scripts/build/llext_prepare_exptab.py - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright (c) 2024 STMicroelectronics
 # SPDX-License-Identifier: Apache-2.0

 """
 Script to prepare the LLEXT exports table of a Zephyr ELF

 This script performs compile-time processing of the LLEXT exports
 table for usage at runtime by the LLEXT subsystem code. The table
 is a special section filled with 'llext_const_symbol' structures
 generated by the EXPORT_SYMBOL macro.

 Currently, the preparatory work consists mostly of sorting the
 exports table to allow usage of binary search algorithms at runtime.
 If CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID option is enabled, SLIDs
 of all exported functions are also injected in the export table by
 this script. (In this case, the preparation process is destructive)
 """

 import llext_slidlib

 from elftools.elf.elffile import ELFFile
 from elftools.elf.sections import Section

 import argparse
 import logging
 import pathlib
 import struct
 import sys

 #!!!!! WARNING !!!!!
 #
 #These constants MUST be kept in sync with the linker scripts
 #and the EXPORT_SYMBOL macro located in 'subsys/llext/llext.h'.
 #Otherwise, the LLEXT subsystem will be broken!
 #
 #!!!!! WARNING !!!!!

 LLEXT_EXPORT_TABLE_SECTION_NAME = "llext_const_symbol_area"
 LLEXT_EXPORT_NAMES_SECTION_NAME = "llext_exports_strtab"

 def _llext_const_symbol_struct(ptr_size: int, endianness: str):
     """
     ptr_size -- Platform pointer size in bytes
     endianness -- Platform endianness ('little'/'big')
     """
     endspec = "<" if endianness == 'little' else ">"
     if ptr_size == 4:
         ptrspec = "I"
     elif ptr_size == 8:
         ptrspec = "Q"

     # struct llext_const_symbol
     # contains just two pointers.
     lcs_spec = endspec + 2 * ptrspec
     return struct.Struct(lcs_spec)

 #ELF Shdr flag applied to the export table section, to indicate
 #the section has already been prepared by this script. This is
 #mostly a security measure to prevent the script from running
 #twice on the same ELF file, which can result in catastrophic
 #failures if SLID-based linking is enabled (in this case, the
 #preparation process is destructive).
 #
 #This flag is part of the SHF_MASKOS mask, of which all bits
 #are "reserved for operating system-specific semantics".
 #See: https://refspecs.linuxbase.org/elf/gabi4+/ch4.sheader.html
 SHF_LLEXT_PREPARATION_DONE = 0x08000000

 class SectionDescriptor():
     """ELF Section descriptor

     This is a wrapper class around pyelftools' "Section" object.
     """
     def __init__(self, elffile, section_name):
         self.name = section_name
         self.section = elffile.get_section_by_name(section_name)
         if not isinstance(self.section, Section):
             raise KeyError(f"section {section_name} not found")

         self.shdr_index = elffile.get_section_index(section_name)
         self.shdr_offset = elffile['e_shoff'] + \
             self.shdr_index * elffile['e_shentsize']
         self.size = self.section['sh_size']
         self.flags = self.section['sh_flags']
         self.offset = self.section['sh_offset']

 class LLEXTExptabManipulator():
     """Class used to wrap the LLEXT export table manipulation."""
     def __init__(self, elf_fd, exptab_file_offset, lcs_struct, exports_count):
         self.fd = elf_fd
         self.exports_count = exports_count
         self.base_offset = exptab_file_offset
         self.lcs_struct = lcs_struct

     def _seek_to_sym(self, index):
         self.fd.seek(self.base_offset + index * self.lcs_struct.size)

     def __getitem__(self, index):
         if not isinstance(index, int):
             raise TypeError(f"invalid type {type(index)} for index")

         if index >= self.exports_count:
             raise IndexError(f"index {index} is out of bounds (max {self.exports_count})")

         self._seek_to_sym(index)
         return self.lcs_struct.unpack(self.fd.read(self.lcs_struct.size))

     def __setitem__(self, index, item):
         if not isinstance(index, int):
             raise TypeError(f"invalid type {type(index)} for index")

         if index >= self.exports_count:
             raise IndexError(f"index {index} is out of bounds (max {self.exports_count})")

         (addr_or_slid, sym_addr) = item

         self._seek_to_sym(index)
         self.fd.write(self.lcs_struct.pack(addr_or_slid, sym_addr))

 class ZephyrElfExptabPreparator():
     """Prepares the LLEXT export table of a Zephyr ELF.

