772 lines
22 KiB
Python
Executable File
772 lines
22 KiB
Python
Executable File
#!/usr/bin/env python
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#
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# Copyright 2016 The Android Open Source Project
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import os
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import sys
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import struct
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FAT_TABLE_START = 0x200
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DEL_MARKER = 0xe5
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ESCAPE_DEL_MARKER = 0x05
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ATTRIBUTE_READ_ONLY = 0x1
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ATTRIBUTE_HIDDEN = 0x2
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ATTRIBUTE_SYSTEM = 0x4
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ATTRIBUTE_VOLUME_LABEL = 0x8
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ATTRIBUTE_SUBDIRECTORY = 0x10
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ATTRIBUTE_ARCHIVE = 0x20
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ATTRIBUTE_DEVICE = 0x40
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LFN_ATTRIBUTES = \
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ATTRIBUTE_VOLUME_LABEL | \
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ATTRIBUTE_SYSTEM | \
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ATTRIBUTE_HIDDEN | \
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ATTRIBUTE_READ_ONLY
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LFN_ATTRIBUTES_BYTE = struct.pack("B", LFN_ATTRIBUTES)
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MAX_CLUSTER_ID = 0x7FFF
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def read_le_short(f):
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"Read a little-endian 2-byte integer from the given file-like object"
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return struct.unpack("<H", f.read(2))[0]
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def read_le_long(f):
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"Read a little-endian 4-byte integer from the given file-like object"
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return struct.unpack("<L", f.read(4))[0]
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def read_byte(f):
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"Read a 1-byte integer from the given file-like object"
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return struct.unpack("B", f.read(1))[0]
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def skip_bytes(f, n):
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"Fast-forward the given file-like object by n bytes"
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f.seek(n, os.SEEK_CUR)
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def skip_short(f):
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"Fast-forward the given file-like object 2 bytes"
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skip_bytes(f, 2)
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def skip_byte(f):
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"Fast-forward the given file-like object 1 byte"
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skip_bytes(f, 1)
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def rewind_bytes(f, n):
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"Rewind the given file-like object n bytes"
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skip_bytes(f, -n)
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def rewind_short(f):
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"Rewind the given file-like object 2 bytes"
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rewind_bytes(f, 2)
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class fake_file(object):
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"""
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Interface for python file-like objects that we use to manipulate the image.
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Inheritors must have an idx member which indicates the file pointer, and a
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size member which indicates the total file size.
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"""
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def seek(self, amount, direction=0):
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"Implementation of seek from python's file-like object interface."
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if direction == os.SEEK_CUR:
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self.idx += amount
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elif direction == os.SEEK_END:
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self.idx = self.size - amount
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else:
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self.idx = amount
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if self.idx < 0:
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self.idx = 0
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if self.idx > self.size:
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self.idx = self.size
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class fat_file(fake_file):
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"""
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A file inside of our fat image. The file may or may not have a dentry, and
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if it does this object knows nothing about it. All we see is a valid cluster
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chain.
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"""
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def __init__(self, fs, cluster, size=None):
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"""
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fs: The fat() object for the image this file resides in.
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cluster: The first cluster of data for this file.
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size: The size of this file. If not given, we use the total length of the
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cluster chain that starts from the cluster argument.
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"""
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self.fs = fs
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self.start_cluster = cluster
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self.size = size
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if self.size is None:
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self.size = fs.get_chain_size(cluster)
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self.idx = 0
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def read(self, size):
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"Read method for pythonic file-like interface."
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if self.idx + size > self.size:
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size = self.size - self.idx
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got = self.fs.read_file(self.start_cluster, self.idx, size)
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self.idx += len(got)
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return got
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def write(self, data):
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"Write method for pythonic file-like interface."
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self.fs.write_file(self.start_cluster, self.idx, data)
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self.idx += len(data)
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if self.idx > self.size:
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self.size = self.idx
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def shorten(name, index):
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"""
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Create a file short name from the given long name (with the extension already
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removed). The index argument gives a disambiguating integer to work into the
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name to avoid collisions.
