//===-- MinidumpFileBuilder.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 "MinidumpFileBuilder.h" #include "Plugins/Process/minidump/RegisterContextMinidump_x86_64.h" #include "lldb/Core/Module.h" #include "lldb/Core/ModuleList.h" #include "lldb/Core/Section.h" #include "lldb/Target/MemoryRegionInfo.h" #include "lldb/Target/Process.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/StopInfo.h" #include "lldb/Target/ThreadList.h" #include "lldb/Utility/DataExtractor.h" #include "lldb/Utility/RegisterValue.h" #include "llvm/ADT/StringRef.h" #include "llvm/BinaryFormat/Minidump.h" #include "llvm/Support/ConvertUTF.h" #include "llvm/Support/Error.h" #include "Plugins/Process/minidump/MinidumpTypes.h" #include using namespace lldb; using namespace lldb_private; using namespace llvm::minidump; void MinidumpFileBuilder::AddDirectory(StreamType type, size_t stream_size) { LocationDescriptor loc; loc.DataSize = static_cast(stream_size); // Stream will begin at the current end of data section loc.RVA = static_cast(GetCurrentDataEndOffset()); Directory dir; dir.Type = static_cast>(type); dir.Location = loc; m_directories.push_back(dir); } Status MinidumpFileBuilder::AddSystemInfo(const llvm::Triple &target_triple) { Status error; AddDirectory(StreamType::SystemInfo, sizeof(llvm::minidump::SystemInfo)); llvm::minidump::ProcessorArchitecture arch; switch (target_triple.getArch()) { case llvm::Triple::ArchType::x86_64: arch = ProcessorArchitecture::AMD64; break; case llvm::Triple::ArchType::x86: arch = ProcessorArchitecture::X86; break; case llvm::Triple::ArchType::arm: arch = ProcessorArchitecture::ARM; break; case llvm::Triple::ArchType::aarch64: arch = ProcessorArchitecture::ARM64; break; case llvm::Triple::ArchType::mips64: case llvm::Triple::ArchType::mips64el: case llvm::Triple::ArchType::mips: case llvm::Triple::ArchType::mipsel: arch = ProcessorArchitecture::MIPS; break; case llvm::Triple::ArchType::ppc64: case llvm::Triple::ArchType::ppc: case llvm::Triple::ArchType::ppc64le: arch = ProcessorArchitecture::PPC; break; default: error.SetErrorStringWithFormat("Architecture %s not supported.", target_triple.getArchName().str().c_str()); return error; }; llvm::support::little_t platform_id; switch (target_triple.getOS()) { case llvm::Triple::OSType::Linux: if (target_triple.getEnvironment() == llvm::Triple::EnvironmentType::Android) platform_id = OSPlatform::Android; else platform_id = OSPlatform::Linux; break; case llvm::Triple::OSType::Win32: platform_id = OSPlatform::Win32NT; break; case llvm::Triple::OSType::MacOSX: platform_id = OSPlatform::MacOSX; break; case llvm::Triple::OSType::IOS: platform_id = OSPlatform::IOS; break; default: error.SetErrorStringWithFormat("OS %s not supported.", target_triple.getOSName().str().c_str()); return error; }; llvm::minidump::SystemInfo sys_info; sys_info.ProcessorArch = static_cast>(arch); // Global offset to beginning of a csd_string in a data section sys_info.CSDVersionRVA = static_cast( GetCurrentDataEndOffset() + sizeof(llvm::minidump::SystemInfo)); sys_info.PlatformId = platform_id; m_data.AppendData(&sys_info, sizeof(llvm::minidump::SystemInfo)); std::string csd_string; error = WriteString(csd_string, &m_data); if (error.Fail()) { error.SetErrorString("Unable to convert the csd string to UTF16."); return error; } return error; } Status WriteString(const std::string &to_write, lldb_private::DataBufferHeap *buffer) { Status error; // let the StringRef eat also null termination char llvm::StringRef to_write_ref(to_write.c_str(), to_write.size() + 1); llvm::SmallVector