     Attributes:
         elf_path: path to the Zephyr ELF to prepare
         log: a logging.Logger object
         slid_listing_path: path to the file where SLID listing should be saved
     """
     def __init__(self, elf_path: str, log: logging.Logger, slid_listing_path: str | None):
         self.elf_path = elf_path
         self.elf_fd = open(self.elf_path, 'rb+')
         self.elf = ELFFile(self.elf_fd)
         self.log = log

         # Lazy-open the SLID listing file to ensure it is only created when necessary
         self.slid_listing_path = slid_listing_path
         self.slid_listing_fd = None

     def _prepare_exptab_for_slid_linking(self):
         """
         IMPLEMENTATION NOTES:
           In the linker script, we declare the export names table
           as starting at address 0. Thanks to this, all "pointers"
           to that section are equal to the offset inside the section.
           Also note that symbol names are always NUL-terminated.

           The export table is sorted by SLID in ASCENDING order.
         """
         def read_symbol_name(name_ptr):
             raw_name = b''
             self.elf_fd.seek(self.expstrtab_section.offset + name_ptr)

             c = self.elf_fd.read(1)
             while c != b'\0':
                 raw_name += c
                 c = self.elf_fd.read(1)

             return raw_name.decode("utf-8")

         #1) Load the export table
         exports_list = []
         for (name_ptr, export_address) in self.exptab_manipulator:
             export_name = read_symbol_name(name_ptr)
             exports_list.append((export_name, export_address))

         #2) Generate the SLID for all exports
         collided = False
         sorted_exptab = dict()
         for export_name, export_addr in exports_list:
             slid = llext_slidlib.generate_slid(export_name, self.ptrsize)

             collision = sorted_exptab.get(slid)
             if collision:
                 #Don't abort immediately on collision: if there are others, we want to log them all.
                 self.log.error(f"SLID collision: {export_name} and {collision[0]} have the same SLID 0x{slid:X}")
                 collided = True
             else:
                 sorted_exptab[slid] = (export_name, export_addr)

         if collided:
             return 1

         #3) Sort the export table (order specified above)
         sorted_exptab = dict(sorted(sorted_exptab.items()))

         #4) Write the updated export table to ELF, and dump
         #to SLID listing if requested by caller
         if self.slid_listing_path:
             self.slid_listing_fd = open(self.slid_listing_path, "w")

         def slidlist_write(msg):
             if self.slid_listing_fd:
                 self.slid_listing_fd.write(msg + "\n")

         slidlist_write(f"/* SLID listing generated by {__file__} */")
         slidlist_write("//")
         slidlist_write("// This file contains the 'SLID -> name' mapping for all")
         slidlist_write("// symbols exported to LLEXT by this Zephyr executable.")
         slidlist_write("")

         self.log.info("SLID -> export name mapping:")

         i = 0
         for (slid, name_and_symaddr) in sorted_exptab.items():
             slid_as_str = llext_slidlib.format_slid(slid, self.ptrsize)
             msg = f"{slid_as_str} -> {name_and_symaddr[0]}"
             self.log.info(msg)
             slidlist_write(msg)

             self.exptab_manipulator[i] = (slid, name_and_symaddr[1])
             i += 1

         if self.slid_listing_fd:
             self.slid_listing_fd.close()