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"""
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name = "".join(name.split('.')).upper()
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postfix = "~" + str(index)
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return name[:8 - len(postfix)] + postfix
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class fat_dir(object):
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"A directory in our fat filesystem."
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def __init__(self, backing):
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"""
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backing: A file-like object from which we can read dentry info. Should have
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an fs member allowing us to get to the underlying image.
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"""
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self.backing = backing
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self.dentries = []
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to_read = self.backing.size / 32
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self.backing.seek(0)
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while to_read > 0:
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(dent, consumed) = self.backing.fs.read_dentry(self.backing)
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to_read -= consumed
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if dent:
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self.dentries.append(dent)
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def __str__(self):
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return "\n".join([str(x) for x in self.dentries]) + "\n"
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def add_dentry(self, attributes, shortname, ext, longname, first_cluster,
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size):
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"""
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Add a new dentry to this directory.
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attributes: Attribute flags for this dentry. See the ATTRIBUTE_ constants
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above.
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shortname: Short name of this file. Up to 8 characters, no dots.
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ext: Extension for this file. Up to 3 characters, no dots.
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longname: The long name for this file, with extension. Largely unrestricted.
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first_cluster: The first cluster in the cluster chain holding the contents
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of this file.
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size: The size of this file. Set to 0 for subdirectories.
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"""
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new_dentry = dentry(self.backing.fs, attributes, shortname, ext,
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longname, first_cluster, size)
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new_dentry.commit(self.backing)
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self.dentries.append(new_dentry)
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return new_dentry
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def make_short_name(self, name):
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"""
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Given a long file name, return an 8.3 short name as a tuple. Name will be
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engineered not to collide with other such names in this folder.
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"""
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parts = name.rsplit('.', 1)
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if len(parts) == 1:
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parts.append('')
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name = parts[0]
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ext = parts[1].upper()
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index = 1
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shortened = shorten(name, index)
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for dent in self.dentries:
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assert dent.longname != name, "File must not exist"
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if dent.shortname == shortened:
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index += 1
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shortened = shorten(name, index)
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if len(name) <= 8 and len(ext) <= 3 and not '.' in name:
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return (name.upper().ljust(8), ext.ljust(3))
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return (shortened.ljust(8), ext[:3].ljust(3))
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def new_file(self, name, data=None):
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"""
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Add a new regular file to this directory.
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name: The name of the new file.
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data: The contents of the new file. Given as a file-like object.
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"""
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size = 0
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if data:
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data.seek(0, os.SEEK_END)
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size = data.tell()
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# Empty files shouldn't have any clusters assigned.
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chunk = self.backing.fs.allocate(size) if size > 0 else 0
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(shortname, ext) = self.make_short_name(name)
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self.add_dentry(0, shortname, ext, name, chunk, size)
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if data is None:
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return
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data_file = fat_file(self.backing.fs, chunk, size)
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data.seek(0)
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data_file.write(data.read())
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def new_subdirectory(self, name):
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"""
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Create a new subdirectory of this directory with the given name.
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Returns a fat_dir().
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"""
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chunk = self.backing.fs.allocate(1)
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(shortname, ext) = self.make_short_name(name)
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new_dentry = self.add_dentry(ATTRIBUTE_SUBDIRECTORY, shortname,
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ext, name, chunk, 0)
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result = new_dentry.open_directory()
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parent_cluster = 0
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if hasattr(self.backing, 'start_cluster'):
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parent_cluster = self.backing.start_cluster
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result.add_dentry(ATTRIBUTE_SUBDIRECTORY, '.', '', '', chunk, 0)
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result.add_dentry(ATTRIBUTE_SUBDIRECTORY, '..', '', '', parent_cluster, 0)
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return result
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def lfn_checksum(name_data):
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"""
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Given the characters of an 8.3 file name (concatenated *without* the dot),
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Compute a one-byte checksum which needs to appear in corresponding long file
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name entries.