to_write_utf16; bool converted = convertUTF8ToUTF16String(to_write_ref, to_write_utf16); if (!converted) { error.SetErrorStringWithFormat( "Unable to convert the string to UTF16. Failed to convert %s", to_write.c_str()); return error; } // size of the UTF16 string should be written without the null termination // character that is stored in 2 bytes llvm::support::ulittle32_t to_write_size(to_write_utf16.size_in_bytes() - 2); buffer->AppendData(&to_write_size, sizeof(llvm::support::ulittle32_t)); buffer->AppendData(to_write_utf16.data(), to_write_utf16.size_in_bytes()); return error; } llvm::Expected getModuleFileSize(Target &target, const ModuleSP &mod) { SectionSP sect_sp = mod->GetObjectFile()->GetBaseAddress().GetSection(); uint64_t SizeOfImage = 0; if (!sect_sp) { return llvm::createStringError(std::errc::operation_not_supported, "Couldn't obtain the section information."); } lldb::addr_t sect_addr = sect_sp->GetLoadBaseAddress(&target); // Use memory size since zero fill sections, like ".bss", will be smaller on // disk. lldb::addr_t sect_size = sect_sp->GetByteSize(); // This will usually be zero, but make sure to calculate the BaseOfImage // offset. const lldb::addr_t base_sect_offset = mod->GetObjectFile()->GetBaseAddress().GetLoadAddress(&target) - sect_addr; SizeOfImage = sect_size - base_sect_offset; lldb::addr_t next_sect_addr = sect_addr + sect_size; Address sect_so_addr; target.ResolveLoadAddress(next_sect_addr, sect_so_addr); lldb::SectionSP next_sect_sp = sect_so_addr.GetSection(); while (next_sect_sp && next_sect_sp->GetLoadBaseAddress(&target) == next_sect_addr) { sect_size = sect_sp->GetByteSize(); SizeOfImage += sect_size; next_sect_addr += sect_size; target.ResolveLoadAddress(next_sect_addr, sect_so_addr); next_sect_sp = sect_so_addr.GetSection(); } return SizeOfImage; } // ModuleList stream consists of a number of modules, followed by an array // of llvm::minidump::Module's structures. Every structure informs about a // single module. Additional data of variable length, such as module's names, // are stored just after the ModuleList stream. The llvm::minidump::Module // structures point to this helper data by global offset. Status MinidumpFileBuilder::AddModuleList(Target &target) { constexpr size_t minidump_module_size = sizeof(llvm::minidump::Module); Status error; const ModuleList &modules = target.GetImages(); llvm::support::ulittle32_t modules_count = static_cast(modules.GetSize()); // This helps us with getting the correct global offset in minidump // file later, when we will be setting up offsets from the // the llvm::minidump::Module's structures into helper data size_t size_before = GetCurrentDataEndOffset(); // This is the size of the main part of the ModuleList stream. // It consists of a module number and corresponding number of // structs describing individual modules size_t module_stream_size = sizeof(llvm::support::ulittle32_t) + modules_count * minidump_module_size; // Adding directory describing this stream. AddDirectory(StreamType::ModuleList, module_stream_size); m_data.AppendData(&modules_count, sizeof(llvm::support::ulittle32_t)); // Temporary storage for the helper data (of variable length) // as these cannot be dumped to m_data before dumping entire // array of module structures. DataBufferHeap helper_data; for (size_t i = 0; i < modules_count; ++i) { ModuleSP mod = modules.GetModuleAtIndex(i); std::string module_name = mod->GetSpecificationDescription(); auto maybe_mod_size = getModuleFileSize(target, mod); if (!maybe_mod_size) { error.SetErrorStringWithFormat("Unable to get the