kopia lustrzana https://github.com/espressif/esp-idf
168 wiersze
9.6 KiB
Python
168 wiersze
9.6 KiB
Python
# SPDX-FileCopyrightText: 2021-2023 Espressif Systems (Shanghai) CO LTD
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# SPDX-License-Identifier: Apache-2.0
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from inspect import getmembers, isroutine
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from typing import Optional
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from construct import Bytes, Const, Int8ul, Int16ul, Int32ul, PaddedString, Padding, Struct, core
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from .exceptions import InconsistentFATAttributes, NotInitialized
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from .fatfs_state import BootSectorState
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from .utils import (ALLOWED_SECTOR_SIZES, ALLOWED_SECTORS_PER_CLUSTER, EMPTY_BYTE, FAT32, FULL_BYTE,
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SHORT_NAMES_ENCODING, FATDefaults, generate_4bytes_random, pad_string)
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class BootSector:
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"""
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This class describes the first sector of the volume in the Reserved Region.
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It contains data from BPB (BIOS Parameter Block) and BS (Boot sector). The fields of the BPB and BS are mixed in
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the header of the physical boot sector. Fields with prefix BPB belongs to BPB block and with prefix BS
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belongs to the actual boot sector.
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Please beware, that the name of class BootSector refer to data both from the boot sector and BPB.
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ESP32 ignores fields with prefix "BS_"! Fields with prefix BPB_ are essential to read the filesystem.
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"""
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MAX_VOL_LAB_SIZE = 11
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MAX_OEM_NAME_SIZE = 8
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MAX_FS_TYPE_SIZE = 8
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# the FAT specification defines 512 bytes for the boot sector header
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BOOT_HEADER_SIZE = 512
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BOOT_SECTOR_HEADER = Struct(
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'BS_jmpBoot' / Bytes(3),
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'BS_OEMName' / PaddedString(MAX_OEM_NAME_SIZE, SHORT_NAMES_ENCODING),
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'BPB_BytsPerSec' / Int16ul,
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'BPB_SecPerClus' / Int8ul,
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'BPB_RsvdSecCnt' / Int16ul,
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'BPB_NumFATs' / Int8ul,
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'BPB_RootEntCnt' / Int16ul,
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'BPB_TotSec16' / Int16ul, # zero if the FAT type is 32, otherwise number of sectors
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'BPB_Media' / Int8ul,
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'BPB_FATSz16' / Int16ul, # for FAT32 always zero, for FAT12/FAT16 number of sectors per FAT
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'BPB_SecPerTrk' / Int16ul,
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'BPB_NumHeads' / Int16ul,
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'BPB_HiddSec' / Int32ul,
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'BPB_TotSec32' / Int32ul, # zero if the FAT type is 12/16, otherwise number of sectors
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'BS_DrvNum' / Const(b'\x80'),
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'BS_Reserved1' / Padding(1),
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'BS_BootSig' / Const(b'\x29'),
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'BS_VolID' / Int32ul,
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'BS_VolLab' / PaddedString(MAX_VOL_LAB_SIZE, SHORT_NAMES_ENCODING),
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'BS_FilSysType' / PaddedString(MAX_FS_TYPE_SIZE, SHORT_NAMES_ENCODING),
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'BS_EMPTY' / Padding(448),
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'Signature_word' / Const(FATDefaults.SIGNATURE_WORD)
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)
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assert BOOT_SECTOR_HEADER.sizeof() == BOOT_HEADER_SIZE
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def __init__(self, boot_sector_state: Optional[BootSectorState] = None) -> None:
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self._parsed_header: dict = {}
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self.boot_sector_state: BootSectorState = boot_sector_state
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def generate_boot_sector(self) -> None:
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boot_sector_state: BootSectorState = self.boot_sector_state
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if boot_sector_state is None:
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raise NotInitialized('The BootSectorState instance is not initialized!')
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volume_uuid = generate_4bytes_random()
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pad_header: bytes = (boot_sector_state.sector_size - BootSector.BOOT_HEADER_SIZE) * EMPTY_BYTE
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data_content: bytes = boot_sector_state.data_sectors * boot_sector_state.sector_size * FULL_BYTE
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root_dir_content: bytes = boot_sector_state.root_dir_sectors_cnt * boot_sector_state.sector_size * EMPTY_BYTE
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fat_tables_content: bytes = (boot_sector_state.sectors_per_fat_cnt
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* boot_sector_state.fat_tables_cnt
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* boot_sector_state.sector_size
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* EMPTY_BYTE)
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self.boot_sector_state.binary_image = (
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BootSector.BOOT_SECTOR_HEADER.build(
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dict(BS_jmpBoot=(b'\xeb\xfe\x90'),
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BS_OEMName=pad_string(boot_sector_state.oem_name, size=BootSector.MAX_OEM_NAME_SIZE),
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BPB_BytsPerSec=boot_sector_state.sector_size,
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BPB_SecPerClus=boot_sector_state.sectors_per_cluster,
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BPB_RsvdSecCnt=boot_sector_state.reserved_sectors_cnt,
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BPB_NumFATs=boot_sector_state.fat_tables_cnt,
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BPB_RootEntCnt=boot_sector_state.entries_root_count,
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# if fat type is 12 or 16 BPB_TotSec16 is filled and BPB_TotSec32 is 0x00 and vice versa
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BPB_TotSec16=0x00 if boot_sector_state.fatfs_type == FAT32 else boot_sector_state.sectors_count,
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BPB_Media=boot_sector_state.media_type,
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BPB_FATSz16=boot_sector_state.sectors_per_fat_cnt,
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BPB_SecPerTrk=boot_sector_state.sec_per_track,
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BPB_NumHeads=boot_sector_state.num_heads,
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BPB_HiddSec=boot_sector_state.hidden_sectors,
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BPB_TotSec32=boot_sector_state.sectors_count if boot_sector_state.fatfs_type == FAT32 else 0x00,
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BS_VolID=volume_uuid,
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BS_VolLab=pad_string(boot_sector_state.volume_label,
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size=BootSector.MAX_VOL_LAB_SIZE),
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BS_FilSysType=pad_string(boot_sector_state.file_sys_type,
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size=BootSector.MAX_FS_TYPE_SIZE))
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) + pad_header + fat_tables_content + root_dir_content + data_content
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)
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def parse_boot_sector(self, binary_data: bytes) -> None:
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"""
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Checks the validity of the boot sector and derives the metadata from boot sector to the structured shape.