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"""
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assert len(name_data) == 11, "Name data should be exactly 11 characters"
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name_data = struct.unpack("B" * 11, name_data)
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result = 0
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for char in name_data:
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last_bit = (result & 1) << 7
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result = (result >> 1) | last_bit
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result += char
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result = result & 0xFF
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return struct.pack("B", result)
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class dentry(object):
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"A directory entry"
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def __init__(self, fs, attributes, shortname, ext, longname,
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first_cluster, size):
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"""
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fs: The fat() object for the image we're stored in.
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attributes: The attribute flags for this dentry. See the ATTRIBUTE_ flags
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above.
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shortname: The short name stored in this dentry. Up to 8 characters, no
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dots.
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ext: The file extension stored in this dentry. Up to 3 characters, no
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dots.
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longname: The long file name stored in this dentry.
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first_cluster: The first cluster in the cluster chain backing the file
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this dentry points to.
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size: Size of the file this dentry points to. 0 for subdirectories.
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"""
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self.fs = fs
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self.attributes = attributes
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self.shortname = shortname
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self.ext = ext
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self.longname = longname
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self.first_cluster = first_cluster
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self.size = size
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def name(self):
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"A friendly text file name for this dentry."
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if self.longname:
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return self.longname
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if not self.ext or len(self.ext) == 0:
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return self.shortname
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return self.shortname + "." + self.ext
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def __str__(self):
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return self.name() + " (" + str(self.size) + \
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" bytes @ " + str(self.first_cluster) + ")"
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def is_directory(self):
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"Return whether this dentry points to a directory."
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return (self.attributes & ATTRIBUTE_SUBDIRECTORY) != 0
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def open_file(self):
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"Open the target of this dentry if it is a regular file."
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assert not self.is_directory(), "Cannot open directory as file"
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return fat_file(self.fs, self.first_cluster, self.size)
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def open_directory(self):
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"Open the target of this dentry if it is a directory."
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assert self.is_directory(), "Cannot open file as directory"
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return fat_dir(fat_file(self.fs, self.first_cluster))
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def longname_records(self, checksum):
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"""
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Get the longname records necessary to store this dentry's long name,
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packed as a series of 32-byte strings.
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"""
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if self.longname is None:
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return []
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if len(self.longname) == 0:
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return []
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encoded_long_name = self.longname.encode('utf-16-le')
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long_name_padding = "\0" * (26 - (len(encoded_long_name) % 26))
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padded_long_name = encoded_long_name + long_name_padding
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chunks = [padded_long_name[i:i+26] for i in range(0,
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len(padded_long_name), 26)]
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records = []
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sequence_number = 1
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for c in chunks:
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sequence_byte = struct.pack("B", sequence_number)
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sequence_number += 1
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record = sequence_byte + c[:10] + LFN_ATTRIBUTES_BYTE + "\0" + \
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checksum + c[10:22] + "\0\0" + c[22:]
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records.append(record)
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last = records.pop()
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last_seq = struct.unpack("B", last[0])[0]
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last_seq = last_seq | 0x40
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last = struct.pack("B", last_seq) + last[1:]
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records.append(last)
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records.reverse()
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return records
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def commit(self, f):
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"""
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Write this dentry into the given file-like object,
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which is assumed to contain a FAT directory.
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"""
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f.seek(0)
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padded_short_name = self.shortname.ljust(8)
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padded_ext = self.ext.ljust(3)
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name_data = padded_short_name + padded_ext
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longname_record_data = self.longname_records(lfn_checksum(name_data))
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record = struct.pack("<11sBBBHHHHHHHL",
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name_data,
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self.attributes,
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0,
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0,
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0,
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0,
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0,
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0,
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0,
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0,
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self.first_cluster,
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self.size)
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entry = "".join(longname_record_data + [record])
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record_count = len(longname_record_data) + 1
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found_count = 0
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while found_count < record_count:
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record = f.read(32)
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if record is None or len(record) != 32:
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# We reached the EOF, so we need to extend the file with a new cluster.
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f.write("\0" * self.fs.bytes_per_cluster)
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f.seek(-self.fs.bytes_per_cluster, os.SEEK_CUR)
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record = f.read(32)
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marker = struct.unpack("B", record[0])[0]
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if marker == DEL_MARKER or marker == 0:
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found_count += 1
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else:
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found_count = 0
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f.seek(-(record_count * 32), os.SEEK_CUR)
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f.write(entry)
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class root_dentry_file(fake_file):
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"""
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File-like object for the root directory. The root directory isn't stored in a
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normal file, so we can't use a normal fat_file object to create a view of it.
