esp-idf/components/fatfs/fatfs_utils/fs_object.py

326 wiersze
15 KiB
Python

# SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
# SPDX-License-Identifier: Apache-2.0
import os
from datetime import datetime
from typing import List, Optional, Tuple, Union
from .entry import Entry
from .exceptions import FatalError, WriteDirectoryException
from .fat import FAT, Cluster
from .fatfs_state import FATFSState
from .long_filename_utils import (build_lfn_full_name, build_lfn_unique_entry_name_order,
get_required_lfn_entries_count, split_name_to_lfn_entries,
split_name_to_lfn_entry_blocks)
from .utils import (DATETIME, MAX_EXT_SIZE, MAX_NAME_SIZE, FATDefaults, build_lfn_short_entry_name, lfn_checksum,
required_clusters_count, split_content_into_sectors, split_to_name_and_extension)
class File:
"""
The class File provides API to write into the files. It represents file in the FS.
"""
ATTR_ARCHIVE: int = 0x20
ENTITY_TYPE: int = ATTR_ARCHIVE
def __init__(self, name: str, fat: FAT, fatfs_state: FATFSState, entry: Entry, extension: str = '') -> None:
self.name: str = name
self.extension: str = extension
self.fatfs_state: FATFSState = fatfs_state
self.fat: FAT = fat
self.size: int = 0
self._first_cluster: Optional[Cluster] = None
self._entry: Entry = entry
@property
def entry(self) -> Entry:
return self._entry
@property
def first_cluster(self) -> Optional[Cluster]:
return self._first_cluster
@first_cluster.setter
def first_cluster(self, value: Cluster) -> None:
self._first_cluster = value
def name_equals(self, name: str, extension: str) -> bool:
return self.name == name and self.extension == extension
def write(self, content: bytes) -> None:
self.entry.update_content_size(len(content))
# we assume that the correct amount of clusters is allocated
current_cluster = self._first_cluster
for content_part in split_content_into_sectors(content, self.fatfs_state.boot_sector_state.sector_size):
content_as_list = content_part
if current_cluster is None:
raise FatalError('No free space left!')
address: int = current_cluster.cluster_data_address
self.fatfs_state.binary_image[address: address + len(content_part)] = content_as_list
current_cluster = current_cluster.next_cluster
class Directory:
"""
The Directory class provides API to add files and directories into the directory
and to find the file according to path and write it.
"""
ATTR_DIRECTORY: int = 0x10
ATTR_ARCHIVE: int = 0x20
ENTITY_TYPE: int = ATTR_DIRECTORY
CURRENT_DIRECTORY = '.'
PARENT_DIRECTORY = '..'
def __init__(self,
name,
fat,
fatfs_state,
entry=None,
cluster=None,
size=None,
extension='',
parent=None):
# type: (str, FAT, FATFSState, Optional[Entry], Cluster, Optional[int], str, Directory) -> None
self.name: str = name
self.fatfs_state: FATFSState = fatfs_state
self.extension: str = extension
self.fat: FAT = fat
self.size: int = size or self.fatfs_state.boot_sector_state.sector_size
# if directory is root its parent is itself
self.parent: Directory = parent or self
self._first_cluster: Cluster = cluster
# entries will be initialized after the cluster allocation
self.entries: List[Entry] = []
self.entities: List[Union[File, Directory]] = [] # type: ignore
self._entry = entry # currently not in use (will use later for e.g. modification time, etc.)
