/* * Copyright (c) 2018-2021, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include namespace ELF { Image::Image(ReadonlyBytes bytes, bool verbose_logging) : m_buffer(bytes.data()) , m_size(bytes.size()) , m_verbose_logging(verbose_logging) { parse(); } Image::Image(const u8* buffer, size_t size, bool verbose_logging) : Image(ReadonlyBytes { buffer, size }, verbose_logging) { } Image::~Image() { } #if ELF_IMAGE_DEBUG static const char* object_file_type_to_string(Elf32_Half type) { switch (type) { case ET_NONE: return "None"; case ET_REL: return "Relocatable"; case ET_EXEC: return "Executable"; case ET_DYN: return "Shared object"; case ET_CORE: return "Core"; default: return "(?)"; } } #endif StringView Image::section_index_to_string(unsigned index) const { VERIFY(m_valid); if (index == SHN_UNDEF) return "Undefined"sv; if (index >= SHN_LORESERVE) return "Reserved"sv; return section(index).name(); } unsigned Image::symbol_count() const { VERIFY(m_valid); if (!section_count()) return 0; return section(m_symbol_table_section_index).entry_count(); } void Image::dump() const { #if ELF_IMAGE_DEBUG dbgln("ELF::Image({:p}) {{", this); dbgln(" is_valid: {}", is_valid()); if (!is_valid()) { dbgln("}}"); return; } dbgln(" type: {}", object_file_type_to_string(header().e_type)); dbgln(" machine: {}", header().e_machine); dbgln(" entry: {:x}", header().e_entry); dbgln(" shoff: {}", header().e_shoff); dbgln(" shnum: {}", header().e_shnum); dbgln(" phoff: {}", header().e_phoff); dbgln(" phnum: {}", header().e_phnum); dbgln(" shstrndx: {}", header().e_shstrndx); for_each_program_header([&](const ProgramHeader& program_header) { dbgln(" Program Header {}: {{", program_header.index()); dbgln(" type: {:x}", program_header.type()); dbgln(" offset: {:x}", program_header.offset()); dbgln(" flags: {:x}", program_header.flags()); dbgln(" }}"); }); for (unsigned i = 0; i < header().e_shnum; ++i) { const auto& section = this->section(i); dbgln(" Section {}: {{", i); dbgln(" name: {}", section.name()); dbgln(" type: {:x}", section.type()); dbgln(" offset: {:x}", section.offset()); dbgln(" size: {}", section.size()); dbgln(" "); dbgln(" }}"); } dbgln("Symbol count: {} (table is {})", symbol_count(), m_symbol_table_section_index); for (unsigned i = 1; i < symbol_count(); ++i) { const auto& sym = symbol(i); dbgln("Symbol @{}:", i); dbgln(" Name: {}", sym.name()); dbgln(" In section: {}", section_index_to_string(sym.section_index())); dbgln(" Value: {}", sym.value()); dbgln(" Size: {}", sym.size()); } dbgln("}}"); #endif } unsigned Image::section_count() const { VERIFY(m_valid); return header().e_shnum; } unsigned Image::program_header_count() const { VERIFY(m_valid); return header().e_phnum; } bool Image::parse() { if (m_size < sizeof(Elf32_Ehdr) || !validate_elf_header(header(), m_size, m_verbose_logging)) { if (m_verbose_logging) dbgln("ELF::Image::parse(): ELF Header not valid"); m_valid = false; return false; } if (!validate_program_headers(header(), m_size, m_buffer, m_size, nullptr, m_verbose_logging)) { if (m_verbose_logging) dbgln("ELF::Image::parse(): ELF Program Headers not valid"); m_valid = false; return false; } m_valid = true; // First locate the string tables. for (unsigned i = 0; i < section_count(); ++i) { auto& sh = section_header(i); if (sh.sh_type == SHT_SYMTAB) { if (m_symbol_table_section_index && m_symbol_table_section_index != i) { m_valid = false; return false; } m_symbol_table_section_index = i; } if (sh.sh_type == SHT_STRTAB && i != header().e_shstrndx) { if (section_header_table_string(sh.sh_name) == ELF_STRTAB) m_string_table_section_index = i; } } return m_valid; } StringView Image::table_string(unsigned table_index, unsigned offset) const { VERIFY(m_valid); auto& sh = section_header(table_index); if (sh.sh_type != SHT_STRTAB) return nullptr; size_t computed_offset = sh.sh_offset + offset; if (computed_offset >= m_size) { if (m_verbose_logging) dbgln("SHENANIGANS! Image::table_string() computed offset outside image."); return {}; } size_t max_length = min(m_size - computed_offset, (size_t)PAGE_SIZE); size_t length = strnlen(raw_data(sh.sh_offset + offset), max_length); return { raw_data(sh.sh_offset + offset), length }; } StringView Image::section_header_table_string(unsigned offset) const { VERIFY(m_valid); return table_string(header().e_shstrndx, offset); } StringView Image::table_string(unsigned offset) const { VERIFY(m_valid); return table_string(m_string_table_section_index, offset); } const