         return 0

     def _prepare_exptab_for_str_linking(self):
         #TODO: sort the export table by symbol
         #      name to allow binary search too
         #
         # Plan of action:
         #   1) Locate in which section the names are located
         #   2) Load the export table and resolve names
         #   3) Sort the exports by name
         #       WARN: THIS MUST USE THE SAME SORTING RULES
         #       AS LLEXT CODE OR DICHOTOMIC SEARCH WILL BREAK
         #       Using a custom sorting function might be required.
         #   4) Write back the updated export table
         #
         # N.B.: reusing part of the code in _prepare_elf_for_slid_linking
         # might be possible and desireable.
         #
         # As of writing, this function will never be called as this script
         # is only called if CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID is enabled,
         # which makes _prepare_exptab_for_slid_linking be called instead.
         #
         self.log.warn(f"_prepare_exptab_for_str_linking: do nothing")
         return 0

     def _set_prep_done_shdr_flag(self):
         #Offset and size of the 'sh_flags' member of
         #the Elf_Shdr structure. The offset does not
         #change between ELF32 and ELF64. Size in both
         #is equal to pointer size (4 bytes for ELF32,
         #8 bytes for ELF64).
         SHF_OFFSET = 8
         SHF_SIZE = self.ptrsize

         off = self.exptab_section.shdr_offset + SHF_OFFSET

         #Read existing sh_flags, set the PREPARATION_DONE flag
         #and write back the new value.
         self.elf_fd.seek(off)
         sh_flags = int.from_bytes(self.elf_fd.read(SHF_SIZE), self.endianness)

         sh_flags |= SHF_LLEXT_PREPARATION_DONE

         self.elf_fd.seek(off)
         self.elf_fd.write(int.to_bytes(sh_flags, self.ptrsize, self.endianness))

     def _prepare_inner(self):
         # Locate the export table section
         try:
             self.exptab_section = SectionDescriptor(
                 self.elf, LLEXT_EXPORT_TABLE_SECTION_NAME)
         except KeyError as e:
             self.log.error(e.args[0])
             return 1

         # Abort if the ELF has already been processed
         if (self.exptab_section.flags & SHF_LLEXT_PREPARATION_DONE) != 0:
             self.log.warning("exptab section flagged with LLEXT_PREPARATION_DONE "
                 "- not preparing again")
             return 0

         # Get the struct.Struct for export table entry
         self.ptrsize = self.elf.elfclass // 8
         self.endianness = 'little' if self.elf.little_endian else 'big'
         self.lcs_struct = _llext_const_symbol_struct(self.ptrsize, self.endianness)

         # Verify that the export table size is coherent
         if (self.exptab_section.size % self.lcs_struct.size) != 0:
             self.log.error(f"export table size (0x{self.exptab_section.size:X}) "
                 f"not aligned to 'llext_const_symbol' size (0x{self.lcs_struct.size:X})")
             return 1

         # Create the export table manipulator
         num_exports = self.exptab_section.size // self.lcs_struct.size
         self.exptab_manipulator = LLEXTExptabManipulator(
             self.elf_fd, self.exptab_section.offset, self.lcs_struct, num_exports)

         # Attempt to locate the export names section
         try:
             self.expstrtab_section = SectionDescriptor(
                 self.elf, LLEXT_EXPORT_NAMES_SECTION_NAME)
         except KeyError:
             self.expstrtab_section = None

         self.log.debug(f"exports table section at file offset 0x{self.exptab_section.offset:X}")
         if self.expstrtab_section:
             self.log.debug(f"exports strtab section at file offset 0x{self.expstrtab_section.offset:X}")
         else:
             self.log.debug("no exports strtab section in ELF")
         self.log.info(f"{num_exports} symbols are exported to LLEXTs by this ELF")

         # Perform the export table preparation
         if self.expstrtab_section:
             res = self._prepare_exptab_for_slid_linking()
         else:
             res = self._prepare_exptab_for_str_linking()

         if res == 0: # Add the "prepared" flag to export table section
             self._set_prep_done_shdr_flag()

     def prepare_elf(self):
         res = self._prepare_inner()
         self.elf_fd.close()
         return res

