304 lines
11 KiB
Python
Executable File
304 lines
11 KiB
Python
Executable File
#!/usr/bin/env python3
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import array
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import struct
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def read_struct(fmt,buf,offset):
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out, = struct.unpack_from(fmt,buf,offset)
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return out, offset + struct.calcsize(fmt)
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class ISO(object):
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def __init__(self, path):
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with open(path, 'rb') as f:
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tmp = f.read()
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self.data = array.array('b', tmp)
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self.sector_size = 2048
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o = 0x10 * self.sector_size
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self.type, o = read_struct('B',self.data,o)
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self.id, o = read_struct('5s',self.data,o)
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self.version, o = read_struct('B',self.data,o)
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_unused0, o = read_struct('B',self.data,o)
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self.system_id, o = read_struct('32s',self.data,o)
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self.volume_id, o = read_struct('32s',self.data,o)
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_unused1, o = read_struct('8s',self.data,o)
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self.volume_space_lsb, o = read_struct('<I',self.data,o)
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self.volume_space_msb, o = read_struct('>I',self.data,o)
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_unused2, o = read_struct('32s',self.data,o)
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self.volume_set_lsb, o = read_struct('<H',self.data,o)
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self.volume_set_msb, o = read_struct('>H',self.data,o)
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self.volume_seq_lsb, o = read_struct('<H',self.data,o)
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self.volume_seq_msb, o = read_struct('>H',self.data,o)
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self.logical_block_size_lsb, o = read_struct('<H',self.data,o)
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self.logical_block_size_msb, o = read_struct('>H',self.data,o)
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self.path_table_size_lsb, o = read_struct('<I',self.data,o)
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self.path_table_size_msb, o = read_struct('>I',self.data,o)
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self.path_table_lsb, o = read_struct('<I',self.data,o)
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self.optional_path_table_lsb, o = read_struct('<I',self.data,o)
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self.path_table_msb, o = read_struct('>I',self.data,o)
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self.optional_path_table_msb, o = read_struct('>I',self.data,o)
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_offset = o
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self.root_dir_entry, o = read_struct('34s',self.data,o)
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self.root = ISOFile(self,_offset)
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self._cache = {}
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def get_file(self, path):
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if path == '/':
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return self.root
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else:
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if path in self._cache:
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return self._cache[path]
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units = path.split('/')
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units = units[1:] # remove root
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me = self.root
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for i in units:
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next_file = me.find(i)
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if not next_file:
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me = None
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break
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else:
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me = next_file
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self._cache[path] = me
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return me
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class ISOFile(object):
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def __init__(self, iso, offset):
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self.iso = iso
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self.offset = offset
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o = offset
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self.length, o = read_struct('B', self.iso.data, o)
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if not self.length:
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return
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self.ext_length, o = read_struct('B', self.iso.data, o)
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self.extent_start_lsb, o = read_struct('<I',self.iso.data, o)
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self.extent_start_msb, o = read_struct('>I',self.iso.data, o)
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self.extent_length_lsb, o = read_struct('<I',self.iso.data, o)
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self.extent_length_msb, o = read_struct('>I',self.iso.data, o)
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self.date_data, o = read_struct('7s', self.iso.data, o)
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self.flags, o = read_struct('b', self.iso.data, o)
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self.interleave_units, o = read_struct('b', self.iso.data, o)
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self.interleave_gap, o = read_struct('b', self.iso.data, o)
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self.volume_seq_lsb, o = read_struct('<H',self.iso.data, o)
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self.volume_seq_msb, o = read_struct('>H',self.iso.data, o)
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self.name_len, o = read_struct('b', self.iso.data, o)
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self.name, o = read_struct('{}s'.format(self.name_len), self.iso.data, o)
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self.name = self.name.decode('ascii')
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def write_extents(self):
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struct.pack_into('<I', self.iso.data, self.offset + 2, self.extent_start_lsb)
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struct.pack_into('>I', self.iso.data, self.offset + 6, self.extent_start_lsb)
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struct.pack_into('<I', self.iso.data, self.offset + 10, self.extent_length_lsb)
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struct.pack_into('>I', self.iso.data, self.offset + 14, self.extent_length_lsb)
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def readable_name(self):
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if not ';' in self.name:
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return self.name.lower()
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else:
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tmp, _ = self.name.split(';')
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return tmp.lower()
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def list(self):
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sectors = self.iso.data[self.extent_start_lsb * self.iso.sector_size: self.extent_start_lsb * self.iso.sector_size+ 3 * self.iso.sector_size]
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offset = 0
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while 1:
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f = ISOFile(self.iso, self.extent_start_lsb * self.iso.sector_size + offset)
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yield f
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offset += f.length
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if not f.length:
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break
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def find(self, name):
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sectors = self.iso.data[self.extent_start_lsb * self.iso.sector_size: self.extent_start_lsb * self.iso.sector_size+ 3 * self.iso.sector_size]
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offset = 0
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if '.' in name and len(name.split('.')[0]) > 8:
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a, b = name.split('.')
