core-admin/qubes/tarwriter.py

#
# The Qubes OS Project, http://www.qubes-os.org
#
# Copyright (C) 2016 Marek Marczykowski-Górecki
#                               <marmarek@invisiblethingslab.com>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, see <https://www.gnu.org/licenses/>.
import argparse
import functools
import os
import subprocess
import tarfile
import io

BUF_SIZE = 409600

class TarSparseInfo(tarfile.TarInfo):
    def __init__(self, name="", sparsemap=None):
        super().__init__(name)
        if sparsemap is not None:
            self.type = tarfile.REGTYPE
            self.sparsemap = sparsemap
            self.sparsemap_buf = self.format_sparse_map()
            # compact size
            self.size = functools.reduce(lambda x, y: x+y[1], sparsemap,
                0) + len(self.sparsemap_buf)
            self.pax_headers['GNU.sparse.major'] = '1'
            self.pax_headers['GNU.sparse.minor'] = '0'
            self.pax_headers['GNU.sparse.name'] = name
            self.pax_headers['GNU.sparse.realsize'] = str(self.realsize)
            self.name = '{}/GNUSparseFile.{}/{}'.format(
                os.path.dirname(name), os.getpid(), os.path.basename(name))
        else:
            self.sparsemap = []
            self.sparsemap_buf = b''

    @property
    def realsize(self):
        if self.sparsemap:
            return self.sparsemap[-1][0] + self.sparsemap[-1][1]
        return self.size

    def format_sparse_map(self):
        sparsemap_txt = (str(len(self.sparsemap)) + '\n' +
            ''.join('{}\n{}\n'.format(*entry) for entry in self.sparsemap))
        sparsemap_txt_len = len(sparsemap_txt)
        if sparsemap_txt_len % tarfile.BLOCKSIZE:
            padding = '\0' * (tarfile.BLOCKSIZE -
                              sparsemap_txt_len % tarfile.BLOCKSIZE)
        else:
            padding = ''
        return (sparsemap_txt + padding).encode()

    def tobuf(self, format=tarfile.PAX_FORMAT, encoding=tarfile.ENCODING,
            errors="strict"):
        # pylint: disable=redefined-builtin
        header_buf = super().tobuf(format, encoding, errors)
        return header_buf + self.sparsemap_buf

def get_sparse_map(input_file):
    '''
    Return map of the file where actual data is present, ignoring zero-ed
    blocks. Last entry of the map spans to the end of file, even if that part is
    zero-size (when file ends with zeros).

    This function is performance critical.

    :param input_file: io.File object
    :return: iterable of (offset, size)
    '''
    zero_block = bytearray(tarfile.BLOCKSIZE)
    buf = bytearray(BUF_SIZE)
    in_data_block = False
    data_block_start = 0
    buf_start_offset = 0
    while True:
        buf_len = input_file.readinto(buf)
        if not buf_len:
            break
        for offset in range(0, buf_len, tarfile.BLOCKSIZE):
            if buf[offset:offset+tarfile.BLOCKSIZE] == zero_block:
                if in_data_block:
                    in_data_block = False
                    yield (data_block_start,
                        buf_start_offset+offset-data_block_start)
            else:
                if not in_data_block:
                    in_data_block = True
                    data_block_start = buf_start_offset+offset
        buf_start_offset += buf_len
    if in_data_block:
        yield (data_block_start, buf_start_offset-data_block_start)
    else:
        # always emit last slice to the input end - otherwise extracted file
        # will be truncated
        yield (buf_start_offset, 0)


def copy_sparse_data(input_stream, output_stream, sparse_map):
    '''Copy data blocks from input to output according to sparse_map

    :param input_stream: io.IOBase input instance
    :param output_stream: io.IOBase output instance
    :param sparse_map: iterable of (offset, size)
    '''

    buf = bytearray(BUF_SIZE)

    for chunk in sparse_map:
        input_stream.seek(chunk[0])
        left = chunk[1]
        while left:
            if left > BUF_SIZE:
                read = input_stream.readinto(buf)
                output_stream.write(buf[:read])
            else:
                buf_trailer = input_stream.read(left)
                read = len(buf_trailer)
                output_stream.write(buf_trailer)
            left -= read
            if not read:
                raise Exception('premature EOF')

def finalize(output):
    '''Write EOF blocks'''
    output.write(b'\0' * 512)
    output.write(b'\0' * 512)

