#include "elna/cl.hpp" #include "elna/result.hpp" #include "elna/riscv.hpp" #include #include #include #include namespace elna { char *readSource(const char *source) { const std::size_t bufferSize = 255; std::ifstream input_stream{ source }; std::stringstream buffer; buffer << input_stream.rdbuf(); input_stream.close(); std::string contents = buffer.str(); char *result = reinterpret_cast(malloc(contents.size() + 1)); std::copy(std::cbegin(contents), std::cend(contents), result); result[contents.size()] = '\0'; return result; } int compile(const std::filesystem::path& in_file, const std::filesystem::path& out_file) { ELFIO::elfio writer; // You can't proceed before this function call! writer.create(ELFIO::ELFCLASS32, ELFIO::ELFDATA2LSB); writer.set_os_abi(ELFIO::ELFOSABI_NONE); writer.set_type(ELFIO::ET_REL); writer.set_machine(ELFIO::EM_RISCV); auto sourceText = readSource(in_file.c_str()); if (sourceText == nullptr) { return 3; } size_t tokensCount{ 0 }; auto lex_result = lex::lex(sourceText); free(sourceText); if (lex_result.has_errors()) { for (const auto& compile_error : lex_result.errors()) { printf("%lu:%lu: %s\n", compile_error.line(), compile_error.column(), compile_error.what()); } return 1; } auto ast = parse(lex_result.success().data(), tokensCount); if (ast == nullptr) { return 2; } auto program = writeNext(ast); // Create code section ELFIO::section* text_sec = writer.sections.add(".text"); text_sec->set_type(ELFIO::SHT_PROGBITS); text_sec->set_flags(ELFIO::SHF_ALLOC | ELFIO::SHF_EXECINSTR); text_sec->set_addr_align(0x1); text_sec->set_data(reinterpret_cast(program.text.data()), program.text.size()); // Create string table section ELFIO::section* str_sec = writer.sections.add(".strtab"); str_sec->set_type(ELFIO::SHT_STRTAB); // Create string table writer ELFIO::string_section_accessor stra(str_sec); // Add label name ELFIO::Elf32_Word str_index = stra.add_string("msg"); // Create read only data section ELFIO::section* ro_sec = writer.sections.add(".rodata"); ro_sec->set_type(ELFIO::SHT_PROGBITS); ro_sec->set_flags(ELFIO::SHF_ALLOC); ro_sec->set_addr_align(0x4); ro_sec->set_data("%d\n"); // Create symbol table section ELFIO::section* sym_sec = writer.sections.add(".symtab"); sym_sec->set_type(ELFIO::SHT_SYMTAB); sym_sec->set_info(2); sym_sec->set_addr_align(0x4); sym_sec->set_entry_size(writer.get_default_entry_size(ELFIO::SHT_SYMTAB)); sym_sec->set_link(str_sec->get_index()); // Create symbol table writer ELFIO::symbol_section_accessor syma(writer, sym_sec); auto label_sym = syma.add_symbol(stra, ".CL0", 0x00000000, strlen("%d\n") + 1, ELFIO::STB_LOCAL, ELFIO::STT_NOTYPE, 0, ro_sec->get_index()); syma.add_symbol(stra, program.name, 0x00000000, program.text.size(), ELFIO::STB_GLOBAL, ELFIO::STT_FUNC, 0, text_sec->get_index()); auto printf_sym = syma.add_symbol(stra, "printf", 0x00000000, 0, ELFIO::STB_GLOBAL, ELFIO::STT_NOTYPE, 0, ELFIO::SHN_UNDEF); // Create relocation table section ELFIO::section* rel_sec = writer.sections.add(".rel.text"); rel_sec->set_type(ELFIO::SHT_REL); rel_sec->set_info(text_sec->get_index()); rel_sec->set_addr_align(0x4); rel_sec->set_entry_size(writer.get_default_entry_size(ELFIO::SHT_REL)); rel_sec->set_link(sym_sec->get_index()); rel_sec->set_flags(ELFIO::SHF_ALLOC); // Create relocation table writer ELFIO::relocation_section_accessor rela(writer, rel_sec); // Add relocation entry (adjust address at offset 11) rela.add_entry(program.symbols[0].offset, label_sym, 26 /* ELFIO::R_RISCV_HI20 */); rela.add_entry(program.symbols[0].offset, label_sym, 51 /* ELFIO::R_RISCV_RELAX */); rela.add_entry(program.symbols[1].offset, label_sym, 27 /* ELFIO::R_RISCV_LO12_I */); rela.add_entry(program.symbols[1].offset, label_sym, 51 /* ELFIO::R_RISCV_RELAX */); rela.add_entry(program.symbols[2].offset, printf_sym, 18 /* ELFIO::R_RISCV_CALL */); rela.add_entry(program.symbols[2].offset, printf_sym, 51 /* ELFIO::R_RISCV_RELAX */); // Create ELF object file writer.save(out_file); return 0; } }