@property
def is_root(self) -> bool:
return self.parent is self
@property
def first_cluster(self) -> Cluster:
return self._first_cluster
@first_cluster.setter
def first_cluster(self, value: Cluster) -> None:
self._first_cluster = value
def name_equals(self, name: str, extension: str) -> bool:
return self.name == name and self.extension == extension
@property
def entries_count(self) -> int:
entries_count_: int = self.size // FATDefaults.ENTRY_SIZE
return entries_count_
def create_entries(self, cluster: Cluster) -> List[Entry]:
return [Entry(entry_id=i,
parent_dir_entries_address=cluster.cluster_data_address,
fatfs_state=self.fatfs_state)
for i in range(self.entries_count)]
def init_directory(self) -> None:
self.entries = self.create_entries(self._first_cluster)
# the root directory doesn't contain link to itself nor the parent
if self.is_root:
return
# if the directory is not root we initialize the reference to itself and to the parent directory
for dir_id, name_ in ((self, self.CURRENT_DIRECTORY), (self.parent, self.PARENT_DIRECTORY)):
new_dir_: Entry = self.find_free_entry() or self.chain_directory()
new_dir_.allocate_entry(first_cluster_id=dir_id.first_cluster.id,
entity_name=name_,
entity_extension='',
entity_type=dir_id.ENTITY_TYPE)
def lookup_entity(self, object_name: str, extension: str): # type: ignore
for entity in self.entities:
if entity.name == object_name and entity.extension == extension:
return entity
return None
@staticmethod
def _is_end_of_path(path_as_list: List[str]) -> bool:
"""
:param path_as_list: path split into the list
:returns: True if the file is the leaf of the directory tree, False otherwise
The method is part of the base of recursion,
determines if the path is target file or directory in the tree folder structure.
"""
return len(path_as_list) == 1
def recursive_search(self, path_as_list, current_dir): # type: ignore
name, extension = split_to_name_and_extension(path_as_list[0])
next_obj = current_dir.lookup_entity(name, extension)
if next_obj is None:
raise FileNotFoundError('No such file or directory!')
if self._is_end_of_path(path_as_list) and next_obj.name_equals(name, extension):
return next_obj
return self.recursive_search(path_as_list[1:], next_obj)
def find_free_entry(self) -> Optional[Entry]:
for entry in self.entries:
if entry.is_empty:
return entry
return None
def _extend_directory(self) -> None:
current: Cluster = self.first_cluster
while current.next_cluster is not None:
current = current.next_cluster
new_cluster: Cluster = self.fat.find_free_cluster()
current.set_in_fat(new_cluster.id)
assert current is not new_cluster
current.next_cluster = new_cluster
self.entries += self.create_entries(new_cluster)
def chain_directory(self) -> Entry:
"""
:returns: First free entry
The method adds new Cluster to the Directory and returns first free entry.
"""
self._extend_directory()
free_entry: Entry = self.find_free_entry()
if free_entry is None:
raise FatalError('No more space left!')
return free_entry
@staticmethod
def allocate_long_name_object(free_entry,
name,
extension,
target_dir,
free_cluster,
entity_type,
date,
time):
# type: (Entry, str, str, Directory, Cluster, int, DATETIME, DATETIME) -> Tuple[Cluster, Entry, Directory]
lfn_full_name: str = build_lfn_full_name(name, extension)
lfn_unique_entry_order: int = build_lfn_unique_entry_name_order(target_dir.entities, name)
lfn_short_entry_name: str = build_lfn_short_entry_name(name, extension, lfn_unique_entry_order)
checksum: int = lfn_checksum(lfn_short_entry_name)
entries_count: int = get_required_lfn_entries_count(lfn_full_name)
# entries in long file name entries chain starts with the last entry
split_names_reversed = reversed(list(enumerate(split_name_to_lfn_entries(lfn_full_name, entries_count))))
for i, name_split_to_entry in split_names_reversed:
order: int = i + 1
