/* * Copyright (c) 2020, Itamar S. * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include namespace Coredump { struct MemoryRegionInfo { ELF::Core::NotesEntryHeader header; uint64_t region_start; uint64_t region_end; uint16_t program_header_index; StringView region_name; StringView object_name() const { if (region_name.contains("Loader.so")) return "Loader.so"sv; auto maybe_colon_index = region_name.find(':'); if (!maybe_colon_index.has_value()) return {}; return region_name.substring_view(0, *maybe_colon_index); } }; class Reader { AK_MAKE_NONCOPYABLE(Reader); AK_MAKE_NONMOVABLE(Reader); public: static OwnPtr create(StringView); ~Reader(); template void for_each_memory_region_info(Func func) const; struct LibraryInfo { String name; String path; FlatPtr base_address { 0 }; }; void for_each_library(Function func) const; template void for_each_thread_info(Func func) const; const ELF::Image& image() const { return m_coredump_image; } Optional peek_memory(FlatPtr address) const; Optional first_region_for_object(StringView object_name) const; Optional region_containing(FlatPtr address) const; struct LibraryData { String name; FlatPtr base_address { 0 }; NonnullRefPtr file; ELF::Image lib_elf; }; const LibraryData* library_containing(FlatPtr address) const; int process_pid() const; u8 process_termination_signal() const; String process_executable_path() const; Vector process_arguments() const; Vector process_environment() const; HashMap metadata() const; private: explicit Reader(ReadonlyBytes); explicit Reader(ByteBuffer); explicit Reader(NonnullRefPtr); static Optional decompress_coredump(ReadonlyBytes); class NotesEntryIterator { public: NotesEntryIterator(const u8* notes_data); ELF::Core::NotesEntryHeader::Type type() const; const ELF::Core::NotesEntry* current() const; void next(); bool at_end() const; private: const ELF::Core::NotesEntry* m_current { nullptr }; const u8* start { nullptr }; }; // Private as we don't need anyone poking around in this JsonObject // manually - we know very well what should be included and expose that // as getters with the appropriate (non-JsonValue) types. const JsonObject process_info() const; // For uncompressed coredumps, we keep the MappedFile RefPtr m_mapped_file; // For compressed coredumps, we decompress them into a ByteBuffer ByteBuffer m_coredump_buffer; ReadonlyBytes m_coredump_bytes; ELF::Image m_coredump_image; ssize_t m_notes_segment_index { -1 }; }; template void Reader::for_each_memory_region_info(Func func) const { NotesEntryIterator it(bit_cast(m_coredump_image.program_header(m_notes_segment_index).raw_data())); for (; !it.at_end(); it.next()) { if (it.type() != ELF::Core::NotesEntryHeader::Type::MemoryRegionInfo) continue; ELF::Core::MemoryRegionInfo raw_memory_region_info; ReadonlyBytes raw_data { it.current(), sizeof(raw_memory_region_info), }; ByteReader::load(raw_data.data(), raw_memory_region_info); MemoryRegionInfo memory_region_info { raw_memory_region_info.header, raw_memory_region_info.region_start, raw_memory_region_info.region_end, raw_memory_region_info.program_header_index, { bit_cast(raw_data.offset_pointer(raw_data.size())) }, }; IterationDecision decision = func(memory_region_info); if (decision == IterationDecision::Break) return; } } template void Reader::for_each_thread_info(Func func) const { NotesEntryIterator it(bit_cast(m_coredump_image.program_header(m_notes_segment_index).raw_data())); for (; !it.at_end(); it.next()) { if (it.type() != ELF::Core::NotesEntryHeader::Type::ThreadInfo) continue; ELF::Core::ThreadInfo thread_info; ByteReader::load(bit_cast(it.current()), thread_info); IterationDecision decision = func(thread_info); if (decision == IterationDecision::Break) return; } } }