size of module %s.", module_name.c_str()); return error; } uint64_t mod_size = std::move(*maybe_mod_size); llvm::support::ulittle32_t signature = static_cast( static_cast(minidump::CvSignature::ElfBuildId)); auto uuid = mod->GetUUID().GetBytes(); VSFixedFileInfo info; info.Signature = static_cast(0u); info.StructVersion = static_cast(0u); info.FileVersionHigh = static_cast(0u); info.FileVersionLow = static_cast(0u); info.ProductVersionHigh = static_cast(0u); info.ProductVersionLow = static_cast(0u); info.FileFlagsMask = static_cast(0u); info.FileFlags = static_cast(0u); info.FileOS = static_cast(0u); info.FileType = static_cast(0u); info.FileSubtype = static_cast(0u); info.FileDateHigh = static_cast(0u); info.FileDateLow = static_cast(0u); LocationDescriptor ld; ld.DataSize = static_cast(0u); ld.RVA = static_cast(0u); // Setting up LocationDescriptor for uuid string. The global offset into // minidump file is calculated. LocationDescriptor ld_cv; ld_cv.DataSize = static_cast( sizeof(llvm::support::ulittle32_t) + uuid.size()); ld_cv.RVA = static_cast( size_before + module_stream_size + helper_data.GetByteSize()); helper_data.AppendData(&signature, sizeof(llvm::support::ulittle32_t)); helper_data.AppendData(uuid.begin(), uuid.size()); llvm::minidump::Module m; m.BaseOfImage = static_cast( mod->GetObjectFile()->GetBaseAddress().GetLoadAddress(&target)); m.SizeOfImage = static_cast(mod_size); m.Checksum = static_cast(0); m.TimeDateStamp = static_cast(std::time(nullptr)); m.ModuleNameRVA = static_cast( size_before + module_stream_size + helper_data.GetByteSize()); m.VersionInfo = info; m.CvRecord = ld_cv; m.MiscRecord = ld; error = WriteString(module_name, &helper_data); if (error.Fail()) return error; m_data.AppendData(&m, sizeof(llvm::minidump::Module)); } m_data.AppendData(helper_data.GetBytes(), helper_data.GetByteSize()); return error; } uint16_t read_register_u16_raw(RegisterContext *reg_ctx, const std::string ®_name) { const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoByName(reg_name); if (!reg_info) return 0; lldb_private::RegisterValue reg_value; bool success = reg_ctx->ReadRegister(reg_info, reg_value); if (!success) return 0; return reg_value.GetAsUInt16(); } uint32_t read_register_u32_raw(RegisterContext *reg_ctx, const std::string ®_name) { const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoByName(reg_name); if (!reg_info) return 0; lldb_private::RegisterValue reg_value; bool success = reg_ctx->ReadRegister(reg_info, reg_value); if (!success) return 0; return reg_value.GetAsUInt32(); } uint64_t read_register_u64_raw(RegisterContext *reg_ctx, const std::string ®_name) { const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoByName(reg_name); if (!reg_info) return 0; lldb_private::RegisterValue reg_value; bool success = reg_ctx->ReadRegister(reg_info, reg_value); if (!success) return 0; return reg_value.GetAsUInt64(); } llvm::support::ulittle16_t read_register_u16(RegisterContext *reg_ctx, const std::string ®_name) { return static_cast( read_register_u16_raw(reg_ctx, reg_name)); } llvm::support::ulittle32_t read_register_u32(RegisterContext *reg_ctx, const std::string ®_name) { return static_cast( read_register_u32_raw(reg_ctx, reg_name)); } llvm::support::ulittle64_t read_register_u64(RegisterContext *reg_ctx, const std::string ®_name) { return static_cast( read_register_u64_raw(reg_ctx, reg_name)); } lldb_private::minidump::MinidumpContext_x86_64 GetThreadContext_64(RegisterContext *reg_ctx) { lldb_private::minidump::MinidumpContext_x86_64 thread_context = {}; thread_context.p1_home = {}; thread_context.context_flags = static_cast( lldb_private::minidump::MinidumpContext_x86_64_Flags::x86_64_Flag | lldb_private::minidump::MinidumpContext_x86_64_Flags::Control | lldb_private::minidump::MinidumpContext_x86_64_Flags::Segments | lldb_private::minidump::MinidumpContext_x86_64_Flags::Integer); thread_context.rax = read_register_u64(reg_ctx, "rax"); thread_context.rbx = read_register_u64(reg_ctx, "rbx"); thread_context.rcx = read_register_u64(reg_ctx, "rcx"); thread_context.rdx = read_register_u64(reg_ctx, "rdx"); thread_context.rdi = read_register_u64(reg_ctx, "rdi"); thread_context.rsi = read_register_u64(reg_ctx, "rsi"); thread_context.rbp = read_register_u64(reg_ctx, "rbp"); thread_context.rsp = read_register_u64(reg_ctx, "rsp"); thread_context.r8 = read_register_u64(reg_ctx, "r8"); thread_context.r9 = read_register_u64(reg_ctx, "r9"); thread_context.r10 = read_register_u64(reg_ctx, "r10"); thread_context.r11 = read_register_u64(reg_ctx, "r11"); thread_context.r12 = read_register_u64(reg_ctx, "r12"); thread_context.r13 = read_register_u64(reg_ctx, "r13"); thread_context.r14 = read_register_u64(reg_ctx, "r14"); thread_context.r15 = read_register_u64(reg_ctx, "r15"); thread_context.rip = read_register_u64(reg_ctx, "rip"); thread_context.eflags = read_register_u32(reg_ctx, "rflags"); thread_context.cs = read_register_u16(reg_ctx, "cs"); thread_context.fs = read_register_u16(reg_ctx, "fs"); thread_context.gs = read_register_u16(reg_ctx, "gs"); thread_context.ss = read_register_u16(reg_ctx, "ss"); thread_context.ds = read_register_u16(reg_ctx, "ds"); return thread_context; } // Function returns start and size of the memory region that contains // memory location pointed to by the current stack pointer. llvm::Expected> findStackHelper(const lldb::ProcessSP &process_sp, uint64_t rsp) { MemoryRegionInfo range_info; Status error = process_sp->GetMemoryRegionInfo(rsp, range_info); // Skip failed memory region requests or any regions with no permissions. if (error.Fail() || range_info.GetLLDBPermissions() == 0) return llvm::createStringError( std::errc::not_supported, "unable to load stack segment of the process"); const addr_t addr = range_info.GetRange().GetRangeBase(); const addr_t size = range_info.GetRange().GetByteSize(); if (size == 0) return llvm::createStringError(std::errc::not_supported, "stack segment of the process is empty"); return std::make_pair(addr, size); } Status MinidumpFileBuilder::AddThreadList(const lldb::ProcessSP &process_sp) { constexpr size_t minidump_thread_size = sizeof(llvm::minidump::Thread); lldb_private::ThreadList thread_list = process_sp->GetThreadList(); // size of the entire thread stream consists of: // number of threads and threads array size_t thread_stream_size = sizeof(llvm::support::ulittle32_t) + thread_list.GetSize() * minidump_thread_size; // save for the ability to set up RVA size_t size_before = GetCurrentDataEndOffset(); AddDirectory(StreamType::ThreadList, thread_stream_size); llvm::support::ulittle32_t thread_count = static_cast(thread_list.GetSize()); m_data.AppendData(&thread_count, sizeof(llvm::support::ulittle32_t)); DataBufferHeap helper_data; const uint32_t num_threads = thread_list.GetSize(); for (uint32_t thread_idx = 0; thread_idx < num_threads; ++thread_idx) { ThreadSP thread_sp(thread_list.GetThreadAtIndex(thread_idx)); RegisterContextSP reg_ctx_sp(thread_sp->GetRegisterContext()); Status error; if (!reg_ctx_sp) { error.SetErrorString("Unable to get the register context."); return error; } RegisterContext *reg_ctx = reg_ctx_sp.get(); auto thread_context = GetThreadContext_64(reg_ctx); uint64_t rsp = read_register_u64_raw(reg_ctx, "rsp"); auto expected_address_range = findStackHelper(process_sp, rsp); if (!expected_address_range) { error.SetErrorString("Unable to get the stack address."); return error; } std::pair range = std::move(*expected_address_range); uint64_t addr = range.first; uint64_t size = range.second; auto data_up = std::make_unique(size, 0); const size_t stack_bytes_read = process_sp->ReadMemory(addr, data_up->GetBytes(), size, error); if (error.Fail()) return error; LocationDescriptor stack_memory; stack_memory.DataSize = static_cast(stack_bytes_read); stack_memory.RVA = static_cast( size_before + thread_stream_size + helper_data.GetByteSize()); MemoryDescriptor stack; stack.StartOfMemoryRange = static_cast(addr); stack.Memory = stack_memory; helper_data.AppendData(data_up->GetBytes(), stack_bytes_read); LocationDescriptor thread_context_memory_locator; thread_context_memory_locator.DataSize = static_cast(sizeof(thread_context)); thread_context_memory_locator.RVA = static_cast( size_before + thread_stream_size + helper_data.GetByteSize()); helper_data.AppendData( &thread_context, sizeof(lldb_private::minidump::MinidumpContext_x86_64)); llvm::minidump::Thread t; t.ThreadId = static_cast(thread_sp->GetID()); t.SuspendCount = static_cast( (thread_sp->GetState() == StateType::eStateSuspended) ? 1 : 0); t.PriorityClass = static_cast(0); t.Priority = static_cast(0); t.EnvironmentBlock = static_cast(0); t.Stack = stack, t.Context = thread_context_memory_locator; m_data.AppendData(&t, sizeof(llvm::minidump::Thread)); } m_data.AppendData(helper_data.GetBytes(), helper_data.GetByteSize()); return Status(); } Status MinidumpFileBuilder::AddException(const lldb::ProcessSP &process_sp) { Status error; lldb_private::ThreadList thread_list = process_sp->GetThreadList(); const uint32_t num_threads = thread_list.GetSize(); uint32_t stop_reason_thread_idx = 0; for (stop_reason_thread_idx = 0; stop_reason_thread_idx < num_threads; ++stop_reason_thread_idx) { ThreadSP thread_sp(thread_list.GetThreadAtIndex(stop_reason_thread_idx)); StopInfoSP stop_info_sp = thread_sp->GetStopInfo(); if (stop_info_sp && stop_info_sp->IsValid()) break; } if (stop_reason_thread_idx == num_threads) { error.SetErrorString("No stop reason thread found."); return error; } constexpr size_t minidump_exception_size = sizeof(llvm::minidump::ExceptionStream); AddDirectory(StreamType::Exception, minidump_exception_size); size_t size_before = GetCurrentDataEndOffset(); ThreadSP thread_sp(thread_list.GetThreadAtIndex(stop_reason_thread_idx)); RegisterContextSP reg_ctx_sp(thread_sp->GetRegisterContext()); RegisterContext *reg_ctx = reg_ctx_sp.get(); auto thread_context = GetThreadContext_64(reg_ctx); StopInfoSP stop_info_sp = thread_sp->GetStopInfo(); DataBufferHeap helper_data; LocationDescriptor thread_context_memory_locator; thread_context_memory_locator.DataSize = static_cast(sizeof(thread_context)); thread_context_memory_locator.RVA = static_cast( size_before + minidump_exception_size + helper_data.GetByteSize()); helper_data.AppendData( &thread_context, sizeof(lldb_private::minidump::MinidumpContext_x86_64)); Exception exp_record = {}; exp_record.ExceptionCode = static_cast(stop_info_sp->GetValue()); exp_record.ExceptionFlags = static_cast(0); exp_record.ExceptionRecord = static_cast(0); exp_record.ExceptionAddress = read_register_u64(reg_ctx, "rip"); exp_record.NumberParameters = static_cast(0); exp_record.UnusedAlignment = static_cast(0); // exp_record.ExceptionInformation; ExceptionStream