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"""
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try:
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self._parsed_header = BootSector.BOOT_SECTOR_HEADER.parse(binary_data)
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except core.StreamError:
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raise NotInitialized('The boot sector header is not parsed successfully!')
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if self._parsed_header['BPB_TotSec16'] != 0x00:
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sectors_count_: int = self._parsed_header['BPB_TotSec16']
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elif self._parsed_header['BPB_TotSec32'] != 0x00:
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# uncomment for FAT32 implementation
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# sectors_count_ = self._parsed_header['BPB_TotSec32']
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# possible_fat_types = [FAT32]
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assert self._parsed_header['BPB_TotSec16'] == 0
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raise NotImplementedError('FAT32 not implemented!')
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else:
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raise InconsistentFATAttributes('The number of FS sectors cannot be zero!')
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if self._parsed_header['BPB_BytsPerSec'] not in ALLOWED_SECTOR_SIZES:
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raise InconsistentFATAttributes(f'The number of bytes '
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f"per sector is {self._parsed_header['BPB_BytsPerSec']}! "
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f'The accepted values are {ALLOWED_SECTOR_SIZES}')
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if self._parsed_header['BPB_SecPerClus'] not in ALLOWED_SECTORS_PER_CLUSTER:
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raise InconsistentFATAttributes(f'The number of sectors per cluster '
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f"is {self._parsed_header['BPB_SecPerClus']}"
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f'The accepted values are {ALLOWED_SECTORS_PER_CLUSTER}')
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total_root_bytes: int = self._parsed_header['BPB_RootEntCnt'] * FATDefaults.ENTRY_SIZE
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root_dir_sectors_cnt_: int = total_root_bytes // self._parsed_header['BPB_BytsPerSec']
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self.boot_sector_state = BootSectorState(oem_name=self._parsed_header['BS_OEMName'],
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sector_size=self._parsed_header['BPB_BytsPerSec'],
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sectors_per_cluster=self._parsed_header['BPB_SecPerClus'],
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reserved_sectors_cnt=self._parsed_header['BPB_RsvdSecCnt'],
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fat_tables_cnt=self._parsed_header['BPB_NumFATs'],
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root_dir_sectors_cnt=root_dir_sectors_cnt_,
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sectors_count=sectors_count_,
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media_type=self._parsed_header['BPB_Media'],
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sec_per_track=self._parsed_header['BPB_SecPerTrk'],
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num_heads=self._parsed_header['BPB_NumHeads'],
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hidden_sectors=self._parsed_header['BPB_HiddSec'],
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volume_label=self._parsed_header['BS_VolLab'],
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file_sys_type=self._parsed_header['BS_FilSysType'],
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volume_uuid=self._parsed_header['BS_VolID'])
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self.boot_sector_state.binary_image = binary_data
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assert self.boot_sector_state.file_sys_type in (f'FAT{self.boot_sector_state.fatfs_type} ', 'FAT ')
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def __str__(self) -> str:
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"""
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FATFS properties parser (internal helper tool for fatfsgen.py/fatfsparse.py)
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Provides all the properties of given FATFS instance by parsing its boot sector (returns formatted string)
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"""
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if self._parsed_header == {}:
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return 'Boot sector is not initialized!'
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res: str = 'FATFS properties:\n'
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for member in getmembers(self.boot_sector_state, lambda a: not (isroutine(a))):
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prop_ = getattr(self.boot_sector_state, member[0])
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if isinstance(prop_, int) or isinstance(prop_, str) and not member[0].startswith('_'):
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res += f'{member[0]}: {prop_}\n'
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return res
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@property
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def binary_image(self) -> bytes:
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# when BootSector is not instantiated, self.boot_sector_state might be None
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if self.boot_sector_state is None or len(self.boot_sector_state.binary_image) == 0:
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raise NotInitialized('Boot sector is not initialized!')
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bin_image_: bytes = self.boot_sector_state.binary_image
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return bin_image_
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