_threads; ++tid) { llvm::ArrayRef context; if (!m_is_wow64) context = m_minidump_parser.GetThreadContext(m_thread_list[tid]); else context = m_minidump_parser.GetThreadContextWow64(m_thread_list[tid]); lldb::ThreadSP thread_sp( new ThreadMinidump(*this, m_thread_list[tid], context)); new_thread_list.AddThread(thread_sp); } return new_thread_list.GetSize(false) > 0; } void ProcessMinidump::ReadModuleList() { std::vector filtered_modules = m_minidump_parser.GetFilteredModuleList(); for (auto module : filtered_modules) { llvm::Optional name = m_minidump_parser.GetMinidumpString(module->module_name_rva); if (!name) continue; Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_MODULES)); if (log) { log->Printf("ProcessMinidump::%s found module: name: %s %#010" PRIx64 "-%#010" PRIx64 " size: %" PRIu32, __FUNCTION__, name.getValue().c_str(), uint64_t(module->base_of_image), module->base_of_image + module->size_of_image, uint32_t(module->size_of_image)); } // check if the process is wow64 - a 32 bit windows process running on a // 64 bit windows if (llvm::StringRef(name.getValue()).endswith_lower("wow64.dll")) { m_is_wow64 = true; } const auto uuid = m_minidump_parser.GetModuleUUID(module); const auto file_spec = FileSpec(name.getValue(), true, GetArchitecture().GetTriple()); ModuleSpec module_spec(file_spec, uuid); Status error; lldb::ModuleSP module_sp = GetTarget().GetSharedModule(module_spec, &error); if (!module_sp || error.Fail()) { // We failed to locate a matching local object file. Fortunately, the // minidump format encodes enough information about each module's memory // range to allow us to create placeholder modules. // // This enables most LLDB functionality involving address-to-module // translations (ex. identifing the module for a stack frame PC) and // modules/sections commands (ex. target modules list, ...) auto placeholder_module = std::make_shared(module_spec); placeholder_module->CreateImageSection(module, GetTarget()); module_sp = placeholder_module; GetTarget().GetImages().Append(module_sp); } if (log) { log->Printf("ProcessMinidump::%s load module: name: %s", __FUNCTION__, name.getValue().c_str()); } bool load_addr_changed = false; module_sp->SetLoadAddress(GetTarget(), module->base_of_image, false, load_addr_changed); } } bool ProcessMinidump::GetProcessInfo(ProcessInstanceInfo &info) { info.Clear(); info.SetProcessID(GetID()); info.SetArchitecture(GetArchitecture()); lldb::ModuleSP module_sp = GetTarget().GetExecutableModule(); if (module_sp) { const bool add_exe_file_as_first_arg = false; info.SetExecutableFile(GetTarget().GetExecutableModule()->GetFileSpec(), add_exe_file_as_first_arg); } return true; }