#pragma once #include #include #include #include "elf.h" #include "types.h" class ELFImage { public: explicit ELFImage(const byte*); ~ELFImage(); void dump(); bool is_valid() const { return m_valid; } bool parse(); class Section; class RelocationSection; class Symbol; class Relocation; class Symbol { public: Symbol(const ELFImage& image, unsigned index, const Elf32_Sym& sym) : m_image(image) , m_sym(sym) , m_index(index) { } ~Symbol() { } const char* name() const { return m_image.table_string(m_sym.st_name); } unsigned section_index() const { return m_sym.st_shndx; } unsigned value() const { return m_sym.st_value; } unsigned size() const { return m_sym.st_size; } unsigned index() const { return m_index; } unsigned type() const { return ELF32_ST_TYPE(m_sym.st_info); } const Section section() const { return m_image.section(section_index()); } private: const ELFImage& m_image; const Elf32_Sym& m_sym; const unsigned m_index; }; class ProgramHeader { public: ProgramHeader(const ELFImage& image, unsigned program_header_index) : m_program_header(image.program_header_internal(program_header_index)) , m_program_header_index(program_header_index) { } ~ProgramHeader() { } unsigned index() const { return m_program_header_index; } dword type() const { return m_program_header.p_type; } dword flags() const { return m_program_header.p_flags; } dword offset() const { return m_program_header.p_offset; } LinearAddress laddr() const { return LinearAddress(m_program_header.p_vaddr); } dword size_in_memory() const { return m_program_header.p_memsz; } dword size_in_image() const { return m_program_header.p_filesz; } dword alignment() const { return m_program_header.p_align; } bool is_readable() const { return flags() & PF_R; } bool is_writable() const { return flags() & PF_W; } bool is_executable() const { return flags() & PF_X; } private: const Elf32_Phdr& m_program_header; unsigned m_program_header_index { 0 }; }; class Section { public: Section(const ELFImage& image, unsigned sectionIndex) : m_image(image) , m_section_header(image.section_header(sectionIndex)) , m_section_index(sectionIndex) { } ~Section() { } const char* name() const { return m_image.section_header_table_string(m_section_header.sh_name); } unsigned type() const { return m_section_header.sh_type; } unsigned offset() const { return m_section_header.sh_offset; } unsigned size() const { return m_section_header.sh_size; } unsigned entry_size() const { return m_section_header.sh_entsize; } unsigned entry_count() const { return size() / entry_size(); } dword address() const { return m_section_header.sh_addr; } const char* raw_data() const { return m_image.raw_data(m_section_header.sh_offset); } bool is_undefined() const { return m_section_index == SHN_UNDEF; } #ifdef SUPPORT_RELOCATIONS const RelocationSection relocations() const; #endif dword flags() const { return m_section_header.sh_flags; } bool is_writable() const { return flags() & SHF_WRITE; } bool is_executable() const { return flags() & PF_X; } protected: friend class RelocationSection; const ELFImage& m_image; const Elf32_Shdr& m_section_header; unsigned m_section_index; }; #ifdef SUPPORT_RELOCATIONS class RelocationSection : public Section { public: RelocationSection(const Section& section) : Section(section.m_image, section.m_section_index) { } unsigned relocation_count() const { return entry_count(); } const Relocation relocation(unsigned index) const; template void for_each_relocation(F) const; }; class Relocation { public: Relocation(const ELFImage& image, const Elf32_Rel& rel) : m_image(image) , m_rel(rel) { } ~Relocation() { } unsigned offset() const { return m_rel.r_offset; } unsigned type() const { return ELF32_R_TYPE(m_rel.r_info); } unsigned symbol_index() const { return ELF32_R_SYM(m_rel.r_info); } const Symbol symbol() const { return m_image.symbol(symbol_index()); } private: const ELFImage& m_image; const Elf32_Rel& m_rel; }; #endif unsigned symbol_count() const; unsigned section_count() const; unsigned program_header_count() const; const Symbol symbol(unsigned) const; const Section section(unsigned) const; const ProgramHeader program_header(unsigned const) const; template void for_each_section(F) const; template void for_each_section_of_type(unsigned, F) const; template void for_each_symbol(F) const; template void for_each_program_header(F) const; // NOTE: Returns section(0) if section with name is not found. // FIXME: I don't love this API. const Section lookup_section(const char* name) const; bool is_executable() const { return header().e_type == ET_EXEC; } bool is_relocatable() const { return header().e_type == ET_REL; } LinearAddress entry() const { return LinearAddress(header().e_entry); } private: bool parse_header(); const char* raw_data(unsigned offset) const; const Elf32_Ehdr& header() const; const Elf32_Shdr& section_header(unsigned) const; const Elf32_Phdr& program_header_internal(unsigned) const; const char* table_string(unsigned offset) const; const char* section_header_table_string(unsigned offset) const; const char* section_index_to_string(unsigned index); const byte* m_buffer { nullptr }; #ifdef SUPPORT_RELOCATIONS HashMap m_sections; #endif bool m_valid { false }; unsigned m_symbol_table_section_index { 0 }; unsigned m_string_table_section_index { 0 }; }; template inline void ELFImage::for_each_section(F func) const { for (unsigned i = 0; i < section_count(); ++i) func(section(i)); } template inline void ELFImage::for_each_section_of_type(unsigned type, F func) const { for (unsigned i = 0; i < section_count(); ++i) { auto& section = this->section(i); if (section.type() == type) { if (!func(section)) break; } } } #ifdef SUPPORT_RELOCATIONS template inline void ELFImage::RelocationSection::for_each_relocation(F func) const { for (unsigned i = 0; i < relocation_count(); ++i) { if (!func(relocation(i))) break; } } #endif template inline void ELFImage::for_each_symbol(F func) const { for (unsigned i = 0; i < symbol_count(); ++i) { if (!func(symbol(i))) break; } } template inline void ELFImage::for_each_program_header(F func) const { for (unsigned i = 0; i < program_header_count(); ++i) func(program_header(i)); }