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name = a[:8] + '.' + b
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if '-' in name:
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name = name.replace('-','_')
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while 1:
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f = ISOFile(self.iso, self.extent_start_lsb * self.iso.sector_size + offset)
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if not f.length:
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if offset < self.extent_length_lsb:
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offset += 1
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continue
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else:
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break
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if ';' in f.name:
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tmp, _ = f.name.split(';')
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if tmp.endswith('.'):
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tmp = tmp[:-1]
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if tmp.lower() == name.lower():
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return f
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elif f.name.lower() == name.lower():
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return f
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offset += f.length
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return None
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class FAT(object):
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def __init__(self, iso, offset):
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self.iso = iso
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self.offset = offset
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self.bytespersector, _ = read_struct('H', self.iso.data, offset + 11)
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self.sectorspercluster, _ = read_struct('B', self.iso.data, offset + 13)
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self.reservedsectors, _ = read_struct('H', self.iso.data, offset + 14)
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self.numberoffats, _ = read_struct('B', self.iso.data, offset + 16)
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self.numberofdirs, _ = read_struct('H', self.iso.data, offset + 17)
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self.fatsize, _ = read_struct('H', self.iso.data, offset + 22)
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self.root_dir_sectors = (self.numberofdirs * 32 + (self.bytespersector - 1)) // self.bytespersector
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self.first_data_sector = self.reservedsectors + (self.numberoffats * self.fatsize) + self.root_dir_sectors
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self.root_sector= self.first_data_sector - self.root_dir_sectors
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self.root = FATDirectory(self, self.offset + self.root_sector * self.bytespersector)
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def get_offset(self, cluster):
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return self.offset + ((cluster - 2) * self.sectorspercluster + self.first_data_sector) * self.bytespersector
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def get_file(self, path):
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units = path.split('/')
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units = units[1:]
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me = self.root
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out = None
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for i in units:
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for fatfile in me.list():
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if fatfile.readable_name() == i:
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me = fatfile.to_dir()
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out = fatfile
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break
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else:
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return None
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return out
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class FATDirectory(object):
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def __init__(self, fat, offset):
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self.fat = fat
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self.offset = offset
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def list(self):
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o = self.offset
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while 1:
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out = FATFile(self.fat, o)
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if out.name != '\0\0\0\0\0\0\0\0':
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yield out
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else:
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break
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o += out.size
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class FATFile(object):
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def __init__(self, fat, offset):
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self.fat = fat
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self.offset = offset
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self.magic_long = None
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self.size = 0
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self.long_name = ''
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o = self.offset
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self.actual_offset = o
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self.attrib, _ = read_struct('B',self.fat.iso.data,o+11)
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while (self.attrib & 0x0F) == 0x0F:
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# Long file name entry
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tmp = read_struct('10s',self.fat.iso.data,o+1)[0]
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tmp += read_struct('12s',self.fat.iso.data,o+14)[0]
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tmp += read_struct('4s',self.fat.iso.data,o+28)[0]
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tmp = "".join([chr(x) for x in tmp[::2] if x != '\xFF']).strip('\x00')
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self.long_name = tmp + self.long_name
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self.size += 32
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o = self.offset + self.size
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self.actual_offset = o
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self.attrib, _ = read_struct('B',self.fat.iso.data,o+11)
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o = self.offset + self.size
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self.name, o = read_struct('8s',self.fat.iso.data,o)
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self.ext, o = read_struct('3s',self.fat.iso.data,o)
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self.attrib, o = read_struct('B',self.fat.iso.data,o)
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self.userattrib, o = read_struct('B',self.fat.iso.data,o)
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self.undelete, o = read_struct('b',self.fat.iso.data,o)
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self.createtime, o = read_struct('H',self.fat.iso.data,o)
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self.createdate, o = read_struct('H',self.fat.iso.data,o)
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self.accessdate, o = read_struct('H',self.fat.iso.data,o)
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self.clusterhi, o = read_struct('H',self.fat.iso.data,o)
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self.modifiedti, o = read_struct('H',self.fat.iso.data,o)
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self.modifiedda, o = read_struct('H',self.fat.iso.data,o)
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self.clusterlow, o = read_struct('H',self.fat.iso.data,o)
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self.filesize, o = read_struct('I',self.fat.iso.data,o)
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self.name = self.name.decode('ascii')
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self.ext = self.ext.decode('ascii')
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self.size += 32
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self.cluster = (self.clusterhi << 16) + self.clusterlow
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def is_dir(self):
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return bool(self.attrib & 0x10)
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def is_long(self):
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return bool((self.attrib & 0x0F) == 0x0F)
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def to_dir(self):
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return FATDirectory(self.fat, self.fat.get_offset(self.cluster))
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def get_offset(self):
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return self.fat.get_offset(self.cluster)
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def readable_name(self):
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if self.long_name:
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return self.long_name
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if self.ext.strip():
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return (self.name.strip() + '.' + self.ext.strip()).lower()
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else:
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return self.name.strip().lower()
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image = ISO('image.iso')
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fat = image.root.find('FAT.IMG')
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fatfs = FAT(image, fat.extent_start_lsb * image.sector_size)
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def process(fatfile, path):
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if fatfile.is_long():
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return
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if fatfile.readable_name() == '.':
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return
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if fatfile.readable_name() == '..':
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return
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if fatfile.is_dir():
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for i in fatfile.to_dir().list():
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process(i, path + fatfile.readable_name() + '/')
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else:
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cdfile = image.get_file(path + fatfile.readable_name())
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if not cdfile:
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if fatfile.readable_name() != 'bootia32.efi' and fatfile.readable_name() != 'bootx64.efi':
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print("Warning:", fatfile.readable_name(), "not found in ISO")
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else:
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cdfile.extent_start_lsb = fatfile.get_offset() // 2048
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cdfile.extent_length_lsb = fatfile.filesize
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cdfile.write_extents()
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for i in fatfs.root.list():
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process(i,'/')
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with open('image.iso','wb') as f:
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f.write(image.data)
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