#!/usr/bin/env python
#
# Copyright (C) 2016 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 .
#
# Creator/Owner: Daniel P. Berrange
#
# Exercise the QEMU 'luks' block driver to validate interoperability
# with the Linux dm-crypt + cryptsetup implementation
import subprocess
import os
import os.path
import base64
import iotests
class LUKSConfig(object):
"""Represent configuration parameters for a single LUKS
setup to be tested"""
def __init__(self, name, cipher, keylen, mode, ivgen,
ivgen_hash, hash, password=None, passwords=None):
self.name = name
self.cipher = cipher
self.keylen = keylen
self.mode = mode
self.ivgen = ivgen
self.ivgen_hash = ivgen_hash
self.hash = hash
if passwords is not None:
self.passwords = passwords
else:
self.passwords = {}
if password is None:
self.passwords["0"] = "123456"
else:
self.passwords["0"] = password
def __repr__(self):
return self.name
def image_name(self):
return "luks-%s.img" % self.name
def image_path(self):
return os.path.join(iotests.test_dir, self.image_name())
def device_name(self):
return "qiotest-145-%s" % self.name
def device_path(self):
return "/dev/mapper/" + self.device_name()
def first_password(self):
for i in range(8):
slot = str(i)
if slot in self.passwords:
return (self.passwords[slot], slot)
raise Exception("No password found")
def first_password_base64(self):
(pw, slot) = self.first_password()
return base64.b64encode(pw)
def active_slots(self):
slots = []
for i in range(8):
slot = str(i)
if slot in self.passwords:
slots.append(slot)
return slots
def verify_passwordless_sudo():
"""Check whether sudo is configured to allow
password-less access to commands"""
args = ["sudo", "-n", "/bin/true"]
proc = subprocess.Popen(args,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
msg = proc.communicate()[0]
if proc.returncode != 0:
iotests.notrun('requires password-less sudo access: %s' % msg)
def cryptsetup(args, password=None):
"""Run the cryptsetup command in batch mode"""
fullargs = ["sudo", "cryptsetup", "-q", "-v"]
fullargs.extend(args)
iotests.log(" ".join(fullargs), filters=[iotests.filter_test_dir])
proc = subprocess.Popen(fullargs,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
msg = proc.communicate(password)[0]
if proc.returncode != 0:
raise Exception(msg)
def cryptsetup_add_password(config, slot):
"""Add another password to a LUKS key slot"""
(password, mainslot) = config.first_password()
pwfile = os.path.join(iotests.test_dir, "passwd.txt")
with open(pwfile, "w") as fh:
fh.write(config.passwords[slot])
try:
args = ["luksAddKey", config.image_path(),
"--key-slot", slot,
"--key-file", "-",
pwfile]
cryptsetup(args, password)
finally:
os.unlink(pwfile)
def cryptsetup_format(config):
"""Format a new LUKS volume with cryptsetup, adding the
first key slot only"""
(password, slot) = config.first_password()
args = ["luksFormat"]
cipher = config.cipher + "-" + config.mode + "-" + config.ivgen
if config.ivgen_hash is not None:
cipher = cipher + ":" + config.ivgen_hash
elif config.ivgen == "essiv":
cipher = cipher + ":" + "sha256"
args.extend(["--cipher", cipher])
if config.mode == "xts":
args.extend(["--key-size", str(config.keylen * 2)])
else:
args.extend(["--key-size", str(config.keylen)])
if config.hash is not None:
args.extend(["--hash", config.hash])
args.extend(["--key-slot", slot])
args.extend(["--key-file", "-"])
args.append(config.image_path())
cryptsetup(args, password)
def chown(config):