 # pylint: disable=duplicate-code
 def _parse_args(argv):
     """Parse the command line arguments."""
     parser = argparse.ArgumentParser(
         description=__doc__,
         formatter_class=argparse.RawDescriptionHelpFormatter,
         allow_abbrev=False)

     parser.add_argument("-f", "--elf-file", default=pathlib.Path("build", "zephyr", "zephyr.elf"),
                         help="ELF file to process")
     parser.add_argument("-sl", "--slid-listing",
                         help=("write the SLID listing to a file (only useful"
                               "when CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID is enabled) "))
     parser.add_argument("-v", "--verbose", action="count",
                         help=("enable verbose output, can be used multiple times "
                               "to increase verbosity level"))
     parser.add_argument("--always-succeed", action="store_true",
                         help="always exit with a return code of 0, used for testing")

     return parser.parse_args(argv)

 def _init_log(verbose):
     """Initialize a logger object."""
     log = logging.getLogger(__file__)

     console = logging.StreamHandler()
     console.setFormatter(logging.Formatter("%(levelname)s: %(message)s"))
     log.addHandler(console)

     if verbose and verbose > 1:
         log.setLevel(logging.DEBUG)
     elif verbose and verbose > 0:
         log.setLevel(logging.INFO)
     else:
         log.setLevel(logging.WARNING)

     return log

 def main(argv=None):
     args = _parse_args(argv)

     log = _init_log(args.verbose)

     log.info(f"prepare_llext_exptab: {args.elf_file}")

     preparator = ZephyrElfExptabPreparator(args.elf_file, log, args.slid_listing)

     res = preparator.prepare_elf()

     if args.always_succeed:
         return 0

     return res

 if __name__ == "__main__":
     sys.exit(main(sys.argv[1:]))
	#!/usr/bin/env python3
	#
	# Copyright (c) 2024 STMicroelectronics
	# SPDX-License-Identifier: Apache-2.0

	"""
	Script to prepare the LLEXT exports table of a Zephyr ELF

	This script performs compile-time processing of the LLEXT exports
	table for usage at runtime by the LLEXT subsystem code. The table
	is a special section filled with 'llext_const_symbol' structures
	generated by the EXPORT_SYMBOL macro.

	Currently, the preparatory work consists mostly of sorting the
	exports table to allow usage of binary search algorithms at runtime.
	If CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID option is enabled, SLIDs
	of all exported functions are also injected in the export table by
	this script. (In this case, the preparation process is destructive)
	"""

	import llext_slidlib

	from elftools.elf.elffile import ELFFile
	from elftools.elf.sections import Section

	import argparse
	import logging
	import pathlib
	import struct
	import sys

	#!!!!! WARNING !!!!!
	#
	#These constants MUST be kept in sync with the linker scripts
	#and the EXPORT_SYMBOL macro located in 'subsys/llext/llext.h'.
	#Otherwise, the LLEXT subsystem will be broken!
	#
	#!!!!! WARNING !!!!!

	LLEXT_EXPORT_TABLE_SECTION_NAME = "llext_const_symbol_area"
	LLEXT_EXPORT_NAMES_SECTION_NAME = "llext_exports_strtab"

	def _llext_const_symbol_struct(ptr_size: int, endianness: str):
	"""
	ptr_size -- Platform pointer size in bytes
	endianness -- Platform endianness ('little'/'big')
	"""
	endspec = "<" if endianness == 'little' else ">"
	if ptr_size == 4:
	ptrspec = "I"
	elif ptr_size == 8:
	ptrspec = "Q"

	# struct llext_const_symbol
	# contains just two pointers.
	lcs_spec = endspec + 2 * ptrspec
	return struct.Struct(lcs_spec)