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"""
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def __init__(self, fs):
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self.fs = fs
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self.idx = 0
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self.size = fs.root_entries * 32
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def read(self, count):
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f = self.fs.f
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f.seek(self.fs.data_start() + self.idx)
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if self.idx + count > self.size:
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count = self.size - self.idx
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ret = f.read(count)
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self.idx += len(ret)
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return ret
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def write(self, data):
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f = self.fs.f
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f.seek(self.fs.data_start() + self.idx)
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if self.idx + len(data) > self.size:
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data = data[:self.size - self.idx]
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f.write(data)
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self.idx += len(data)
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if self.idx > self.size:
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self.size = self.idx
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class fat(object):
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"A FAT image"
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def __init__(self, path):
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"""
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path: Path to an image file containing a FAT file system.
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"""
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f = open(path, "r+b")
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self.f = f
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f.seek(0xb)
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bytes_per_sector = read_le_short(f)
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sectors_per_cluster = read_byte(f)
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self.bytes_per_cluster = bytes_per_sector * sectors_per_cluster
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reserved_sectors = read_le_short(f)
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assert reserved_sectors == 1, \
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"Can only handle FAT with 1 reserved sector"
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fat_count = read_byte(f)
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assert fat_count == 2, "Can only handle FAT with 2 tables"
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self.root_entries = read_le_short(f)
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skip_short(f) # Image size. Sort of. Useless field.
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skip_byte(f) # Media type. We don't care.
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self.fat_size = read_le_short(f) * bytes_per_sector
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self.root = fat_dir(root_dentry_file(self))
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def data_start(self):
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"""
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Index of the first byte after the FAT tables.
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"""
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return FAT_TABLE_START + self.fat_size * 2
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def get_chain_size(self, head_cluster):
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"""
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Return how many total bytes are in the cluster chain rooted at the given
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cluster.
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"""
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if head_cluster == 0:
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return 0
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f = self.f
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f.seek(FAT_TABLE_START + head_cluster * 2)
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cluster_count = 0
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while head_cluster <= MAX_CLUSTER_ID:
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cluster_count += 1
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head_cluster = read_le_short(f)
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f.seek(FAT_TABLE_START + head_cluster * 2)
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return cluster_count * self.bytes_per_cluster
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def read_dentry(self, f=None):
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"""
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Read and decode a dentry from the given file-like object at its current
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seek position.
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"""
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f = f or self.f
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attributes = None
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consumed = 1
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lfn_entries = {}
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while True:
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skip_bytes(f, 11)
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attributes = read_byte(f)
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rewind_bytes(f, 12)
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if attributes & LFN_ATTRIBUTES != LFN_ATTRIBUTES:
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break
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consumed += 1
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seq = read_byte(f)
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chars = f.read(10)
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skip_bytes(f, 3) # Various hackish nonsense
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chars += f.read(12)
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skip_short(f) # Lots more nonsense
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chars += f.read(4)
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chars = unicode(chars, "utf-16-le").encode("utf-8")
|
|
|
|
lfn_entries[seq] = chars
|
|
|
|
ind = read_byte(f)
|
|
|
|
if ind == 0 or ind == DEL_MARKER:
|
|
skip_bytes(f, 31)
|
|
return (None, consumed)
|
|
|
|
if ind == ESCAPE_DEL_MARKER:
|
|
ind = DEL_MARKER
|
|
|
|
ind = str(unichr(ind))
|
|
|
|
if ind == '.':
|
|
skip_bytes(f, 31)
|
|
return (None, consumed)
|
|
|
|
shortname = ind + f.read(7).rstrip()
|
|
ext = f.read(3).rstrip()
|
|
skip_bytes(f, 15) # Assorted flags, ctime/atime/mtime, etc.