def main(args=None):
    parser = argparse.ArgumentParser()
    parser.add_argument('--override-name', action='store', dest='override_name',
        help='use this name in tar header')
    parser.add_argument('--use-compress-program', default=None,
        metavar='COMMAND', action='store', dest='use_compress_program',
        help='Filter data through COMMAND.')
    parser.add_argument('input_file',
        help='input file name')
    parser.add_argument('output_file', default='-', nargs='?',
        help='output file name')
    args = parser.parse_args(args)
    input_file = io.open(args.input_file, 'rb')
    sparse_map = list(get_sparse_map(input_file))
    header_name = args.input_file
    if args.override_name:
        header_name = args.override_name
    tar_info = TarSparseInfo(header_name, sparse_map)
    if args.output_file == '-':
        output = io.open('/dev/stdout', 'wb')
    else:
        output = io.open(args.output_file, 'wb')
    if args.use_compress_program:
        compress = subprocess.Popen([args.use_compress_program],
            stdin=subprocess.PIPE, stdout=output)
        output = compress.stdin
    else:
        compress = None
    output.write(tar_info.tobuf(tarfile.PAX_FORMAT))
    copy_sparse_data(input_file, output, sparse_map)
    finalize(output)
    input_file.close()
    output.close()
    if compress is not None:
        compress.wait()
        return compress.returncode
    return 0

if __name__ == '__main__':
    main()
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`#`
			`# The Qubes OS Project, http://www.qubes-os.org`
			`#`
			`# Copyright (C) 2016 Marek Marczykowski-Górecki`
			`# <marmarek@invisiblethingslab.com>`
			`#`
Change license to LGPL v2.1+ See this thread for reasoning and acceptance from contributors: https://groups.google.com/d/topic/qubes-devel/G7KzrfU0lWY/discussion "Changing qubes-core-admin license to LGPL v2.1+" 2017-10-12 00:11:50 +02:00			`# This library is free software; you can redistribute it and/or`
			`# modify it under the terms of the GNU Lesser General Public`
			`# License as published by the Free Software Foundation; either`
			`# version 2.1 of the License, or (at your option) any later version.`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`#`
Change license to LGPL v2.1+ See this thread for reasoning and acceptance from contributors: https://groups.google.com/d/topic/qubes-devel/G7KzrfU0lWY/discussion "Changing qubes-core-admin license to LGPL v2.1+" 2017-10-12 00:11:50 +02:00			`# This library is distributed in the hope that it will be useful,`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`# but WITHOUT ANY WARRANTY; without even the implied warranty of`
Change license to LGPL v2.1+ See this thread for reasoning and acceptance from contributors: https://groups.google.com/d/topic/qubes-devel/G7KzrfU0lWY/discussion "Changing qubes-core-admin license to LGPL v2.1+" 2017-10-12 00:11:50 +02:00			`# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
			`# Lesser General Public License for more details.`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`#`
Change license to LGPL v2.1+ See this thread for reasoning and acceptance from contributors: https://groups.google.com/d/topic/qubes-devel/G7KzrfU0lWY/discussion "Changing qubes-core-admin license to LGPL v2.1+" 2017-10-12 00:11:50 +02:00			`# You should have received a copy of the GNU Lesser General Public`
			`# License along with this library; if not, see <https://www.gnu.org/licenses/>.`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`import argparse`
			`import functools`
tarwriter: use new PAX format, instead of old GNU for sparse files The old format have many issues and is discouraged by tar developers. In this case the most important one is header with possible non-ASCII characters, which will result in UnicodeDecodeError (tarfile module require header parts in utf-8). PAX format is much cleaner, as it use standard mechanism for extended headers. 2017-07-21 03:14:06 +02:00			`import os`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`import subprocess`
			`import tarfile`
			`import io`

