# Library for manipulations with qcow2 image # # Copyright (c) 2020 Virtuozzo International GmbH. # Copyright (C) 2012 Red Hat, Inc. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # import struct import string import json class ComplexEncoder(json.JSONEncoder): def default(self, obj): if hasattr(obj, 'to_json'): return obj.to_json() else: return json.JSONEncoder.default(self, obj) class Qcow2Field: def __init__(self, value): self.value = value def __str__(self): return str(self.value) class Flags64(Qcow2Field): def __str__(self): bits = [] for bit in range(64): if self.value & (1 << bit): bits.append(bit) return str(bits) class BitmapFlags(Qcow2Field): flags = { 0x1: 'in-use', 0x2: 'auto' } def __str__(self): bits = [] for bit in range(64): flag = self.value & (1 << bit) if flag: bits.append(self.flags.get(flag, f'bit-{bit}')) return f'{self.value:#x} ({bits})' class Enum(Qcow2Field): def __str__(self): return f'{self.value:#x} ({self.mapping.get(self.value, "")})' class Qcow2StructMeta(type): # Mapping from c types to python struct format ctypes = { 'u8': 'B', 'u16': 'H', 'u32': 'I', 'u64': 'Q' } def __init__(self, name, bases, attrs): if 'fields' in attrs: self.fmt = '>' + ''.join(self.ctypes[f[0]] for f in self.fields) class Qcow2Struct(metaclass=Qcow2StructMeta): """Qcow2Struct: base class for qcow2 data structures Successors should define fields class variable, which is: list of tuples, each of three elements: - c-type (one of 'u8', 'u16', 'u32', 'u64') - format (format_spec to use with .format() when dump or 'mask' to dump bitmasks) - field name """ def __init__(self, fd=None, offset=None, data=None): """ Two variants: 1. Specify data. fd and offset must be None. 2. Specify fd and offset, data must be None. offset may be omitted in this case, than current position of fd is used. """ if data is None: assert fd is not None buf_size = struct.calcsize(self.fmt) if offset is not None: fd.seek(offset) data = fd.read(buf_size) else: assert fd is None and offset is None values = struct.unpack(self.fmt, data) self.__dict__ = dict((field[2], values[i]) for i, field in enumerate(self.fields)) def dump(self, is_json=False): if is_json: print(json.dumps(self.to_json(), indent=4, cls=ComplexEncoder)) return for f in self.fields: value = self.__dict__[f[2]] if isinstance(f[1], str): value_str = f[1].format(value) else: value_str = str(f[1](value)) print('{:<25} {}'.format(f[2], value_str)) def to_json(self): return dict((f[2], self.__dict__[f[2]]) for f in self.fields) class Qcow2BitmapExt(Qcow2Struct): fields = ( ('u32', '{}', 'nb_bitmaps'), ('u32', '{}', 'reserved32'), ('u64', '{:#x}', 'bitmap_directory_size'), ('u64', '{:#x}', 'bitmap_directory_offset') ) def __init__(self, fd, cluster_size): super().__init__(fd=fd) tail = struct.calcsize(self.fmt) % 8 if tail: fd.seek(8 - tail, 1) position = fd.tell() self.cluster_size = cluster_size self.read_bitmap_directory(fd) fd.seek(position) def read_bitmap_directory(self, fd): fd.seek(self.bitmap_directory_offset) self.bitmap_directory = \ [Qcow2BitmapDirEntry(fd, cluster_size=self.cluster_size) for _ in range(self.nb_bitmaps)] def dump(self): super().dump() for entry in self.bitmap_directory: print() entry.dump() def to_json(self): fields_dict = super().to_json() fields_dict['bitmap_directory'] = self.bitmap_directory return fields_dict class Qcow2BitmapDirEntry(Qcow2Struct): fields = ( ('u64', '{:#x}', 'bitmap_table_offset'), ('u32', '{}', 'bitmap_table_size'), ('u32', BitmapFlags, 'flags'), ('u8', '{}', 'type'), ('u8', '{}', 'granularity_bits'), ('u16', '{}', 'name_size'), ('u32', '{}', 'extra_data_size') ) def __init__(self, fd, cluster_size): super().