qubes-linux-utils/imgconverter/qubesimgconverter/__init__.py

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#!/usr/bin/python2 -O
'''Qubes Image Converter
Toolkit for secure transfer and conversion of images between Qubes VMs.'''
# The Qubes OS Project, http://www.qubes-os.org
#
# Copyright (C) 2013 Wojciech Porczyk <wojciech@porczyk.eu>
#
# 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, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
import os
import re
try:
from io import BytesIO
except ImportError:
from cStringIO import StringIO as BytesIO
import subprocess
import sys
import unittest
import PIL.Image
import numpy
# those are for "zOMG UlTRa HD! WalLLpapPer 8K!!1!" to work seamlessly;
# 8192 * 5120 * 4 B = 160 MiB, so DoS by memory exhaustion is unlikely
MAX_WIDTH = 8192
MAX_HEIGHT = 5120
# current max raster icon size in hicolor theme is 256 as of 2013/fedora-18
# beyond that one probably shall use scalable icons
# (SVG is currently unsupported)
ICON_MAXSIZE = 512
# header consists of two decimal numbers, SPC and LF
re_imghdr = re.compile(br'^\d+ \d+\n$')
def imghdrlen(w, h):
# width & height are inclusive max vals, and +2 for ' ' and '\n'
return len(str(w)) + len(str(h)) + 2
class Image(object):
def __init__(self, rgba, size):
'''This class is not meant to be instantiated directly. Use one of:
get_from_stream(), get_from_vm(), get_xdg_icon_from_vm(), get_through_dvm()'''
self._rgba = rgba
self._size = size
def save(self, dst):
'Save image to disk. dst may specify format, like png:aqq.gif'
p = subprocess.Popen(['convert',
'-depth', '8',
'-size', '{0[0]}x{0[1]}'.format(self._size),
'rgba:-', dst], stdin=subprocess.PIPE)
p.stdin.write(self._rgba)
p.stdin.close()
if p.wait():
raise Exception('Conversion failed')
def save_pil(self, dst):
'''Save image to disk using PIL.'''
img = PIL.Image.frombytes('RGBA', self._size, self._rgba)
img.save(dst)
@property
def data(self):
return self._rgba
@property
def width(self):
return self._size[0]
@property
def height(self):
return self._size[1]
def tint(self, colour):
'''Return new tinted image'''
tr, tg, tb = hex_to_int(colour)
tM = max(tr, tg, tb)
tm = min(tr, tg, tb)
# (trn/tdn, tgn/tdn, tbn/tdn) is the tint color with maximum saturation
if tm == tM:
trn = 1
tgn = 1
tbn = 1
tdn = 2
else:
trn = tr - tm
tgn = tg - tm
tbn = tb - tm
tdn = tM - tm
# use a 1D image representation since we only process a single pixel at a time
pixels = self._size[0] * self._size[1]
x = numpy.fromstring(self._rgba, 'B').reshape(pixels, 4)
r = x[:, 0]
g = x[:, 1]
b = x[:, 2]
a = x[:, 3]
M = numpy.maximum(numpy.maximum(r, g), b).astype('u4')
m = numpy.minimum(numpy.minimum(r, g), b).astype('u4')
# Tn/Td is how much chroma range is reserved for the tint color
# 0 -> greyscale image becomes greyscale image
# 1 -> image becomes solid tint color
Tn = 1
Td = 4
# set chroma to the original pixel chroma mapped to the Tn/Td .. 1 range
# float c2 = (Tn/Td) + (1.0 - Tn/Td) * c
# set lightness to the original pixel lightness mapped to the range for the new chroma value
# float m2 = m * (1.0 - c2) / (1.0 - c)
c = M - m
c2 = (Tn * 255) + (Td - Tn) * c
c2d = Td
m2 = ((255 * c2d) - c2) * m
# the maximum avoids division by 0 when c = 255 (m2 is 0 anyway, so m2d doesn't matter)
m2d = numpy.maximum((255 - c) * c2d, 1)
# precomputed values
c2d_tdn = tdn * c2d
m2_c2d_tdn = m2 * c2d_tdn
m2d_c2d_tdn = m2d * c2d_tdn
c2_m2d = c2 * m2d
# float vt = m2 + tvn * c2
rt = ((m2_c2d_tdn + trn * c2_m2d) // m2d_c2d_tdn).astype('B')
gt = ((m2_c2d_tdn + tgn * c2_m2d) // m2d_c2d_tdn).astype('B')
bt = ((m2_c2d_tdn + tbn * c2_m2d) // m2d_c2d_tdn).astype('B')
xt = numpy.column_stack((rt, gt, bt, a))
return self.__class__(rgba=xt.tobytes(), size=self._size)
@classmethod
def load_from_file(cls, filename):
'''Loads image from local file.
