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|
#!/usr/bin/env python3
#
# Copyright (c) 2016-2018, NORDUnet A/S All rights reserved.
# Copyright: 2020-2021, The Commons Conservancy Cryptech Project
# SPDX-License-Identifier: BSD-3-Clause
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
# - Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
#
# - Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# - Neither the name of the copyright holder nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
# IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
# TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
# PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
# TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
# PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
# LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
# NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
"""
Test multiple clients and parallel RSA signatures.
"""
# This was originally going to be a complete asynchronous-capable
# version of cryptech.libhal, but that turned into a yak shaving
# exercise, so refocused on just solving the immediate task at hand,
# to wit, parallel signing tests.
import os
import sys
import uuid
import xdrlib
import socket
import logging
import datetime
import collections
import cryptech.libhal
from argparse import ArgumentParser, ArgumentDefaultsHelpFormatter
from tornado.gen import Return, coroutine
from tornado.ioloop import IOLoop
from tornado.iostream import IOStream, StreamClosedError
from Crypto.Util.asn1 import DerSequence, DerNull, DerOctetString
from Crypto.Util.number import inverse
from Crypto.PublicKey import RSA
from Crypto.Cipher.PKCS1_v1_5 import PKCS115_Cipher
from Crypto.Signature.PKCS1_v1_5 import PKCS115_SigScheme
from Crypto.Hash.SHA256 import SHA256Hash as SHA256
from Crypto.Hash.SHA384 import SHA384Hash as SHA384
from Crypto.Hash.SHA512 import SHA512Hash as SHA512
try:
import statistics
statistics_loaded = True
except ImportError:
statistics_loaded = False
logger = logging.getLogger(__name__)
globals().update((name, getattr(cryptech.libhal, name))
for name in dir(cryptech.libhal)
if any(name.startswith(prefix)
for prefix in ("HAL", "RPC", "SLIP")))
if sys.version_info.major == 2:
def colon_hex(raw):
return ":".join("{:02x}".format(ord(b)) for b in raw)
else:
def colon_hex(raw):
return ":".join("{:02x}".format(b) for b in raw)
class PKey(cryptech.libhal.Handle):
def __init__(self, hsm, handle, uuid):
self.hsm = hsm
self.handle = handle
self.uuid = uuid
self.deleted = False
@coroutine
def close(self):
yield self.hsm.pkey_close(self)
@coroutine
def delete(self):
yield self.hsm.pkey_delete(self)
self.deleted = True
@coroutine
def sign(self, data, length = 1024):
r = yield self.hsm.pkey_sign(self, data = data, length = length)
raise Return(r)
@coroutine
def verify(self, data = b"", signature = None):
yield self.hsm.pkey_verify(self, data = data, signature = signature)
class ContextManagedUnpacker(xdrlib.Unpacker):
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.done()
class HSM(cryptech.libhal.HSM):
def __init__(self,
sockname = os.getenv("CRYPTECH_RPC_CLIENT_SOCKET_NAME",
"/tmp/.cryptech_muxd.rpc"),
debug_io = False):
self.hsm = self
self.debug_io = debug_io
self.socket = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
self.socket.connect(sockname)
self.iostream = IOStream(self.socket)
@coroutine
def rpc(self, code, *args, **kwargs):
client = kwargs.get("client", 0)
packer = xdrlib.Packer()
packer.pack_uint(code)
packer.pack_uint(client)
self._pack_args(packer, args)
packer = cryptech.libhal.slip_encode(packer.get_buffer())
if self.debug_io:
logger.debug("send: %s", colon_hex(packer))
yield self.iostream.write(packer)
while True:
try:
unpacker = yield self.iostream.read_until(SLIP_END)
except StreamClosedError:
raise HAL_ERROR_RPC_TRANSPORT()
if self.debug_io:
logger.debug("recv: %s", colon_hex(unpacker))
unpacker = cryptech.libhal.slip_decode(unpacker)
if not unpacker:
continue
unpacker = ContextManagedUnpacker(unpacker)
if unpacker.unpack_uint() == code:
break
client = unpacker.unpack_uint()
self._raise_if_error(unpacker.unpack_uint())
raise Return(unpacker)
@coroutine
def login(self, user, pin, client = 0):
with (yield self.rpc(RPC_FUNC_LOGIN, user, pin, client = client)):
pass
@coroutine
def logout(self, client = 0):
with (yield self.rpc(RPC_FUNC_LOGOUT, client = client)):
pass
@coroutine
def pkey_load(self, der, flags = 0, client = 0, session = 0):
r = yield self.rpc(RPC_FUNC_PKEY_LOAD, session, der, flags, client = client)
with r:
pkey = PKey(self, r.unpack_uint(), cryptech.libhal.UUID(bytes = r.unpack_bytes()))