char* Image::raw_data(unsigned offset) const { VERIFY(offset < m_size); // Callers must check indices into raw_data()'s result are also in bounds. return reinterpret_cast(m_buffer) + offset; } const Elf32_Ehdr& Image::header() const { VERIFY(m_size >= sizeof(Elf32_Ehdr)); return *reinterpret_cast(raw_data(0)); } const Elf32_Phdr& Image::program_header_internal(unsigned index) const { VERIFY(m_valid); VERIFY(index < header().e_phnum); return *reinterpret_cast(raw_data(header().e_phoff + (index * sizeof(Elf32_Phdr)))); } const Elf32_Shdr& Image::section_header(unsigned index) const { VERIFY(m_valid); VERIFY(index < header().e_shnum); return *reinterpret_cast(raw_data(header().e_shoff + (index * header().e_shentsize))); } Image::Symbol Image::symbol(unsigned index) const { VERIFY(m_valid); VERIFY(index < symbol_count()); auto* raw_syms = reinterpret_cast(raw_data(section(m_symbol_table_section_index).offset())); return Symbol(*this, index, raw_syms[index]); } Image::Section Image::section(unsigned index) const { VERIFY(m_valid); VERIFY(index < section_count()); return Section(*this, index); } Image::ProgramHeader Image::program_header(unsigned index) const { VERIFY(m_valid); VERIFY(index < program_header_count()); return ProgramHeader(*this, index); } Image::Relocation Image::RelocationSection::relocation(unsigned index) const { VERIFY(index < relocation_count()); auto* rels = reinterpret_cast(m_image.raw_data(offset())); return Relocation(m_image, rels[index]); } Optional Image::Section::relocations() const { StringBuilder builder; builder.append(".rel"sv); builder.append(name()); auto relocation_section = m_image.lookup_section(builder.to_string()); if (!relocation_section.has_value()) return {}; dbgln_if(ELF_IMAGE_DEBUG, "Found relocations for {} in {}", name(), relocation_section.value().name()); return static_cast(relocation_section.value()); } Optional Image::lookup_section(const StringView& name) const { VERIFY(m_valid); for (unsigned i = 0; i < section_count(); ++i) { auto section = this->section(i); if (section.name() == name) return section; } return {}; } StringView Image::Symbol::raw_data() const { auto section = this->section(); return { section.raw_data() + (value() - section.address()), size() }; } Optional Image::find_demangled_function(const StringView& name) const { Optional found; for_each_symbol([&](const Image::Symbol& symbol) { if (symbol.type() != STT_FUNC) return IterationDecision::Continue; if (symbol.is_undefined()) return IterationDecision::Continue; auto demangled = demangle(symbol.name()); auto index_of_paren = demangled.find('('); if (index_of_paren.has_value()) { demangled = demangled.substring(0, index_of_paren.value()); } if (demangled != name) return IterationDecision::Continue; found = symbol; return IterationDecision::Break; }); return found; } Image::SortedSymbol* Image::find_sorted_symbol(FlatPtr address) const { if (m_sorted_symbols.is_empty()) sort_symbols(); size_t index = 0; binary_search(m_sorted_symbols, nullptr, &index, [&address](auto, auto& candidate) { if (address < candidate.address) return -1; else if (address > candidate.address) return 1; else return 0; }); // FIXME: The error path here feels strange, index == 0 means error but what about symbol #0? if (index == 0) return nullptr; return &m_sorted_symbols[index]; } Optional Image::find_symbol(u32 address, u32* out_offset) const { auto symbol_count = this->symbol_count(); if (!symbol_count) return {}; auto* symbol = find_sorted_symbol(address); if (!symbol) return {}; if (out_offset) *out_offset = address - symbol->address; return symbol->symbol; } NEVER_INLINE void Image::sort_symbols() const { m_sorted_symbols.ensure_capacity(symbol_count()); for_each_symbol([this](const auto& symbol) { m_sorted_symbols.append({ symbol.value(), symbol.name(), {}, symbol }); }); quick_sort(m_sorted_symbols, [](auto& a, auto& b) { return a.address < b.address; }); } String Image::symbolicate(u32 address, u32* out_offset) const { auto symbol_count = this->symbol_count(); if (!symbol_count) { if (out_offset) *out_offset = 0; return "??"; } auto* symbol = find_sorted_symbol(address); if (!symbol) { if (out_offset) *out_offset = 0; return "??"; } auto& demangled_name = symbol->demangled_name; if (demangled_name.is_null()) demangled_name = demangle(symbol->name); if (out_offset) { *out_offset = address - symbol->address; return demangled_name; } return String::formatted("{} +{:#x}", demangled_name, address - symbol->address); } } // end namespace ELF