"""Set the ownership of a open LUKS device to this user"""
path = config.device_path()
args = ["sudo", "chown", "%d:%d" % (os.getuid(), os.getgid()), path]
iotests.log(" ".join(args), filters=[iotests.filter_chown])
proc = subprocess.Popen(args,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
msg = proc.communicate()[0]
if proc.returncode != 0:
raise Exception("Cannot change owner on %s" % path)
def cryptsetup_open(config):
"""Open an image as a LUKS device"""
(password, slot) = config.first_password()
args = ["luksOpen", config.image_path(), config.device_name()]
cryptsetup(args, password)
def cryptsetup_close(config):
"""Close an active LUKS device """
args = ["luksClose", config.device_name()]
cryptsetup(args)
def delete_image(config):
"""Delete a disk image"""
try:
os.unlink(config.image_path())
iotests.log("unlink %s" % config.image_path(),
filters=[iotests.filter_test_dir])
except Exception as e:
pass
def create_image(config, size_mb):
"""Create a bare disk image with requested size"""
delete_image(config)
iotests.log("truncate %s --size %dMB" % (config.image_path(), size_mb),
filters=[iotests.filter_test_dir])
with open(config.image_path(), "w") as fn:
fn.truncate(size_mb * 1024 * 1024)
def qemu_img_create(config, size_mb):
"""Create and format a disk image with LUKS using qemu-img"""
opts = [
"key-secret=sec0",
"cipher-alg=%s-%d" % (config.cipher, config.keylen),
"cipher-mode=%s" % config.mode,
"ivgen-alg=%s" % config.ivgen,
"hash-alg=%s" % config.hash,
]
if config.ivgen_hash is not None:
opts.append("ivgen-hash-alg=%s" % config.ivgen_hash)
args = ["create", "-f", "luks",
"--object",
("secret,id=sec0,data=%s,format=base64" %
config.first_password_base64()),
"-o", ",".join(opts),
config.image_path(),
"%dM" % size_mb]
iotests.log("qemu-img " + " ".join(args), filters=[iotests.filter_test_dir])
iotests.log(iotests.qemu_img_pipe(*args), filters=[iotests.filter_test_dir])
def qemu_io_image_args(config, dev=False):
"""Get the args for access an image or device with qemu-io"""
if dev:
return [
"--image-opts",
"driver=file,filename=%s" % config.device_path()]
else:
return [
"--object",
("secret,id=sec0,data=%s,format=base64" %
config.first_password_base64()),
"--image-opts",
("driver=luks,key-secret=sec0,file.filename=%s" %
config.image_path())]
def qemu_io_write_pattern(config, pattern, offset_mb, size_mb, dev=False):
"""Write a pattern of data to a LUKS image or device"""
args = ["-c", "write -P 0x%x %dM %dM" % (pattern, offset_mb, size_mb)]
args.extend(qemu_io_image_args(config, dev))
iotests.log("qemu-io " + " ".join(args), filters=[iotests.filter_test_dir])
iotests.log(iotests.qemu_io(*args), filters=[iotests.filter_test_dir,
iotests.filter_qemu_io])
def qemu_io_read_pattern(config, pattern, offset_mb, size_mb, dev=False):
"""Read a pattern of data to a LUKS image or device"""
args = ["-c", "read -P 0x%x %dM %dM" % (pattern, offset_mb, size_mb)]
args.extend(qemu_io_image_args(config, dev))
iotests.log("qemu-io " + " ".join(args), filters=[iotests.filter_test_dir])
iotests.log(iotests.qemu_io(*args), filters=[iotests.filter_test_dir,
iotests.filter_qemu_io])
def test_once(config, qemu_img=False):
"""Run the test with a desired LUKS configuration. Can either
use qemu-img for creating the initial volume, or cryptsetup,
in order to test interoperability in both directions"""
iotests.log("# ================= %s %s =================" % (
"qemu-img" if qemu_img else "dm-crypt", config))