			`BUF_SIZE = 409600`

			`class TarSparseInfo(tarfile.TarInfo):`
			`def __init__(self, name="", sparsemap=None):`
Make pylint happy - ignore raise-missing-from - fix super-with-arguments 2020-08-23 02:22:41 +02:00			`super().__init__(name)`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`if sparsemap is not None:`
tarwriter: use new PAX format, instead of old GNU for sparse files The old format have many issues and is discouraged by tar developers. In this case the most important one is header with possible non-ASCII characters, which will result in UnicodeDecodeError (tarfile module require header parts in utf-8). PAX format is much cleaner, as it use standard mechanism for extended headers. 2017-07-21 03:14:06 +02:00			`self.type = tarfile.REGTYPE`
			`self.sparsemap = sparsemap`
			`self.sparsemap_buf = self.format_sparse_map()`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`# compact size`
tarwriter: use new PAX format, instead of old GNU for sparse files The old format have many issues and is discouraged by tar developers. In this case the most important one is header with possible non-ASCII characters, which will result in UnicodeDecodeError (tarfile module require header parts in utf-8). PAX format is much cleaner, as it use standard mechanism for extended headers. 2017-07-21 03:14:06 +02:00			`self.size = functools.reduce(lambda x, y: x+y[1], sparsemap,`
			`0) + len(self.sparsemap_buf)`
			`self.pax_headers['GNU.sparse.major'] = '1'`
			`self.pax_headers['GNU.sparse.minor'] = '0'`
			`self.pax_headers['GNU.sparse.name'] = name`
			`self.pax_headers['GNU.sparse.realsize'] = str(self.realsize)`
			`self.name = '{}/GNUSparseFile.{}/{}'.format(`
			`os.path.dirname(name), os.getpid(), os.path.basename(name))`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`else:`
			`self.sparsemap = []`
tarwriter: use new PAX format, instead of old GNU for sparse files The old format have many issues and is discouraged by tar developers. In this case the most important one is header with possible non-ASCII characters, which will result in UnicodeDecodeError (tarfile module require header parts in utf-8). PAX format is much cleaner, as it use standard mechanism for extended headers. 2017-07-21 03:14:06 +02:00			`self.sparsemap_buf = b''`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00
			`@property`
			`def realsize(self):`
Make pylint happy New pylint throw some more warnings. 2017-04-21 15:43:46 +02:00			`if self.sparsemap:`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`return self.sparsemap[-1][0] + self.sparsemap[-1][1]`
Make pylint happy New pylint throw some more warnings. 2017-04-21 15:43:46 +02:00			`return self.size`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00
tarwriter: use new PAX format, instead of old GNU for sparse files The old format have many issues and is discouraged by tar developers. In this case the most important one is header with possible non-ASCII characters, which will result in UnicodeDecodeError (tarfile module require header parts in utf-8). PAX format is much cleaner, as it use standard mechanism for extended headers. 2017-07-21 03:14:06 +02:00			`def format_sparse_map(self):`
			`sparsemap_txt = (str(len(self.sparsemap)) + '\n' +`
			`''.join('{}\n{}\n'.format(*entry) for entry in self.sparsemap))`
			`sparsemap_txt_len = len(sparsemap_txt)`
			`if sparsemap_txt_len % tarfile.BLOCKSIZE:`
			`padding = '\0' * (tarfile.BLOCKSIZE -`
			`sparsemap_txt_len % tarfile.BLOCKSIZE)`
			`else:`
			`padding = ''`
			`return (sparsemap_txt + padding).encode()`

			`def tobuf(self, format=tarfile.PAX_FORMAT, encoding=tarfile.ENCODING,`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`errors="strict"):`
			`# pylint: disable=redefined-builtin`
Make pylint happy - ignore raise-missing-from - fix super-with-arguments 2020-08-23 02:22:41 +02:00			`header_buf = super().tobuf(format, encoding, errors)`
tarwriter: use new PAX format, instead of old GNU for sparse files The old format have many issues and is discouraged by tar developers. In this case the most important one is header with possible non-ASCII characters, which will result in UnicodeDecodeError (tarfile module require header parts in utf-8). PAX format is much cleaner, as it use standard mechanism for extended headers. 2017-07-21 03:14:06 +02:00			`return header_buf + self.sparsemap_buf`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00
			`def get_sparse_map(input_file):`
			`'''`
			`Return map of the file where actual data is present, ignoring zero-ed`
			`blocks. Last entry of the map spans to the end of file, even if that part is`
			`zero-size (when file ends with zeros).`