	#ELF Shdr flag applied to the export table section, to indicate
	#the section has already been prepared by this script. This is
	#mostly a security measure to prevent the script from running
	#twice on the same ELF file, which can result in catastrophic
	#failures if SLID-based linking is enabled (in this case, the
	#preparation process is destructive).
	#
	#This flag is part of the SHF_MASKOS mask, of which all bits
	#are "reserved for operating system-specific semantics".
	#See: https://refspecs.linuxbase.org/elf/gabi4+/ch4.sheader.html
	SHF_LLEXT_PREPARATION_DONE = 0x08000000

	class SectionDescriptor():
	"""ELF Section descriptor

	This is a wrapper class around pyelftools' "Section" object.
	"""
	def __init__(self, elffile, section_name):
	self.name = section_name
	self.section = elffile.get_section_by_name(section_name)
	if not isinstance(self.section, Section):
	raise KeyError(f"section {section_name} not found")

	self.shdr_index = elffile.get_section_index(section_name)
	self.shdr_offset = elffile['e_shoff'] + \
	self.shdr_index * elffile['e_shentsize']
	self.size = self.section['sh_size']
	self.flags = self.section['sh_flags']
	self.offset = self.section['sh_offset']

	class LLEXTExptabManipulator():
	"""Class used to wrap the LLEXT export table manipulation."""
	def __init__(self, elf_fd, exptab_file_offset, lcs_struct, exports_count):
	self.fd = elf_fd
	self.exports_count = exports_count
	self.base_offset = exptab_file_offset
	self.lcs_struct = lcs_struct

	def _seek_to_sym(self, index):
	self.fd.seek(self.base_offset + index * self.lcs_struct.size)

	def __getitem__(self, index):
	if not isinstance(index, int):
	raise TypeError(f"invalid type {type(index)} for index")

	if index >= self.exports_count:
	raise IndexError(f"index {index} is out of bounds (max {self.exports_count})")

	self._seek_to_sym(index)
	return self.lcs_struct.unpack(self.fd.read(self.lcs_struct.size))

	def __setitem__(self, index, item):
	if not isinstance(index, int):
	raise TypeError(f"invalid type {type(index)} for index")

	if index >= self.exports_count:
	raise IndexError(f"index {index} is out of bounds (max {self.exports_count})")

	(addr_or_slid, sym_addr) = item

	self._seek_to_sym(index)
	self.fd.write(self.lcs_struct.pack(addr_or_slid, sym_addr))

	class ZephyrElfExptabPreparator():
	"""Prepares the LLEXT export table of a Zephyr ELF.

	Attributes:
	elf_path: path to the Zephyr ELF to prepare
	log: a logging.Logger object
	slid_listing_path: path to the file where SLID listing should be saved
	"""
	def __init__(self, elf_path: str, log: logging.Logger, slid_listing_path: str \| None):
	self.elf_path = elf_path
	self.elf_fd = open(self.elf_path, 'rb+')
	self.elf = ELFFile(self.elf_fd)
	self.log = log

	# Lazy-open the SLID listing file to ensure it is only created when necessary
	self.slid_listing_path = slid_listing_path
	self.slid_listing_fd = None

	def _prepare_exptab_for_slid_linking(self):
	"""
	IMPLEMENTATION NOTES:
	In the linker script, we declare the export names table
	as starting at address 0. Thanks to this, all "pointers"
	to that section are equal to the offset inside the section.
	Also note that symbol names are always NUL-terminated.