|
|
first_cluster = read_le_short(f)
|
|
size = read_le_long(f)
|
|
|
|
lfn = lfn_entries.items()
|
|
lfn.sort(key=lambda x: x[0])
|
|
lfn = reduce(lambda x, y: x + y[1], lfn, "")
|
|
|
|
if len(lfn) == 0:
|
|
lfn = None
|
|
else:
|
|
lfn = lfn.split('\0', 1)[0]
|
|
|
|
return (dentry(self, attributes, shortname, ext, lfn, first_cluster,
|
|
size), consumed)
|
|
|
|
def read_file(self, head_cluster, start_byte, size):
|
|
"""
|
|
Read from a given FAT file.
|
|
head_cluster: The first cluster in the file.
|
|
start_byte: How many bytes in to the file to begin the read.
|
|
size: How many bytes to read.
|
|
"""
|
|
f = self.f
|
|
|
|
assert size >= 0, "Can't read a negative amount"
|
|
if size == 0:
|
|
return ""
|
|
|
|
got_data = ""
|
|
|
|
while True:
|
|
size_now = size
|
|
if start_byte + size > self.bytes_per_cluster:
|
|
size_now = self.bytes_per_cluster - start_byte
|
|
|
|
if start_byte < self.bytes_per_cluster:
|
|
size -= size_now
|
|
|
|
cluster_bytes_from_root = (head_cluster - 2) * \
|
|
self.bytes_per_cluster
|
|
bytes_from_root = cluster_bytes_from_root + start_byte
|
|
bytes_from_data_start = bytes_from_root + self.root_entries * 32
|
|
|
|
f.seek(self.data_start() + bytes_from_data_start)
|
|
line = f.read(size_now)
|
|
got_data += line
|
|
|
|
if size == 0:
|
|
return got_data
|
|
|
|
start_byte -= self.bytes_per_cluster
|
|
|
|
if start_byte < 0:
|
|
start_byte = 0
|
|
|
|
f.seek(FAT_TABLE_START + head_cluster * 2)
|
|
assert head_cluster <= MAX_CLUSTER_ID, "Out-of-bounds read"
|
|
head_cluster = read_le_short(f)
|
|
assert head_cluster > 0, "Read free cluster"
|
|
|
|
return got_data
|
|
|
|
def write_cluster_entry(self, entry):
|
|
"""
|
|
Write a cluster entry to the FAT table. Assumes our backing file is already
|
|
seeked to the correct entry in the first FAT table.
|
|
"""
|
|
f = self.f
|
|
f.write(struct.pack("<H", entry))
|
|
skip_bytes(f, self.fat_size - 2)
|
|
f.write(struct.pack("<H", entry))
|
|
rewind_bytes(f, self.fat_size)
|
|
|
|
def allocate(self, amount):
|
|
"""
|
|
Allocate a new cluster chain big enough to hold at least the given amount
|
|
of bytes.
|
|
"""
|
|
assert amount > 0, "Must allocate a non-zero amount."
|
|
|
|
f = self.f
|
|
f.seek(FAT_TABLE_START + 4)
|
|
|
|
current = None
|
|
current_size = 0
|
|
free_zones = {}
|
|
|
|
pos = 2
|
|
while pos < self.fat_size / 2:
|
|
data = read_le_short(f)
|
|
|
|
if data == 0 and current is not None:
|
|
current_size += 1
|
|
elif data == 0:
|
|
current = pos
|
|
current_size = 1
|
|
elif current is not None:
|
|
free_zones[current] = current_size
|
|
current = None
|
|
|
|
pos += 1
|
|
|
|
if current is not None:
|
|
free_zones[current] = current_size
|
|
|
|
free_zones = free_zones.items()
|
|
free_zones.sort(key=lambda x: x[1])
|
|
|
|
grabbed_zones = []
|
|
grabbed = 0
|
|
|
|
while grabbed < amount and len(free_zones) > 0:
|
|
zone = free_zones.pop()
|
|
grabbed += zone[1] * self.bytes_per_cluster
|
|
grabbed_zones.append(zone)
|
|
|
|
if grabbed < amount:
|
|
return None
|
|
|
|
excess = (grabbed - amount) / self.bytes_per_cluster
|
|
|
|
grabbed_zones[-1] = (grabbed_zones[-1][0],
|
|
grabbed_zones[-1][1] - excess)
|
|
|
|
out = None
|
|
grabbed_zones.reverse()
|
|
|
|
for cluster, size in grabbed_zones:
|
|
entries = range(cluster + 1, cluster + size)
|
|
entries.append(out or 0xFFFF)
|
|
out = cluster
|
|
f.seek(FAT_TABLE_START + cluster * 2)
|
|
for entry in entries:
|
|
self.write_cluster_entry(entry)
|
|
|
|
return out
|
|
|
|
def extend_cluster(self, cluster, amount):
|
|
"""
|
|
Given a cluster which is the *last* cluster in a chain, extend it to hold
|
|
at least `amount` more bytes.