			`This function is performance critical.`

			`:param input_file: io.File object`
			`:return: iterable of (offset, size)`
			`'''`
			`zero_block = bytearray(tarfile.BLOCKSIZE)`
			`buf = bytearray(BUF_SIZE)`
			`in_data_block = False`
			`data_block_start = 0`
			`buf_start_offset = 0`
			`while True:`
			`buf_len = input_file.readinto(buf)`
			`if not buf_len:`
			`break`
			`for offset in range(0, buf_len, tarfile.BLOCKSIZE):`
			`if buf[offset:offset+tarfile.BLOCKSIZE] == zero_block:`
			`if in_data_block:`
			`in_data_block = False`
			`yield (data_block_start,`
			`buf_start_offset+offset-data_block_start)`
			`else:`
			`if not in_data_block:`
			`in_data_block = True`
			`data_block_start = buf_start_offset+offset`
			`buf_start_offset += buf_len`
			`if in_data_block:`
			`yield (data_block_start, buf_start_offset-data_block_start)`
			`else:`
			`# always emit last slice to the input end - otherwise extracted file`
			`# will be truncated`
			`yield (buf_start_offset, 0)`


			`def copy_sparse_data(input_stream, output_stream, sparse_map):`
			`'''Copy data blocks from input to output according to sparse_map`

			`:param input_stream: io.IOBase input instance`
			`:param output_stream: io.IOBase output instance`
			`:param sparse_map: iterable of (offset, size)`
			`'''`

			`buf = bytearray(BUF_SIZE)`

			`for chunk in sparse_map:`
			`input_stream.seek(chunk[0])`
			`left = chunk[1]`
			`while left:`
			`if left > BUF_SIZE:`
			`read = input_stream.readinto(buf)`
			`output_stream.write(buf[:read])`
			`else:`
			`buf_trailer = input_stream.read(left)`
			`read = len(buf_trailer)`
			`output_stream.write(buf_trailer)`
			`left -= read`
			`if not read:`
			`raise Exception('premature EOF')`

			`def finalize(output):`
			`'''Write EOF blocks'''`
qubes: port core to python3 fixes QubesOS/qubes-issues#2074 2017-01-18 22:16:46 +01:00			`output.write(b'\0' * 512)`
			`output.write(b'\0' * 512)`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00
			`def main(args=None):`
			`parser = argparse.ArgumentParser()`
			`parser.add_argument('--override-name', action='store', dest='override_name',`
			`help='use this name in tar header')`
			`parser.add_argument('--use-compress-program', default=None,`
			`metavar='COMMAND', action='store', dest='use_compress_program',`
			`help='Filter data through COMMAND.')`
			`parser.add_argument('input_file',`
			`help='input file name')`
			`parser.add_argument('output_file', default='-', nargs='?',`
			`help='output file name')`
			`args = parser.parse_args(args)`
			`input_file = io.open(args.input_file, 'rb')`
			`sparse_map = list(get_sparse_map(input_file))`
			`header_name = args.input_file`
			`if args.override_name:`
			`header_name = args.override_name`
			`tar_info = TarSparseInfo(header_name, sparse_map)`
			`if args.output_file == '-':`
			`output = io.open('/dev/stdout', 'wb')`
			`else:`
			`output = io.open(args.output_file, 'wb')`
			`if args.use_compress_program:`
			`compress = subprocess.Popen([args.use_compress_program],`
			`stdin=subprocess.PIPE, stdout=output)`
			`output = compress.stdin`
			`else:`
			`compress = None`
tarwriter: use new PAX format, instead of old GNU for sparse files The old format have many issues and is discouraged by tar developers. In this case the most important one is header with possible non-ASCII characters, which will result in UnicodeDecodeError (tarfile module require header parts in utf-8). PAX format is much cleaner, as it use standard mechanism for extended headers. 2017-07-21 03:14:06 +02:00			`output.write(tar_info.tobuf(tarfile.PAX_FORMAT))`
qubes/tarwriter: add simple sparse-tar writer module tar can't write archive with _contents_ of block device. We need this to backup LVM-based disk images. To avoid dumping image to a file first, create a simple tar archiver just for this purpose. Python is not the fastest possible technology, it's 3 times slower than equivalent written in C. But it's much easier to read, much less error-prone, and still process 1GB image under 1s (CPU time, leaving along actual disk reads). So, it's acceptable. 2016-10-04 21:54:29 +02:00			`copy_sparse_data(input_file, output, sparse_map)`
			`finalize(output)`
			`input_file.close()`
			`output.close()`
			`if compress is not None:`
			`compress.wait()`
			`return compress.returncode`
			`return 0`

			`if __name__ == '__main__':`
			`main()`