#!/usr/bin/env python3 # # Copyright (c) 2021 Intel Corporation # # SPDX-License-Identifier: Apache-2.0 """ Process ELF file to generate placeholders for kobject hash table and lookup functions produced by gperf, since their sizes depend on how many kobjects have been declared. The output header files will be used during linking for intermediate output binaries so that the addresses of these kobjects would remain the same during later stages of linking. """ import sys import argparse import os from packaging import version import elftools from elftools.elf.elffile import ELFFile if version.parse(elftools.__version__) < version.parse('0.24'): sys.exit("pyelftools is out of date, need version 0.24 or later") def write_define(out_fp, prefix, name, value): """Write the #define to output file""" define_name = f"KOBJECT_{prefix}_{name}" out_fp.write(f"#ifndef {define_name}\n") out_fp.write(f"#define {define_name} {value}\n") out_fp.write("#endif\n\n") def output_simple_header(one_sect): """Write the header for kobject section""" out_fn = os.path.join(args.outdir, f"linker-kobject-prebuilt-{one_sect['name']}.h") out_fp = open(out_fn, "w") if one_sect['exists']: align = one_sect['align'] size = one_sect['size'] prefix = one_sect['define_prefix'] write_define(out_fp, prefix, 'ALIGN', align) write_define(out_fp, prefix, 'SZ', size) out_fp.close() def generate_linker_headers(obj): """Generate linker header files to be included by the linker script""" # Sections we are interested in sections = { ".data": { "name": "data", "define_prefix": "DATA", "exists": False, "multiplier": int(args.datapct) + 100, }, ".rodata": { "name": "rodata", "define_prefix": "RODATA", "exists": False, "extra_bytes": args.rodata, }, ".priv_stacks.noinit": { "name": "priv-stacks", "define_prefix": "PRIV_STACKS", "exists": False, }, } for one_sect in obj.iter_sections(): # REALLY NEED to match exact type as all other sections # (symbol, debug, etc.) are descendants where # isinstance() would match. if type(one_sect) is not elftools.elf.sections.Section: # pylint: disable=unidiomatic-typecheck continue name = one_sect.name if name in sections: # Need section alignment and size sections[name]['align'] = one_sect['sh_addralign'] sections[name]['size'] = one_sect['sh_size'] sections[name]['exists'] = True if "multiplier" in sections[name]: sections[name]['size'] *= sections[name]['multiplier'] / 100 sections[name]['size'] = int(sections[name]['size']) if "extra_bytes" in sections[name]: sections[name]['size'] += int(sections[name]['extra_bytes']) for one_sect in sections: output_simple_header(sections[one_sect]) def parse_args(): """Parse command line arguments""" global args parser = argparse.ArgumentParser( description=__doc__, formatter_class=argparse.RawDescriptionHelpFormatter, allow_abbrev=False) parser.add_argument("--object", required=True, help="Points to kobject_prebuilt_hash.c.obj") parser.add_argument("--outdir", required=True, help="Output directory (/include/generated)") parser.add_argument("--datapct", required=True, help="Multiplier to the size of reserved space for DATA region") parser.add_argument("--rodata", required=True, help="Extra bytes to reserve for RODATA region") parser.add_argument("-v", "--verbose", action="store_true", help="Verbose messages") args = parser.parse_args() if "VERBOSE" in os.environ: args.verbose = 1 def main(): """Main program""" parse_args() with open(args.object, "rb") as obj_fp: obj = ELFFile(obj_fp) generate_linker_headers(obj) if __name__ == "__main__": main()