|
|
"""
|
|
if amount == 0:
|
|
return
|
|
f = self.f
|
|
entry_offset = FAT_TABLE_START + cluster * 2
|
|
f.seek(entry_offset)
|
|
assert read_le_short(f) == 0xFFFF, "Extending from middle of chain"
|
|
|
|
return_cluster = self.allocate(amount)
|
|
f.seek(entry_offset)
|
|
self.write_cluster_entry(return_cluster)
|
|
return return_cluster
|
|
|
|
def write_file(self, head_cluster, start_byte, data):
|
|
"""
|
|
Write to a given FAT file.
|
|
|
|
head_cluster: The first cluster in the file.
|
|
start_byte: How many bytes in to the file to begin the write.
|
|
data: The data to write.
|
|
"""
|
|
f = self.f
|
|
last_offset = start_byte + len(data)
|
|
current_offset = 0
|
|
current_cluster = head_cluster
|
|
|
|
while current_offset < last_offset:
|
|
# Write everything that falls in the cluster starting at current_offset.
|
|
data_begin = max(0, current_offset - start_byte)
|
|
data_end = min(len(data),
|
|
current_offset + self.bytes_per_cluster - start_byte)
|
|
if data_end > data_begin:
|
|
cluster_file_offset = (self.data_start() + self.root_entries * 32 +
|
|
(current_cluster - 2) * self.bytes_per_cluster)
|
|
f.seek(cluster_file_offset + max(0, start_byte - current_offset))
|
|
f.write(data[data_begin:data_end])
|
|
|
|
# Advance to the next cluster in the chain or get a new cluster if needed.
|
|
current_offset += self.bytes_per_cluster
|
|
if last_offset > current_offset:
|
|
f.seek(FAT_TABLE_START + current_cluster * 2)
|
|
next_cluster = read_le_short(f)
|
|
if next_cluster > MAX_CLUSTER_ID:
|
|
next_cluster = self.extend_cluster(current_cluster, len(data))
|
|
current_cluster = next_cluster
|
|
assert current_cluster > 0, "Cannot write free cluster"
|
|
|
|
|
|
def add_item(directory, item):
|
|
"""
|
|
Copy a file into the given FAT directory. If the path given is a directory,
|
|
copy recursively.
|
|
directory: fat_dir to copy the file in to
|
|
item: Path of local file to copy
|
|
"""
|
|
if os.path.isdir(item):
|
|
base = os.path.basename(item)
|
|
if len(base) == 0:
|
|
base = os.path.basename(item[:-1])
|
|
sub = directory.new_subdirectory(base)
|
|
for next_item in sorted(os.listdir(item)):
|
|
add_item(sub, os.path.join(item, next_item))
|
|
else:
|
|
with open(item, 'rb') as f:
|
|
directory.new_file(os.path.basename(item), f)
|
|
|
|
if __name__ == "__main__":
|
|
if len(sys.argv) < 3:
|
|
print("Usage: fat16copy.py <image> <file> [<file> ...]")
|
|
print("Files are copied into the root of the image.")
|
|
print("Directories are copied recursively")
|
|
sys.exit(1)
|
|
|
|
root = fat(sys.argv[1]).root
|
|
|
|
for p in sys.argv[2:]:
|
|
add_item(root, p)
|