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

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

 """
 This file implements the Symbol Link Identifer (SLID)
 generation code, for use by the LLEXT subsystem.
 SLID-based linking is enabled by the Kconfig
 option 'CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID'.

 When executed as a script, this file can be used as
 an interactive prompt to calculate the SLID of arbitrary
 symbols, which can be useful for debugging purposes.

 IMPLEMENTATION NOTES:
   Currently, SLIDs are generated by taking the first
   [pointer size] bytes of the symbol name's SHA-256
   hash, taken in big-endian order.

   This ordering provides one advantage: the 32-bit
   SLID for an export is present in the top 32 bits of
   the 64-bit SLID for the same export.
 """

 from hashlib import sha256

 def generate_slid(symbol_name: str, slid_size: int) -> int:
     """
     Generates the Symbol Link Identifier (SLID) for a symbol.

         symbol_name: Name of the symbol for which to generate a SLID
         slid_side: Size of the SLID in bytes (4/8)
     """
     if slid_size not in (4, 8):
         raise AssertionError(f"Invalid SLID size {slid_size}")

     m = sha256()
     m.update(symbol_name.encode("utf-8"))
     hash = m.digest()
     return int.from_bytes(hash[0:slid_size], byteorder='big', signed=False)

 def format_slid(slid: int, slid_size: int) -> str:
     if slid_size == 4:
         fmt = f"0x{slid:08X}"
     elif slid_size == 8:
         fmt = f"0x{slid:016X}"
     return fmt

 def repl():
     while True:
         sym_name = input("Symbol name? ")
         slid32 = generate_slid(sym_name, 4)
         slid64 = generate_slid(sym_name, 8)
         print(f"  32-bit SLID for '{sym_name}': {format_slid(slid32, 4)}")
         print(f"  64-bit SLID for '{sym_name}': {format_slid(slid64, 8)}")
         print()

 if __name__ == "__main__":
     print("LLEXT SLID calculation REPL")
     print("Press ^C to exit.")
     try:
         repl()
     except KeyboardInterrupt:
         print()
	#!/usr/bin/env python3
	#
	# Copyright (c) 2024 STMicroelectronics
	# SPDX-License-Identifier: Apache-2.0

	"""
	This file implements the Symbol Link Identifer (SLID)
	generation code, for use by the LLEXT subsystem.
	SLID-based linking is enabled by the Kconfig
	option 'CONFIG_LLEXT_EXPORT_BUILTINS_BY_SLID'.

	When executed as a script, this file can be used as
	an interactive prompt to calculate the SLID of arbitrary
	symbols, which can be useful for debugging purposes.

	IMPLEMENTATION NOTES:
	Currently, SLIDs are generated by taking the first
	[pointer size] bytes of the symbol name's SHA-256
	hash, taken in big-endian order.

	This ordering provides one advantage: the 32-bit
	SLID for an export is present in the top 32 bits of
	the 64-bit SLID for the same export.
	"""

	from hashlib import sha256

	def generate_slid(symbol_name: str, slid_size: int) -> int:
	"""
	Generates the Symbol Link Identifier (SLID) for a symbol.

	symbol_name: Name of the symbol for which to generate a SLID
	slid_side: Size of the SLID in bytes (4/8)
	"""
	if slid_size not in (4, 8):
	raise AssertionError(f"Invalid SLID size {slid_size}")

	m = sha256()
	m.update(symbol_name.encode("utf-8"))
	hash = m.digest()
	return int.from_bytes(hash[0:slid_size], byteorder='big', signed=False)

	def format_slid(slid: int, slid_size: int) -> str:
	if slid_size == 4:
	fmt = f"0x{slid:08X}"
	elif slid_size == 8:
	fmt = f"0x{slid:016X}"
	return fmt

	def repl():
	while True:
	sym_name = input("Symbol name? ")
	slid32 = generate_slid(sym_name, 4)
	slid64 = generate_slid(sym_name, 8)
	print(f" 32-bit SLID for '{sym_name}': {format_slid(slid32, 4)}")
	print(f" 64-bit SLID for '{sym_name}': {format_slid(slid64, 8)}")
	print()

	if __name__ == "__main__":
	print("LLEXT SLID calculation REPL")
	print("Press ^C to exit.")
	try:
	repl()
	except KeyboardInterrupt:
	print()