blocks_: List[bytes] = split_name_to_lfn_entry_blocks(name_split_to_entry)
lfn_names: List[bytes] = list(map(lambda x: x.lower(), blocks_))
free_entry.allocate_entry(first_cluster_id=free_cluster.id,
entity_name=name,
entity_extension=extension,
entity_type=entity_type,
lfn_order=order,
lfn_names=lfn_names,
lfn_checksum_=checksum,
lfn_is_last=order == entries_count)
free_entry = target_dir.find_free_entry() or target_dir.chain_directory()
free_entry.allocate_entry(first_cluster_id=free_cluster.id,
entity_name=lfn_short_entry_name[:MAX_NAME_SIZE],
entity_extension=lfn_short_entry_name[MAX_NAME_SIZE:],
entity_type=entity_type,
lfn_order=Entry.SHORT_ENTRY_LN,
date=date,
time=time)
return free_cluster, free_entry, target_dir
def allocate_object(self,
name,
entity_type,
object_timestamp_,
path_from_root=None,
extension=''):
# type: (str, int, datetime, Optional[List[str]], str) -> Tuple[Cluster, Entry, Directory]
"""
Method finds the target directory in the path
and allocates cluster (both the record in FAT and cluster in the data region)
and entry in the specified directory
"""
free_cluster: Cluster = self.fat.find_free_cluster()
target_dir: Directory = self if not path_from_root else self.recursive_search(path_from_root, self)
free_entry: Entry = target_dir.find_free_entry() or target_dir.chain_directory()
name_fits_short_struct: bool = len(name) <= MAX_NAME_SIZE and len(extension) <= MAX_EXT_SIZE
fatfs_date_ = (object_timestamp_.year, object_timestamp_.month, object_timestamp_.day)
fatfs_time_ = (object_timestamp_.hour, object_timestamp_.minute, object_timestamp_.second)
if not self.fatfs_state.long_names_enabled or name_fits_short_struct:
free_entry.allocate_entry(first_cluster_id=free_cluster.id,
entity_name=name,
entity_extension=extension,
date=fatfs_date_,
time=fatfs_time_,
entity_type=entity_type)
return free_cluster, free_entry, target_dir
return self.allocate_long_name_object(free_entry=free_entry,
name=name,
extension=extension,
target_dir=target_dir,
free_cluster=free_cluster,
entity_type=entity_type,
date=fatfs_date_,
time=fatfs_time_)
def new_file(self,
name: str,
extension: str,
path_from_root: Optional[List[str]],
object_timestamp_: datetime) -> None:
free_cluster, free_entry, target_dir = self.allocate_object(name=name,
extension=extension,
entity_type=Directory.ATTR_ARCHIVE,
path_from_root=path_from_root,
object_timestamp_=object_timestamp_)
file: File = File(name=name,
fat=self.fat,
extension=extension,
fatfs_state=self.fatfs_state,
entry=free_entry)
file.first_cluster = free_cluster
target_dir.entities.append(file)
def new_directory(self, name, parent, path_from_root, object_timestamp_):
# type: (str, Directory, Optional[List[str]], datetime) -> None
free_cluster, free_entry, target_dir = self.allocate_object(name=name,
entity_type=Directory.ATTR_DIRECTORY,
path_from_root=path_from_root,
object_timestamp_=object_timestamp_)
directory: Directory = Directory(name=name,
fat=self.fat,
parent=parent,
fatfs_state=self.fatfs_state,
entry=free_entry)
directory.first_cluster = free_cluster
directory.init_directory()
target_dir.entities.append(directory)
def write_to_file(self, path: List[str], content: bytes) -> None:
"""
Writes to file existing in the directory structure.
:param path: path split into the list
:param content: content as a string to be written into a file
:returns: None
:raises WriteDirectoryException: raised is the target object for writing is a directory
"""
entity_to_write: Entry = self.recursive_search(path, self)
if isinstance(entity_to_write, File):
clusters_cnt: int = required_clusters_count(cluster_size=self.fatfs_state.boot_sector_state.sector_size,
content=content)
self.fat.allocate_chain(entity_to_write.first_cluster, clusters_cnt)
entity_to_write.write(content)
else:
raise WriteDirectoryException(f'`{os.path.join(*path)}` is a directory!')