__init__(fd=fd) self.cluster_size = cluster_size # Seek relative to the current position in the file fd.seek(self.extra_data_size, 1) bitmap_name = fd.read(self.name_size) self.name = bitmap_name.decode('ascii') # Move position to the end of the entry in the directory entry_raw_size = self.bitmap_dir_entry_raw_size() padding = ((entry_raw_size + 7) & ~7) - entry_raw_size fd.seek(padding, 1) self.bitmap_table = Qcow2BitmapTable(fd=fd, offset=self.bitmap_table_offset, nb_entries=self.bitmap_table_size, cluster_size=self.cluster_size) def bitmap_dir_entry_raw_size(self): return struct.calcsize(self.fmt) + self.name_size + \ self.extra_data_size def dump(self): print(f'{"Bitmap name":<25} {self.name}') super(Qcow2BitmapDirEntry, self).dump() self.bitmap_table.dump() def to_json(self): # Put the name ahead of the dict return { 'name': self.name, **super().to_json(), 'bitmap_table': self.bitmap_table } class Qcow2BitmapTableEntry(Qcow2Struct): fields = ( ('u64', '{}', 'entry'), ) BME_TABLE_ENTRY_RESERVED_MASK = 0xff000000000001fe BME_TABLE_ENTRY_OFFSET_MASK = 0x00fffffffffffe00 BME_TABLE_ENTRY_FLAG_ALL_ONES = 1 def __init__(self, fd): super().__init__(fd=fd) self.reserved = self.entry & self.BME_TABLE_ENTRY_RESERVED_MASK self.offset = self.entry & self.BME_TABLE_ENTRY_OFFSET_MASK if self.offset: if self.entry & self.BME_TABLE_ENTRY_FLAG_ALL_ONES: self.type = 'invalid' else: self.type = 'serialized' elif self.entry & self.BME_TABLE_ENTRY_FLAG_ALL_ONES: self.type = 'all-ones' else: self.type = 'all-zeroes' def to_json(self): return {'type': self.type, 'offset': self.offset, 'reserved': self.reserved} class Qcow2BitmapTable: def __init__(self, fd, offset, nb_entries, cluster_size): self.cluster_size = cluster_size position = fd.tell() fd.seek(offset) self.entries = [Qcow2BitmapTableEntry(fd) for _ in range(nb_entries)] fd.seek(position) def dump(self): bitmap_table = enumerate(self.entries) print(f'{"Bitmap table":<14} {"type":<15} {"size":<12} {"offset"}') for i, entry in bitmap_table: if entry.type == 'serialized': size = self.cluster_size else: size = 0 print(f'{i:<14} {entry.type:<15} {size:<12} {entry.offset}') def to_json(self): return self.entries QCOW2_EXT_MAGIC_BITMAPS = 0x23852875 class QcowHeaderExtension(Qcow2Struct): class Magic(Enum): mapping = { 0xe2792aca: 'Backing format', 0x6803f857: 'Feature table', 0x0537be77: 'Crypto header', QCOW2_EXT_MAGIC_BITMAPS: 'Bitmaps', 0x44415441: 'Data file' } def to_json(self): return self.mapping.get(self.value, "") fields = ( ('u32', Magic, 'magic'), ('u32', '{}', 'length') # length bytes of data follows # then padding to next multiply of 8 ) def __init__(self, magic=None, length=None, data=None, fd=None, cluster_size=None): """ Support both loading from fd and creation from user data. For fd-based creation current position in a file will be used to read the data. The cluster_size value may be obtained by dependent structures. This should be somehow refactored and functionality should be moved to superclass (to allow creation of any qcow2 struct), but then, fields of variable length (data here) should be supported in base class somehow. Note also, that we probably want to parse different extensions. Should they be subclasses of this class, or how to do it better? Should it be something like QAPI union with discriminator field (magic here). So, it's a TODO. We'll see how to properly refactor this when we have more qcow2 structures. """ if fd is None: assert all(v is not None for v in (magic, length, data)) self.magic = magic self.length = length if length % 8 != 0: padding = 8 - (length % 8) data += b'\0' * padding self.data = data else: assert all(v is None for v in (magic, length, data)) super().