	The export table is sorted by SLID in ASCENDING order.
	"""
	def read_symbol_name(name_ptr):
	raw_name = b''
	self.elf_fd.seek(self.expstrtab_section.offset + name_ptr)

	c = self.elf_fd.read(1)
	while c != b'\0':
	raw_name += c
	c = self.elf_fd.read(1)

	return raw_name.decode("utf-8")

	#1) Load the export table
	exports_list = []
	for (name_ptr, export_address) in self.exptab_manipulator:
	export_name = read_symbol_name(name_ptr)
	exports_list.append((export_name, export_address))

	#2) Generate the SLID for all exports
	collided = False
	sorted_exptab = dict()
	for export_name, export_addr in exports_list:
	slid = llext_slidlib.generate_slid(export_name, self.ptrsize)

	collision = sorted_exptab.get(slid)
	if collision:
	#Don't abort immediately on collision: if there are others, we want to log them all.
	self.log.error(f"SLID collision: {export_name} and {collision[0]} have the same SLID 0x{slid:X}")
	collided = True
	else:
	sorted_exptab[slid] = (export_name, export_addr)

	if collided:
	return 1

	#3) Sort the export table (order specified above)
	sorted_exptab = dict(sorted(sorted_exptab.items()))

	#4) Write the updated export table to ELF, and dump
	#to SLID listing if requested by caller
	if self.slid_listing_path:
	self.slid_listing_fd = open(self.slid_listing_path, "w")

	def slidlist_write(msg):
	if self.slid_listing_fd:
	self.slid_listing_fd.write(msg + "\n")

	slidlist_write(f"/* SLID listing generated by {__file__} */")
	slidlist_write("//")
	slidlist_write("// This file contains the 'SLID -> name' mapping for all")
	slidlist_write("// symbols exported to LLEXT by this Zephyr executable.")
	slidlist_write("")

	self.log.info("SLID -> export name mapping:")

	i = 0
	for (slid, name_and_symaddr) in sorted_exptab.items():
	slid_as_str = llext_slidlib.format_slid(slid, self.ptrsize)
	msg = f"{slid_as_str} -> {name_and_symaddr[0]}"
	self.log.info(msg)
	slidlist_write(msg)

	self.exptab_manipulator[i] = (slid, name_and_symaddr[1])
	i += 1

	if self.slid_listing_fd:
	self.slid_listing_fd.close()

	return 0

	def _prepare_exptab_for_str_linking(self):
	#TODO: sort the export table by symbol
	# name to allow binary search too
	#
	# Plan of action:
	# 1) Locate in which section the names are located
	# 2) Load the export table and resolve names
	# 3) Sort the exports by name
	# WARN: THIS MUST USE THE SAME SORTING RULES
	# AS LLEXT CODE OR DICHOTOMIC SEARCH WILL BREAK
	# Using a custom sorting function might be required.
	# 4) Write back the updated export table
	#
	# N.B.: reusing part of the code in _prepare_elf_for_slid_linking
	# might be possible and desireable.
	#
	# As of writing, this function will never be called as this script
	# is only called if CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID is enabled,
	# which makes _prepare_exptab_for_slid_linking be called instead.
	#
	self.log.warn(f"_prepare_exptab_for_str_linking: do nothing")
	return 0

	def _set_prep_done_shdr_flag(self):
	#Offset and size of the 'sh_flags' member of
	#the Elf_Shdr structure. The offset does not
	#change between ELF32 and ELF64. Size in both
	#is equal to pointer size (4 bytes for ELF32,
	#8 bytes for ELF64).
	SHF_OFFSET = 8
	SHF_SIZE = self.ptrsize

	off = self.exptab_section.shdr_offset + SHF_OFFSET

	#Read existing sh_flags, set the PREPARATION_DONE flag
	#and write back the new value.
	self.elf_fd.seek(off)
	sh_flags = int.from_bytes(self.elf_fd.read(SHF_SIZE), self.endianness)

	sh_flags \|= SHF_LLEXT_PREPARATION_DONE

	self.elf_fd.seek(off)
	self.elf_fd.write(int.to_bytes(sh_flags, self.ptrsize, self.endianness))

	def _prepare_inner(self):
	# Locate the export table section
	try:
	self.exptab_section = SectionDescriptor(
	self.elf, LLEXT_EXPORT_TABLE_SECTION_NAME)
	except KeyError as e:
	self.log.error(e.args[0])
	return 1