oneKB = 1024
oneMB = oneKB * 1024
oneGB = oneMB * 1024
oneTB = oneGB * 1024
# 4 TB, so that we pass the 32-bit sector number boundary.
# Important for testing correctness of some IV generators
# The files are sparse, so not actually using this much space
image_size = 4 * oneTB
if qemu_img:
iotests.log("# Create image")
qemu_img_create(config, image_size / oneMB)
else:
iotests.log("# Create image")
create_image(config, image_size / oneMB)
lowOffsetMB = 100
highOffsetMB = 3 * oneTB / oneMB
try:
if not qemu_img:
iotests.log("# Format image")
cryptsetup_format(config)
for slot in config.active_slots()[1:]:
iotests.log("# Add password slot %s" % slot)
cryptsetup_add_password(config, slot)
# First we'll open the image using cryptsetup and write a
# known pattern of data that we'll then verify with QEMU
iotests.log("# Open dev")
cryptsetup_open(config)
try:
iotests.log("# Set dev owner")
chown(config)
iotests.log("# Write test pattern 0xa7")
qemu_io_write_pattern(config, 0xa7, lowOffsetMB, 10, dev=True)
iotests.log("# Write test pattern 0x13")
qemu_io_write_pattern(config, 0x13, highOffsetMB, 10, dev=True)
finally:
iotests.log("# Close dev")
cryptsetup_close(config)
# Ok, now we're using QEMU to verify the pattern just
# written via dm-crypt
iotests.log("# Read test pattern 0xa7")
qemu_io_read_pattern(config, 0xa7, lowOffsetMB, 10, dev=False)
iotests.log("# Read test pattern 0x13")
qemu_io_read_pattern(config, 0x13, highOffsetMB, 10, dev=False)
# Write a new pattern to the image, which we'll later
# verify with dm-crypt
iotests.log("# Write test pattern 0x91")
qemu_io_write_pattern(config, 0x91, lowOffsetMB, 10, dev=False)
iotests.log("# Write test pattern 0x5e")
qemu_io_write_pattern(config, 0x5e, highOffsetMB, 10, dev=False)
# Now we're opening the image with dm-crypt once more
# and verifying what QEMU wrote, completing the circle
iotests.log("# Open dev")
cryptsetup_open(config)
try:
iotests.log("# Set dev owner")
chown(config)
iotests.log("# Read test pattern 0x91")
qemu_io_read_pattern(config, 0x91, lowOffsetMB, 10, dev=True)
iotests.log("# Read test pattern 0x5e")
qemu_io_read_pattern(config, 0x5e, highOffsetMB, 10, dev=True)
finally:
iotests.log("# Close dev")
cryptsetup_close(config)
finally:
iotests.log("# Delete image")
delete_image(config)
print
# Obviously we only work with the luks image format
iotests.verify_image_format(supported_fmts=['luks'])
iotests.verify_platform()
# We need sudo in order to run cryptsetup to create
# dm-crypt devices. This is safe to use on any
# machine, since all dm-crypt devices are backed
# by newly created plain files, and have a dm-crypt
# name prefix of 'qiotest' to avoid clashing with
# user LUKS volumes
verify_passwordless_sudo()