exp_stream; exp_stream.ThreadId = static_cast(thread_sp->GetID()); exp_stream.UnusedAlignment = static_cast(0); exp_stream.ExceptionRecord = exp_record; exp_stream.ThreadContext = thread_context_memory_locator; m_data.AppendData(&exp_stream, minidump_exception_size); m_data.AppendData(helper_data.GetBytes(), helper_data.GetByteSize()); return error; } lldb_private::Status MinidumpFileBuilder::AddMemoryList(const lldb::ProcessSP &process_sp) { Status error; if (error.Fail()) { error.SetErrorString("Process doesn't support getting memory region info."); return error; } // Get interesting addresses std::vector interesting_addresses; auto thread_list = process_sp->GetThreadList(); for (size_t i = 0; i < thread_list.GetSize(); ++i) { ThreadSP thread_sp(thread_list.GetThreadAtIndex(i)); RegisterContextSP reg_ctx_sp(thread_sp->GetRegisterContext()); RegisterContext *reg_ctx = reg_ctx_sp.get(); interesting_addresses.push_back(read_register_u64(reg_ctx, "rsp")); interesting_addresses.push_back(read_register_u64(reg_ctx, "rip")); } DataBufferHeap helper_data; std::vector mem_descriptors; std::set visited_region_base_addresses; for (size_t interesting_address : interesting_addresses) { MemoryRegionInfo range_info; error = process_sp->GetMemoryRegionInfo(interesting_address, range_info); // Skip failed memory region requests or any regions with no permissions. if (error.Fail() || range_info.GetLLDBPermissions() == 0) continue; const addr_t addr = range_info.GetRange().GetRangeBase(); // Skip any regions we have already saved out. if (visited_region_base_addresses.insert(addr).second == false) continue; const addr_t size = range_info.GetRange().GetByteSize(); if (size == 0) continue; auto data_up = std::make_unique(size, 0); const size_t bytes_read = process_sp->ReadMemory(addr, data_up->GetBytes(), size, error); if (bytes_read == 0) continue; // We have a good memory region with valid bytes to store. LocationDescriptor memory_dump; memory_dump.DataSize = static_cast(bytes_read); memory_dump.RVA = static_cast(GetCurrentDataEndOffset()); MemoryDescriptor memory_desc; memory_desc.StartOfMemoryRange = static_cast(addr); memory_desc.Memory = memory_dump; mem_descriptors.push_back(memory_desc); m_data.AppendData(data_up->GetBytes(), bytes_read); } AddDirectory(StreamType::MemoryList, sizeof(llvm::support::ulittle32_t) + mem_descriptors.size() * sizeof(llvm::minidump::MemoryDescriptor)); llvm::support::ulittle32_t memory_ranges_num(mem_descriptors.size()); m_data.AppendData(&memory_ranges_num, sizeof(llvm::support::ulittle32_t)); for (auto memory_descriptor : mem_descriptors) { m_data.AppendData(&memory_descriptor, sizeof(llvm::minidump::MemoryDescriptor)); } return error; } void MinidumpFileBuilder::AddMiscInfo(const lldb::ProcessSP &process_sp) { AddDirectory(StreamType::MiscInfo, sizeof(lldb_private::minidump::MinidumpMiscInfo)); lldb_private::minidump::MinidumpMiscInfo misc_info; misc_info.size = static_cast( sizeof(lldb_private::minidump::MinidumpMiscInfo)); // Default set flags1 to 0, in case that we will not be able to // get any information misc_info.flags1 = static_cast(0); lldb_private::ProcessInstanceInfo process_info; process_sp->GetProcessInfo(process_info); if (process_info.ProcessIDIsValid()) { // Set flags1 to reflect that PID is filled in misc_info.flags1 = static_cast(static_cast( lldb_private::minidump::MinidumpMiscInfoFlags::ProcessID)); misc_info.process_id = static_cast(process_info.GetProcessID()); } m_data.AppendData(&misc_info, sizeof(lldb_private::minidump::MinidumpMiscInfo)); } std::unique_ptr getFileStreamHelper(const std::string &path) { auto maybe_stream = llvm::MemoryBuffer::getFileAsStream(path); if (!maybe_stream) return nullptr; return std::move(maybe_stream.get()); } void MinidumpFileBuilder::AddLinuxFileStreams( const lldb::ProcessSP &process_sp) { std::vector> files_with_stream_types = { {StreamType::LinuxCPUInfo, "/proc/cpuinfo"}, {StreamType::LinuxLSBRelease, "/etc/lsb-release"}, }; lldb_private::ProcessInstanceInfo process_info; process_sp->GetProcessInfo(process_info); if (process_info.ProcessIDIsValid()) { lldb::pid_t pid = process_info.GetProcessID(); std::string pid_str = std::to_string(pid); files_with_stream_types.push_back( {StreamType::LinuxProcStatus, "/proc/" + pid_str + "/status"}); files_with_stream_types.push_back( {StreamType::LinuxCMDLine, "/proc/" + pid_str + "/cmdline"}); files_with_stream_types.push_back( {StreamType::LinuxEnviron, "/proc/" + pid_str + "/environ"}); files_with_stream_types.push_back( {StreamType::LinuxAuxv, "/proc/" + pid_str + "/auxv"}); files_with_stream_types.push_back( {StreamType::LinuxMaps, "/proc/" + pid_str + "/maps"}); files_with_stream_types.push_back( {StreamType::LinuxProcStat, "/proc/" + pid_str + "/stat"}); files_with_stream_types.push_back( {StreamType::LinuxProcFD, "/proc/" + pid_str + "/fd"}); } for (const auto &entry : files_with_stream_types) { StreamType stream = entry.first; std::string path = entry.second; auto memory_buffer = getFileStreamHelper(path); if (memory_buffer) { size_t size = memory_buffer->getBufferSize(); if (size == 0) continue; AddDirectory(stream, size); m_data.AppendData(memory_buffer->getBufferStart(), size); } } } Status MinidumpFileBuilder::Dump(lldb::FileUP &core_file) const { constexpr size_t header_size = sizeof(llvm::minidump::Header); constexpr size_t directory_size = sizeof(llvm::minidump::Directory); // write header llvm::minidump::Header header; header.Signature = static_cast( llvm::minidump::Header::MagicSignature); header.Version = static_cast( llvm::minidump::Header::MagicVersion); header.NumberOfStreams = static_cast(GetDirectoriesNum()); header.StreamDirectoryRVA = static_cast(GetCurrentDataEndOffset()); header.Checksum = static_cast( 0u), // not used in most of the writers header.TimeDateStamp = static_cast(std::time(nullptr)); header.Flags = static_cast(0u); // minidump normal flag Status error; size_t bytes_written; bytes_written = header_size; error = core_file->Write(&header, bytes_written); if (error.Fail() || bytes_written != header_size) { if (bytes_written != header_size) error.SetErrorStringWithFormat( "unable to write the header (written %zd/%zd)", bytes_written, header_size); return error; } // write data bytes_written = m_data.GetByteSize(); error = core_file->Write(m_data.GetBytes(), bytes_written); if (error.Fail() || bytes_written != m_data.GetByteSize()) { if (bytes_written != m_data.GetByteSize()) error.SetErrorStringWithFormat( "unable to write the data (written %zd/%" PRIu64 ")", bytes_written, m_data.GetByteSize()); return error; } // write directories for (const Directory &dir : m_directories) { bytes_written = directory_size; error = core_file->Write(&dir, bytes_written); if (error.Fail() || bytes_written != directory_size) { if (bytes_written != directory_size) error.SetErrorStringWithFormat( "unable to write the directory (written %zd/%zd)", bytes_written, directory_size); return error; } } return error; } size_t MinidumpFileBuilder::GetDirectoriesNum() const { return m_directories.size(); } size_t MinidumpFileBuilder::GetCurrentDataEndOffset() const { return sizeof(llvm::minidump::Header) + m_data.GetByteSize(); }