#!/usr/bin/env python3 # # Copyright (c) 2018 Intel Corporation # # SPDX-License-Identifier: Apache-2.0 """ Script to generate a linker script organizing application memory partitions Applications may declare build-time memory domain partitions with K_APPMEM_PARTITION_DEFINE, and assign globals to them using K_APP_DMEM or K_APP_BMEM macros. For each of these partitions, we need to route all their data into appropriately-sized memory areas which meet the size/alignment constraints of the memory protection hardware. This linker script is created very early in the build process, before the build attempts to link the kernel binary, as the linker script this tool generates is a necessary pre-condition for kernel linking. We extract the set of memory partitions to generate by looking for variables which have been assigned to input sections that follow a defined naming convention. We also allow entire libraries to be pulled in to assign their globals to a particular memory partition via command line directives. This script takes as inputs: - The base directory to look for compiled objects - key/value pairs mapping static library files to what partitions their globals should end up in. The output is a linker script fragment containing the definition of the app shared memory section, which is further divided, for each partition found, into data and BSS for each partition. """ import sys import argparse import os import re import string import subprocess from collections import OrderedDict from elf_helper import ElfHelper from elftools.elf.elffile import ELFFile from elftools.elf.sections import SymbolTableSection from operator import itemgetter SZ = 'size' SRC = 'sources' LIB = 'libraries' # This script will create sections and linker variables to place the # application shared memory partitions. # these are later read by the macros defined in app_memdomain.h for # initialization purpose when USERSPACE is enabled. data_template = """ /* Auto generated code do not modify */ SMEM_PARTITION_ALIGN(z_data_smem_{0}_bss_end - z_data_smem_{0}_part_start); z_data_smem_{0}_part_start = .; KEEP(*(data_smem_{0}_data)) """ library_data_template = """ *{0}:*(.data .data.*) """ bss_template = """ z_data_smem_{0}_bss_start = .; KEEP(*(data_smem_{0}_bss)) """ library_bss_template = """ *{0}:*(.bss .bss.* COMMON COMMON.*) """ footer_template = """ z_data_smem_{0}_bss_end = .; SMEM_PARTITION_ALIGN(z_data_smem_{0}_bss_end - z_data_smem_{0}_part_start); z_data_smem_{0}_part_end = .; """ linker_start_seq = """ SECTION_PROLOGUE(_APP_SMEM_SECTION_NAME,,) { APP_SHARED_ALIGN; _app_smem_start = .; """ linker_end_seq = """ APP_SHARED_ALIGN; _app_smem_end = .; } GROUP_DATA_LINK_IN(RAMABLE_REGION, ROMABLE_REGION) """ size_cal_string = """ z_data_smem_{0}_part_size = z_data_smem_{0}_part_end - z_data_smem_{0}_part_start; z_data_smem_{0}_bss_size = z_data_smem_{0}_bss_end - z_data_smem_{0}_bss_start; """ section_regex = re.compile(r'data_smem_([A-Za-z0-9_]*)_(data|bss)') elf_part_size_regex = re.compile(r'z_data_smem_(.*)_part_size') def find_obj_file_partitions(filename, partitions): with open(filename, 'rb') as f: full_lib = ELFFile( f) if not full_lib: sys.exit("Error parsing file: " + filename) sections = [x for x in full_lib.iter_sections()] for section in sections: m = section_regex.match(section.name) if not m: continue partition_name = m.groups()[0] if partition_name not in partitions: partitions[partition_name] = {SZ: section.header.sh_size} if args.verbose: partitions[partition_name][SRC] = filename else: partitions[partition_name][SZ] += section.header.sh_size return partitions def parse_obj_files(partitions): # Iterate over all object files to find partitions for dirpath, dirs, files in os.walk(args.directory): for filename in files: if re.match(".*\.obj$",filename): fullname = os.path.join(dirpath, filename) find_obj_file_partitions(fullname, partitions) def parse_elf_file(partitions): with open(args.elf, 'rb') as f: elffile = ELFFile(f) symbol_tbls = [s for s in elffile.iter_sections() if isinstance(s, SymbolTableSection)] for section in symbol_tbls: for nsym, symbol in enumerate(section.iter_symbols()): if symbol['st_shndx'] != "SHN_ABS": continue x = elf_part_size_regex.match(symbol.name) if not x: continue partition_name = x.groups()[0] size = symbol['st_value'] if partition_name not in partitions: partitions[partition_name] = {SZ: size} if args.verbose: partitions[partition_name][SRC] = args.elf else: partitions[partition_name][SZ] += size def generate_final_linker(linker_file, partitions): string = linker_start_seq size_string = '' for partition, item in partitions.items(): string += data_template.format(partition) if LIB in item: for lib in item[LIB]: string += library_data_template.format(lib) string += bss_template.format(partition) if LIB in item: for lib in item[LIB]: string += library_bss_template.format(lib) string += footer_template.format(partition) size_string += size_cal_string.format(partition) string += linker_end_seq string += size_string with open(linker_file, "w") as fw: fw.write(string) def parse_args(): global args parser = argparse.ArgumentParser( description=__doc__, formatter_class=argparse.RawDescriptionHelpFormatter) parser.add_argument("-d", "--directory", required=False, default=None, help="Root build directory") parser.add_argument("-e", "--elf", required=False, default=None, help="ELF file") parser.add_argument("-o", "--output", required=False, help="Output ld file") parser.add_argument("-v", "--verbose", action="count", default =0, help="Verbose Output") parser.add_argument("-l", "--library", nargs=2, action="append", default=[], metavar=("LIBRARY", "PARTITION"), help="Include globals for a particular library or object filename into a designated partition") args = parser.parse_args() def main(): parse_args() linker_file = args.output partitions = {} if args.directory is not None: parse_obj_files(partitions) elif args.elf is not None: parse_elf_file(partitions) else: return for lib, ptn in args.library: if ptn not in partitions: partitions[ptn] = {} if LIB not in partitions[ptn]: partitions[ptn][LIB] = [lib] else: partitions[ptn][LIB].append(lib) partsorted = OrderedDict(sorted(partitions.items(), key=lambda x: x[1][SZ], reverse=True)) generate_final_linker(args.output, partsorted) if args.verbose: print("Partitions retrieved:") for key in partsorted: print(" {0}: size {1}: {2}".format(key, partsorted[key][SZ], partsorted[key][SRC])) if __name__ == '__main__': main()