# If we look at all permutations of cipher, key size,
# mode, ivgen, hash, there are ~1000 possible configs.
#
# We certainly don't want/need to test every permutation
# to get good validation of interoperability between QEMU
# and dm-crypt/cryptsetup.
#
# The configs below are a representative set that aim to
# exercise each axis of configurability.
#
configs = [
# A common LUKS default
LUKSConfig("aes-256-xts-plain64-sha1",
"aes", 256, "xts", "plain64", None, "sha1"),
# LUKS default but diff ciphers
LUKSConfig("twofish-256-xts-plain64-sha1",
"twofish", 256, "xts", "plain64", None, "sha1"),
LUKSConfig("serpent-256-xts-plain64-sha1",
"serpent", 256, "xts", "plain64", None, "sha1"),
# Should really be xts, but kernel doesn't support xts+cast5
# nor does it do essiv+cast5
LUKSConfig("cast5-128-cbc-plain64-sha1",
"cast5", 128, "cbc", "plain64", None, "sha1"),
LUKSConfig("cast6-256-xts-plain64-sha1",
"cast6", 256, "xts", "plain64", None, "sha1"),
# LUKS default but diff modes / ivgens
LUKSConfig("aes-256-cbc-plain-sha1",
"aes", 256, "cbc", "plain", None, "sha1"),
LUKSConfig("aes-256-cbc-plain64-sha1",
"aes", 256, "cbc", "plain64", None, "sha1"),
LUKSConfig("aes-256-cbc-essiv-sha256-sha1",
"aes", 256, "cbc", "essiv", "sha256", "sha1"),
LUKSConfig("aes-256-xts-essiv-sha256-sha1",
"aes", 256, "xts", "essiv", "sha256", "sha1"),
# LUKS default but smaller key sizes
LUKSConfig("aes-128-xts-plain64-sha256-sha1",
"aes", 128, "xts", "plain64", None, "sha1"),
LUKSConfig("aes-192-xts-plain64-sha256-sha1",
"aes", 192, "xts", "plain64", None, "sha1"),
LUKSConfig("twofish-128-xts-plain64-sha1",
"twofish", 128, "xts", "plain64", None, "sha1"),
LUKSConfig("twofish-192-xts-plain64-sha1",
"twofish", 192, "xts", "plain64", None, "sha1"),
LUKSConfig("serpent-128-xts-plain64-sha1",
"serpent", 128, "xts", "plain64", None, "sha1"),
LUKSConfig("serpent-192-xts-plain64-sha1",
"serpent", 192, "xts", "plain64", None, "sha1"),
LUKSConfig("cast6-128-xts-plain64-sha1",
"cast6", 128, "xts", "plain", None, "sha1"),
LUKSConfig("cast6-192-xts-plain64-sha1",
"cast6", 192, "xts", "plain64", None, "sha1"),
# LUKS default but diff hash
LUKSConfig("aes-256-xts-plain64-sha256",
"aes", 256, "xts", "plain64", None, "sha256"),
LUKSConfig("aes-256-xts-plain64-sha512",
"aes", 256, "xts", "plain64", None, "sha512"),
LUKSConfig("aes-256-xts-plain64-ripemd160",
"aes", 256, "xts", "plain64", None, "ripemd160"),
# Password in slot 3
LUKSConfig("aes-256-xts-plain-sha1-pwslot3",
"aes", 256, "xts", "plain", None, "sha1",
passwords={
"3": "slot3",
}),
# Passwords in every slot
LUKSConfig("aes-256-xts-plain-sha1-pwallslots",
"aes", 256, "xts", "plain", None, "sha1",
passwords={
"0": "slot1",
"1": "slot1",
"2": "slot2",
"3": "slot3",
"4": "slot4",
"5": "slot5",
"6": "slot6",
"7": "slot7",
}),
# Check handling of default hash alg (sha256) with essiv
LUKSConfig("aes-256-cbc-essiv-auto-sha1",
"aes", 256, "cbc", "essiv", None, "sha1"),
# Check that a useless hash provided for 'plain64' iv gen
# is ignored and no error raised
LUKSConfig("aes-256-cbc-plain64-sha256-sha1",
"aes", 256, "cbc", "plain64", "sha256", "sha1"),
]
blacklist = [
# We don't have a cast-6 cipher impl for QEMU yet
"cast6-256-xts-plain64-sha1",
"cast6-128-xts-plain64-sha1",
"cast6-192-xts-plain64-sha1",
# GCrypt doesn't support Twofish with 192 bit key
"twofish-192-xts-plain64-sha1",
# We don't have sha512 hash wired up yet
"aes-256-xts-plain64-sha512",
# We don't have ripemd160 hash wired up yet
"aes-256-xts-plain64-ripemd160",
]
whitelist = []
if "LUKS_CONFIG" in os.environ:
whitelist = os.environ["LUKS_CONFIG"].split(",")
for config in configs:
if config.name in blacklist:
iotests.log("Skipping %s in blacklist" % config.name)
continue
if len(whitelist) > 0 and config.name not in whitelist:
iotests.log("Skipping %s not in whitelist" % config.name)
continue
test_once(config, qemu_img=False)
# XXX we should support setting passwords in a non-0
# key slot with 'qemu-img create' in future
(pw, slot) = config.first_password()
if slot == "0":
test_once(config, qemu_img=True)