WARNING: always load trusted images.'''
p = subprocess.Popen(['identify', '-format', '%w %h', filename],
stdout=subprocess.PIPE)
size = tuple(int(i) for i in p.stdout.read().strip().split())
p.stdout.close()
p.wait()
p = subprocess.Popen(['convert', filename, '-depth', '8', 'rgba:-'],
stdout=subprocess.PIPE)
rgba = p.stdout.read()
p.stdout.close()
p.wait()
return cls(rgba=rgba, size=size)
2017-11-21 04:34:01 +00:00
@classmethod
def load_from_file_pil(cls, filename):
'''Loads image from local file using PIL.'''
img = PIL.Image.open(filename)
img = img.convert('RGBA')
return cls(rgba=img.tobytes(), size=img.size)
@classmethod
def get_from_stream(cls, stream, max_width=MAX_WIDTH, max_height=MAX_HEIGHT):
'''Carefully parse image data from stream.
THIS METHOD IS SECURITY-SENSITIVE'''
maxhdrlen = imghdrlen(max_width, max_height)
untrusted_header = stream.readline(maxhdrlen)
if len(untrusted_header) == 0:
raise ValueError('No icon received')
if not re_imghdr.match(untrusted_header):
raise ValueError('Image format violation')
header = untrusted_header
del untrusted_header
untrusted_width, untrusted_height = (int(i) for i in header.rstrip().split())
if not (0 < untrusted_width <= max_width \
and 0 < untrusted_height <= max_height):
raise ValueError('Image size constraint violation:'
' width={width} height={height}'
' max_width={max_width} max_height={max_height}'.format(
width=untrusted_width, height=untrusted_height,
max_width=max_width, max_height=max_height))
width, height = untrusted_width, untrusted_height
del untrusted_width, untrusted_height
expected_data_len = width * height * 4 # RGBA
untrusted_data = stream.read(expected_data_len)
if len(untrusted_data) != expected_data_len:
raise ValueError( \
'Image data length violation (is {0}, should be {1})'.format( \
len(untrusted_data), expected_data_len))
data = untrusted_data
del untrusted_data
return cls(rgba=data, size=(width, height))
@classmethod
def get_from_vm(cls, vm, src, **kwargs):
'Get image from VM by QUBESRPC (qubes.GetImageRGBA).'
p = vm.run_service('qubes.GetImageRGBA')
p.stdin.write('{0}\n'.format(src).encode())
p.stdin.close()
try:
img = cls.get_from_stream(p.stdout, **kwargs)
finally:
p.stdout.close()
if p.wait():
raise Exception('Something went wrong with receiver')
return img
@classmethod
def get_xdg_icon_from_vm(cls, vm, icon, **kwargs):
'Get image from VM. If path is not absolute, get it from hicolor theme.'
if not os.path.isabs(icon):
icon = 'xdgicon:' + icon
return cls.get_from_vm(vm, icon,
max_width=ICON_MAXSIZE, max_height=ICON_MAXSIZE, **kwargs)
@classmethod
def get_through_dvm(cls, filename, **kwargs):
'''Master end of image filter: writes untrusted image to stdout and
expects header+RGBA on stdin. This method is invoked from qvm-imgconverter-client.'''
if ':' in filename:
filetype, filename = filename.split(':', 1)
sys.stdout.write('{0}:-\n'.format(filetype))
else:
sys.stdout.write('-\n')
try:
sys.stdout.write(open(filename).read())
except Exception as e:
raise Exception('Something went wrong: {0!s}'.format(e))
finally:
sys.stdout.close()
# sys.stdout.close() is not enough and documentation is silent about this
os.close(1)
return cls.get_from_stream(sys.stdin, **kwargs)
def __eq__(self, other):
return self._size == other._size and self._rgba == other._rgba
def __ne__(self, other):
return not self.__eq__(other)
def hex_to_int(colour, channels=3, depth=1):
'''Convert hex colour definition to tuple of ints.'''
length = channels * depth * 2
step = depth * 2
# get rid of '#' or '0x' in front of hex values
colour = colour[-length:]
return tuple(int(colour[i:i+step], 0x10) for i in range(0, length, step))
def tint(src, dst, colour):
'''Tint image to reflect vm label.
src and dst may NOT specify ImageMagick format'''
Image.load_from_file_pil(src).tint(colour).save_pil(dst)
# vim: ft=python sw=4 ts=4 et