__init__(fd=fd) if self.magic == QCOW2_EXT_MAGIC_BITMAPS: self.obj = Qcow2BitmapExt(fd=fd, cluster_size=cluster_size) self.data = None else: padded = (self.length + 7) & ~7 self.data = fd.read(padded) assert self.data is not None self.obj = None if self.data is not None: data_str = self.data[:self.length] if all(c in string.printable.encode( 'ascii') for c in data_str): data_str = f"'{ data_str.decode('ascii') }'" else: data_str = '' self.data_str = data_str def dump(self): super().dump() if self.obj is None: print(f'{"data":<25} {self.data_str}') else: self.obj.dump() def to_json(self): # Put the name ahead of the dict res = {'name': self.Magic(self.magic), **super().to_json()} if self.obj is not None: res['data'] = self.obj else: res['data_str'] = self.data_str return res @classmethod def create(cls, magic, data): return QcowHeaderExtension(magic, len(data), data) class QcowHeader(Qcow2Struct): fields = ( # Version 2 header fields ('u32', '{:#x}', 'magic'), ('u32', '{}', 'version'), ('u64', '{:#x}', 'backing_file_offset'), ('u32', '{:#x}', 'backing_file_size'), ('u32', '{}', 'cluster_bits'), ('u64', '{}', 'size'), ('u32', '{}', 'crypt_method'), ('u32', '{}', 'l1_size'), ('u64', '{:#x}', 'l1_table_offset'), ('u64', '{:#x}', 'refcount_table_offset'), ('u32', '{}', 'refcount_table_clusters'), ('u32', '{}', 'nb_snapshots'), ('u64', '{:#x}', 'snapshot_offset'), # Version 3 header fields ('u64', Flags64, 'incompatible_features'), ('u64', Flags64, 'compatible_features'), ('u64', Flags64, 'autoclear_features'), ('u32', '{}', 'refcount_order'), ('u32', '{}', 'header_length'), ) def __init__(self, fd): super().__init__(fd=fd, offset=0) self.set_defaults() self.cluster_size = 1 << self.cluster_bits fd.seek(self.header_length) self.load_extensions(fd) if self.backing_file_offset: fd.seek(self.backing_file_offset) self.backing_file = fd.read(self.backing_file_size) else: self.backing_file = None def set_defaults(self): if self.version == 2: self.incompatible_features = 0 self.compatible_features = 0 self.autoclear_features = 0 self.refcount_order = 4 self.header_length = 72 def load_extensions(self, fd): self.extensions = [] if self.backing_file_offset != 0: end = min(self.cluster_size, self.backing_file_offset) else: end = self.cluster_size while fd.tell() < end: ext = QcowHeaderExtension(fd=fd, cluster_size=self.cluster_size) if ext.magic == 0: break else: self.extensions.append(ext) def update_extensions(self, fd): fd.seek(self.header_length) extensions = self.extensions extensions.append(QcowHeaderExtension(0, 0, b'')) for ex in extensions: buf = struct.pack('>II', ex.magic, ex.length) fd.write(buf) fd.write(ex.data) if self.backing_file is not None: self.backing_file_offset = fd.tell() fd.write(self.backing_file) if fd.tell() > self.cluster_size: raise Exception('I think I just broke the image...') def update(self, fd): header_bytes = self.header_length self.update_extensions(fd) fd.seek(0) header = tuple(self.__dict__[f] for t, p, f in QcowHeader.fields) buf = struct.pack(QcowHeader.fmt, *header) buf = buf[0:header_bytes-1] fd.write(buf) def dump_extensions(self, is_json=False): if is_json: print(json.dumps(self.extensions, indent=4, cls=ComplexEncoder)) return for ex in self.extensions: print('Header extension:') ex.dump() print()