	# Abort if the ELF has already been processed
	if (self.exptab_section.flags & SHF_LLEXT_PREPARATION_DONE) != 0:
	self.log.warning("exptab section flagged with LLEXT_PREPARATION_DONE "
	"- not preparing again")
	return 0

	# Get the struct.Struct for export table entry
	self.ptrsize = self.elf.elfclass // 8
	self.endianness = 'little' if self.elf.little_endian else 'big'
	self.lcs_struct = _llext_const_symbol_struct(self.ptrsize, self.endianness)

	# Verify that the export table size is coherent
	if (self.exptab_section.size % self.lcs_struct.size) != 0:
	self.log.error(f"export table size (0x{self.exptab_section.size:X}) "
	f"not aligned to 'llext_const_symbol' size (0x{self.lcs_struct.size:X})")
	return 1

	# Create the export table manipulator
	num_exports = self.exptab_section.size // self.lcs_struct.size
	self.exptab_manipulator = LLEXTExptabManipulator(
	self.elf_fd, self.exptab_section.offset, self.lcs_struct, num_exports)

	# Attempt to locate the export names section
	try:
	self.expstrtab_section = SectionDescriptor(
	self.elf, LLEXT_EXPORT_NAMES_SECTION_NAME)
	except KeyError:
	self.expstrtab_section = None

	self.log.debug(f"exports table section at file offset 0x{self.exptab_section.offset:X}")
	if self.expstrtab_section:
	self.log.debug(f"exports strtab section at file offset 0x{self.expstrtab_section.offset:X}")
	else:
	self.log.debug("no exports strtab section in ELF")
	self.log.info(f"{num_exports} symbols are exported to LLEXTs by this ELF")

	# Perform the export table preparation
	if self.expstrtab_section:
	res = self._prepare_exptab_for_slid_linking()
	else:
	res = self._prepare_exptab_for_str_linking()

	if res == 0: # Add the "prepared" flag to export table section
	self._set_prep_done_shdr_flag()

	def prepare_elf(self):
	res = self._prepare_inner()
	self.elf_fd.close()
	return res

	# pylint: disable=duplicate-code
	def _parse_args(argv):
	"""Parse the command line arguments."""
	parser = argparse.ArgumentParser(
	description=__doc__,
	formatter_class=argparse.RawDescriptionHelpFormatter,
	allow_abbrev=False)

	parser.add_argument("-f", "--elf-file", default=pathlib.Path("build", "zephyr", "zephyr.elf"),
	help="ELF file to process")
	parser.add_argument("-sl", "--slid-listing",
	help=("write the SLID listing to a file (only useful"
	"when CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID is enabled) "))
	parser.add_argument("-v", "--verbose", action="count",
	help=("enable verbose output, can be used multiple times "
	"to increase verbosity level"))
	parser.add_argument("--always-succeed", action="store_true",
	help="always exit with a return code of 0, used for testing")

	return parser.parse_args(argv)

	def _init_log(verbose):
	"""Initialize a logger object."""
	log = logging.getLogger(__file__)

	console = logging.StreamHandler()
	console.setFormatter(logging.Formatter("%(levelname)s: %(message)s"))
	log.addHandler(console)

	if verbose and verbose > 1:
	log.setLevel(logging.DEBUG)
	elif verbose and verbose > 0:
	log.setLevel(logging.INFO)
	else:
	log.setLevel(logging.WARNING)

	return log

	def main(argv=None):
	args = _parse_args(argv)

	log = _init_log(args.verbose)

	log.info(f"prepare_llext_exptab: {args.elf_file}")

	preparator = ZephyrElfExptabPreparator(args.elf_file, log, args.slid_listing)

	res = preparator.prepare_elf()

	if args.always_succeed:
	return 0

	return res

	if __name__ == "__main__":
	sys.exit(main(sys.argv[1:]))