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8e50d63fea
Should help with redundancy and data corruption when enabled but uses more space.
172 lines
7.4 KiB
Python
172 lines
7.4 KiB
Python
# SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
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# SPDX-License-Identifier: Apache-2.0
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from textwrap import dedent
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from typing import Optional
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from .exceptions import InconsistentFATAttributes
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from .utils import (ALLOWED_SECTOR_SIZES, FAT12, FAT12_MAX_CLUSTERS, FAT16, FAT16_MAX_CLUSTERS,
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RESERVED_CLUSTERS_COUNT, FATDefaults, get_fat_sectors_count, get_fatfs_type,
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get_non_data_sectors_cnt, number_of_clusters)
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class FATFSState:
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"""
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The class represents the state and the configuration of the FATFS.
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"""
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def __init__(self,
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sector_size: int,
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reserved_sectors_cnt: int,
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root_dir_sectors_cnt: int,
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size: int,
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media_type: int,
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sectors_per_cluster: int,
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volume_label: str,
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oem_name: str,
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fat_tables_cnt: int,
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sec_per_track: int,
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num_heads: int,
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hidden_sectors: int,
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file_sys_type: str,
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use_default_datetime: bool,
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explicit_fat_type: Optional[int] = None,
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long_names_enabled: bool = False):
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self.boot_sector_state = BootSectorState(oem_name=oem_name,
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sector_size=sector_size,
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sectors_per_cluster=sectors_per_cluster,
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reserved_sectors_cnt=reserved_sectors_cnt,
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fat_tables_cnt=fat_tables_cnt,
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root_dir_sectors_cnt=root_dir_sectors_cnt,
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sectors_count=size // sector_size,
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media_type=media_type,
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sec_per_track=sec_per_track,
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num_heads=num_heads,
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hidden_sectors=hidden_sectors,
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volume_label=volume_label,
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file_sys_type=file_sys_type,
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volume_uuid=-1)
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self._explicit_fat_type: Optional[int] = explicit_fat_type
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self.long_names_enabled: bool = long_names_enabled
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self.use_default_datetime: bool = use_default_datetime
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if (size // sector_size) * sectors_per_cluster in (FAT12_MAX_CLUSTERS, FAT16_MAX_CLUSTERS):
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print('WARNING: It is not recommended to create FATFS with bounding '
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f'count of clusters: {FAT12_MAX_CLUSTERS} or {FAT16_MAX_CLUSTERS}')
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self.check_fat_type()
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@property
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def binary_image(self) -> bytearray:
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return self.boot_sector_state.binary_image
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@binary_image.setter
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def binary_image(self, value: bytearray) -> None:
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self.boot_sector_state.binary_image = value
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def check_fat_type(self) -> None:
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_type = self.boot_sector_state.fatfs_type
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if self._explicit_fat_type is not None and self._explicit_fat_type != _type:
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raise InconsistentFATAttributes(dedent(
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f"""FAT type you specified is inconsistent with other attributes of the system.
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The specified FATFS type: FAT{self._explicit_fat_type}
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The actual FATFS type: FAT{_type}"""))
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if _type not in (FAT12, FAT16):
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raise NotImplementedError('FAT32 is currently not supported.')
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class BootSectorState:
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# pylint: disable=too-many-instance-attributes
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def __init__(self,
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oem_name: str,
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sector_size: int,
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sectors_per_cluster: int,
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reserved_sectors_cnt: int,
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fat_tables_cnt: int,
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root_dir_sectors_cnt: int,
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sectors_count: int,
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media_type: int,
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sec_per_track: int,
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num_heads: int,
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hidden_sectors: int,
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volume_label: str,
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file_sys_type: str,
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volume_uuid: int = -1) -> None:
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self.oem_name: str = oem_name
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self.sector_size: int = sector_size
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assert self.sector_size in ALLOWED_SECTOR_SIZES
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self.sectors_per_cluster: int = sectors_per_cluster
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self.reserved_sectors_cnt: int = reserved_sectors_cnt
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self.fat_tables_cnt: int = fat_tables_cnt
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self.root_dir_sectors_cnt: int = root_dir_sectors_cnt
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self.sectors_count: int = sectors_count
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self.media_type: int = media_type
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self.sectors_per_fat_cnt = get_fat_sectors_count(self.size // self.sector_size, self.sector_size)
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self.sec_per_track: int = sec_per_track
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self.num_heads: int = num_heads
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self.hidden_sectors: int = hidden_sectors
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self.volume_label: str = volume_label
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self.file_sys_type: str = file_sys_type
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self.volume_uuid: int = volume_uuid
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self._binary_image: bytearray = bytearray(b'')
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@property
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def binary_image(self) -> bytearray:
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return self._binary_image
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@binary_image.setter
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def binary_image(self, value: bytearray) -> None:
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self._binary_image = value
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@property
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def size(self) -> int:
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return self.sector_size * self.sectors_count
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@property
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def data_region_start(self) -> int:
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return self.non_data_sectors * self.sector_size
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@property
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def fatfs_type(self) -> int:
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# variable typed_fatfs_type must be explicitly typed to avoid mypy error
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typed_fatfs_type: int = get_fatfs_type(self.clusters)
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return typed_fatfs_type
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@property
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def clusters(self) -> int:
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"""
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The actual number of clusters is calculated by `number_of_clusters`,
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however, the initial two blocks of FAT are reserved (device type and root directory),
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despite they don't refer to the data region.
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Since that, two clusters are added to use the full potential of the FAT file system partition.
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"""
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clusters_cnt_: int = number_of_clusters(self.data_sectors, self.sectors_per_cluster) + RESERVED_CLUSTERS_COUNT
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return clusters_cnt_
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@property
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def data_sectors(self) -> int:
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# self.sector_size is checked in constructor if has one of allowed values (ALLOWED_SECTOR_SIZES)
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return (self.size // self.sector_size) - self.non_data_sectors
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@property
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def non_data_sectors(self) -> int:
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non_data_sectors_: int = get_non_data_sectors_cnt(self.reserved_sectors_cnt,
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self.sectors_per_fat_cnt,
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self.fat_tables_cnt,
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self.root_dir_sectors_cnt)
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return non_data_sectors_
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@property
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def fat_table_start_address(self) -> int:
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return self.sector_size * self.reserved_sectors_cnt
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@property
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def entries_root_count(self) -> int:
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entries_root_count_: int = (self.root_dir_sectors_cnt * self.sector_size) // FATDefaults.ENTRY_SIZE
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return entries_root_count_
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@property
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def root_directory_start(self) -> int:
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root_dir_start: int = (self.reserved_sectors_cnt + self.sectors_per_fat_cnt * self.fat_tables_cnt) * self.sector_size
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return root_dir_start
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