logger.debug("Loaded pkey %s", pkey.uuid)
raise Return(pkey)
@coroutine
def pkey_close(self, pkey):
try:
logger.debug("Closing pkey %s", pkey.uuid)
except AttributeError:
pass
with (yield self.rpc(RPC_FUNC_PKEY_CLOSE, pkey)):
pass
@coroutine
def pkey_delete(self, pkey):
try:
logger.debug("Deleting pkey %s", pkey.uuid)
except AttributeError:
pass
with (yield self.rpc(RPC_FUNC_PKEY_DELETE, pkey)):
pass
@coroutine
def pkey_sign(self, pkey, data, length = 1024):
with (yield self.rpc(RPC_FUNC_PKEY_SIGN, pkey, 0, data, length)) as r:
raise Return(r.unpack_bytes())
def pkcs1_hash_and_pad(text):
return DerSequence([DerSequence([SHA256.oid, DerNull().encode()]).encode(),
DerOctetString(SHA256(text).digest()).encode()]).encode()
@coroutine
def client(args, k, p, q, r, m, v, h):
while q:
n = q.pop(0)
logger.debug("Signing %s", n)
t0 = datetime.datetime.now()
s = yield p.sign(data = m)
t1 = datetime.datetime.now()
logger.debug("Signature %s: %s", n, colon_hex(s))
if args.verify and not v.verify(h, s):
raise RuntimeError("RSA verification failed")
r.add(t0, t1)
@coroutine
def main():
parser = ArgumentParser(description = __doc__, formatter_class = ArgumentDefaultsHelpFormatter)
parser.add_argument("-i", "--iterations", default = 1000, type = int, help = "iterations")
parser.add_argument("-c", "--clients", default = 4, type = int, help = "client count")
parser.add_argument("-k", "--key", choices = tuple(key_table),
default = "rsa_2048", help = "key to test")
parser.add_argument("-p", "--pin", default = "fnord", help = "user PIN")
parser.add_argument("-q", "--quiet", action = "store_true", help = "bark less")
parser.add_argument("-d", "--debug", action = "store_true", help = "bark more")
parser.add_argument("-t", "--text", default = "Hamsters'R'Us", help = "plaintext to sign")
parser.add_argument("-v", "--verify", action = "store_true", help = "verify signatures")
args = parser.parse_args()
if args.debug:
logging.getLogger().setLevel(logging.DEBUG)
k = key_table[args.key]
d = k.exportKey(format = "DER", pkcs = 8)
h = SHA256(args.text.encode())
v = PKCS115_SigScheme(k)
q = list(range(args.iterations))
m = pkcs1_hash_and_pad(args.text.encode())
r = Result(args, args.key)
hsms = [HSM() for i in range(args.clients)]
for hsm in hsms:
yield hsm.login(HAL_USER_NORMAL, args.pin)
pkeys = yield [hsm.pkey_load(d, HAL_KEY_FLAG_USAGE_DIGITALSIGNATURE) for hsm in hsms]
yield [client(args, k, pkey, q, r, m, v, h) for pkey in pkeys]
yield [pkey.delete() for pkey in pkeys]
r.report()
class Result(object):
def __init__(self, args, name):
self.args = args
self.name = name
self.sum = datetime.timedelta(seconds = 0)
if statistics_loaded:
self.readings = [None] * args.iterations
self.t0 = None
self.t1 = None
self.n = 0
def add(self, t0, t1):
if self.t0 is None:
self.t0 = t0
self.t1 = t1
delta = t1 - t0
self.sum += delta
if statistics_loaded:
self.readings[self.n] = delta.total_seconds()
self.n += 1
if not self.args.quiet:
sys.stdout.write("\r{:4d} {}".format(self.n, delta))
sys.stdout.flush()
if statistics_loaded:
@property
def mean(self):
return statistics.mean(self.readings)
@property
def median(self):
return statistics.median(self.readings)
@property
def stdev(self):
return statistics.pstdev(self.readings)
else:
@property
def mean(self):
return self.sum / self.n
@property
def secs_per_sig(self):
return (self.t1 - self.t0) / self.n
@property
def sigs_per_sec(self):
return self.n / (self.t1 - self.t0).total_seconds()
@property
def speedup(self):
return self.sum.total_seconds() / (self.t1 - self.t0).total_seconds()
def report(self):
if statistics_loaded:
sys.stdout.write(("\r{0.name} "
"sigs/sec {0.sigs_per_sec} "
"secs/sig {0.secs_per_sig} "
"mean {0.mean} "
"median {0.median} "
"stdev {0.stdev} "
"speedup {0.speedup} "
"(n {0.n}, "
"c {0.args.clients} "
"t0 {0.t0} "
"t1 {0.t1})\n").format(self))
else:
sys.stdout.write(("\r{0.name} "
"sigs/sec {0.sigs_per_sec} "
"secs/sig {0.secs_per_sig} "
"mean {0.mean} "
"speedup {0.speedup} "
"(n {0.n}, "
"c {0.args.clients} "
"t0 {0.t0} "
"t1 {0.t1})\n").format(self))
sys.stdout.flush()
key_table = collections.OrderedDict()
key_table.update(rsa_1024 = RSA.importKey('''\
-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----
'''))
key_table.update(rsa_2048 = RSA.importKey('''\
-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----
'''))
key_table.update(rsa_4096 = RSA.importKey('''\
-----BEGIN RSA PRIVATE KEY-----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dQYLBHIPcw6e0FdL3nTs44BpAqcK28N5eWbe/KaZ3EA0lHRmyOQ++WgU6jo=
-----END RSA PRIVATE KEY-----
'''))
if __name__ == "__main__":
IOLoop.current().run_sync(main)
|