# SPDX-FileCopyrightText: 2021 Espressif Systems (Shanghai) CO LTD # SPDX-License-Identifier: Apache-2.0 import argparse import binascii import os import uuid from typing import List, Optional, Tuple from construct import Int16ul def crc32(input_values: List[int], crc: int) -> int: """ Name Polynomial Reversed? Init-value XOR-out crc32 0x104C11DB7 True 4294967295 (UINT32_MAX) 0xFFFFFFFF """ return binascii.crc32(bytearray(input_values), crc) def required_clusters_count(cluster_size: int, content: str) -> int: # compute number of required clusters for file text return (len(content) + cluster_size - 1) // cluster_size def generate_4bytes_random() -> int: return uuid.uuid4().int & 0xFFFFFFFF def pad_string(content: str, size: Optional[int] = None, pad: int = 0x20) -> str: # cut string if longer and fill with pad character if shorter than size return content.ljust(size or len(content), chr(pad))[:size] def split_to_name_and_extension(full_name: str) -> Tuple[str, str]: name, extension = os.path.splitext(full_name) return name, extension.replace('.', '') def is_valid_fatfs_name(string: str) -> bool: return string == string.upper() def split_by_half_byte_12_bit_little_endian(value: int) -> Tuple[int, int, int]: value_as_bytes = Int16ul.build(value) return value_as_bytes[0] & 0x0f, value_as_bytes[0] >> 4, value_as_bytes[1] & 0x0f def build_byte(first_half: int, second_half: int) -> int: return (first_half << 4) | second_half def clean_first_half_byte(bytes_array: bytearray, address: int) -> None: """ the function sets to zero first four bits of the byte. E.g. 10111100 -> 10110000 """ bytes_array[address] &= 0xf0 def clean_second_half_byte(bytes_array: bytearray, address: int) -> None: """ the function sets to zero last four bits of the byte. E.g. 10111100 -> 00001100 """ bytes_array[address] &= 0x0f def split_content_into_sectors(content: str, sector_size: int) -> List[str]: result = [] clusters_cnt = required_clusters_count(cluster_size=sector_size, content=content) for i in range(clusters_cnt): result.append(content[sector_size * i:(i + 1) * sector_size]) return result def get_args_for_partition_generator(desc: str) -> argparse.Namespace: parser = argparse.ArgumentParser( description=desc) parser.add_argument('input_directory', help='Path to the directory that will be encoded into fatfs image') parser.add_argument('--output_file', default='fatfs_image.img', help='Filename of the generated fatfs image') parser.add_argument('--partition_size', default=1024 * 1024, help='Size of the partition in bytes') parser.add_argument('--sector_size', default=4096, help='Size of the partition in bytes') args = parser.parse_args() if not os.path.isdir(args.input_directory): raise NotADirectoryError(f'The target directory `{args.input_directory}` does not exist!') return args