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trezor-firmware/python/tests/test_cosi.py
matejcik 67b879ac07 python: restructure package
This deserves some explanation.

* tests were moved to separate python/tests subdir
* trezorlib was moved to python/src, so that it does not exist on
PYTHONPATH by default
(see https://blog.ionelmc.ro/2014/05/25/python-packaging/ for details)
* everything was updated to understand the new structure
* trezorctl was changed from a top-level executable script to a module
`trezorlib.cli.trezorctl` and is installed via the entry_points
mechanism.
This should make it work normally on Windows!

The package should be installable as normal through pip and pipenv, no
changes are needed on that side.

The source package from pypi will include unit tests. (Device tests were
completely moved out). Wheel will exclude them, because users don't need
them.
That shrinks the .whl from 520 kB to 270 - nice!

python: reorganize remaining unit tests
2019-08-12 12:57:25 +02:00

200 lines
6.7 KiB
Python

# This file is part of the Trezor project.
#
# Copyright (C) 2012-2019 SatoshiLabs and contributors
#
# This library is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License version 3
# as published by the Free Software Foundation.
#
# 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 License along with this library.
# If not, see <https://www.gnu.org/licenses/lgpl-3.0.html>.
import hashlib
import pytest
from trezorlib import _ed25519, cosi
RFC8032_VECTORS = (
( # test 1
# privkey
bytes.fromhex(
"9d61b19deffd5a60ba844af492ec2cc44449c5697b326919703bac031cae7f60"
),
# pubkey
bytes.fromhex(
"d75a980182b10ab7d54bfed3c964073a0ee172f3daa62325af021a68f707511a"
),
# message
bytes.fromhex(""),
# signature
bytes.fromhex(
"e5564300c360ac729086e2cc806e828a84877f1eb8e5d974d873e06522490155"
"5fb8821590a33bacc61e39701cf9b46bd25bf5f0595bbe24655141438e7a100b"
),
),
( # test 2
# privkey
bytes.fromhex(
"4ccd089b28ff96da9db6c346ec114e0f5b8a319f35aba624da8cf6ed4fb8a6fb"
),
# pubkey
bytes.fromhex(
"3d4017c3e843895a92b70aa74d1b7ebc9c982ccf2ec4968cc0cd55f12af4660c"
),
# message
bytes.fromhex("72"),
# signature
bytes.fromhex(
"92a009a9f0d4cab8720e820b5f642540a2b27b5416503f8fb3762223ebdb69da"
"085ac1e43e15996e458f3613d0f11d8c387b2eaeb4302aeeb00d291612bb0c00"
),
),
( # test 3
# privkey
bytes.fromhex(
"c5aa8df43f9f837bedb7442f31dcb7b166d38535076f094b85ce3a2e0b4458f7"
),
# pubkey
bytes.fromhex(
"fc51cd8e6218a1a38da47ed00230f0580816ed13ba3303ac5deb911548908025"
),
# message
bytes.fromhex("af82"),
# signature
bytes.fromhex(
"6291d657deec24024827e69c3abe01a30ce548a284743a445e3680d7db5ac3ac"
"18ff9b538d16f290ae67f760984dc6594a7c15e9716ed28dc027beceea1ec40a"
),
),
( # test SHA(abc)
# privkey
bytes.fromhex(
"833fe62409237b9d62ec77587520911e9a759cec1d19755b7da901b96dca3d42"
),
# pubkey
bytes.fromhex(
"ec172b93ad5e563bf4932c70e1245034c35467ef2efd4d64ebf819683467e2bf"
),
# message
hashlib.sha512(b"abc").digest(),
# signature
bytes.fromhex(
"dc2a4459e7369633a52b1bf277839a00201009a3efbf3ecb69bea2186c26b589"
"09351fc9ac90b3ecfdfbc7c66431e0303dca179c138ac17ad9bef1177331a704"
),
),
)
COMBINED_KEY = bytes.fromhex(
"283967b1c19ff93d2924cdcba95e586547cafef509ea402963ceefe96ccb44f2"
)
GLOBAL_COMMIT = bytes.fromhex(
"75bd5806c6366e0374a1c6e020c53feb0791d6cc07560d27d8c158f886ecf389"
)
@pytest.mark.parametrize("privkey, pubkey, message, signature", RFC8032_VECTORS)
def test_single_eddsa_vector(privkey, pubkey, message, signature):
my_pubkey = cosi.pubkey_from_privkey(privkey)
assert my_pubkey == pubkey
try:
cosi.verify(signature, message, pubkey)
except ValueError:
pytest.fail("Signature does not verify.")
fake_signature = signature[:37] + b"\xf0" + signature[38:]
with pytest.raises(_ed25519.SignatureMismatch):
cosi.verify(fake_signature, message, pubkey)
def test_combine_keys():
pubkeys = [pubkey for _, pubkey, _, _ in RFC8032_VECTORS]
assert cosi.combine_keys(pubkeys) == COMBINED_KEY
Rs = [
cosi.get_nonce(privkey, message)[1]
for privkey, _, message, _ in RFC8032_VECTORS
]
assert cosi.combine_keys(Rs) == GLOBAL_COMMIT
@pytest.mark.parametrize("keyset", [(0,), (0, 1), (0, 1, 2), (0, 1, 2, 3), (1, 3)])
def test_cosi_combination(keyset):
message = hashlib.sha512(b"You all have to sign this.").digest()
selection = [RFC8032_VECTORS[i] for i in keyset]
# zip(*iterable) turns a list of tuples to a tuple of lists
privkeys, pubkeys, _, _ = zip(*selection)
nonce_pairs = [cosi.get_nonce(pk, message) for pk in privkeys]
nonces, commits = zip(*nonce_pairs)
# calculate global pubkey and commitment
global_pk = cosi.combine_keys(pubkeys)
global_commit = cosi.combine_keys(commits)
# generate individual signatures
signatures = [
cosi.sign_with_privkey(message, privkey, global_pk, nonce, global_commit)
for privkey, nonce in zip(privkeys, nonces)
]
# combine signatures
global_sig = cosi.combine_sig(global_commit, signatures)
try:
cosi.verify(global_sig, message, global_pk)
except Exception:
pytest.fail("Failed to validate global signature")
def test_m_of_n():
privkeys, pubkeys, _, _ = zip(*RFC8032_VECTORS)
message = hashlib.sha512(b"My hovercraft is full of eels!").digest()
signer_ids = 0, 2, 3
signers = [privkeys[i] for i in signer_ids]
signer_pubkeys = [pubkeys[i] for i in signer_ids]
sigmask = sum(1 << i for i in signer_ids)
# generate multisignature
nonce_pairs = [cosi.get_nonce(pk, message) for pk in signers]
nonces, commits = zip(*nonce_pairs)
global_pk = cosi.combine_keys(signer_pubkeys)
global_commit = cosi.combine_keys(commits)
signatures = [
cosi.sign_with_privkey(message, privkey, global_pk, nonce, global_commit)
for privkey, nonce in zip(signers, nonces)
]
global_sig = cosi.combine_sig(global_commit, signatures)
try:
# this is what we are actually doing
cosi.verify_m_of_n(global_sig, message, 3, 4, sigmask, pubkeys)
# we can require less signers too
cosi.verify_m_of_n(global_sig, message, 1, 4, sigmask, pubkeys)
except Exception:
pytest.fail("Failed to validate by sigmask")
# and now for various ways that should fail
with pytest.raises(ValueError) as e:
cosi.verify_m_of_n(global_sig, message, 4, 4, sigmask, pubkeys)
assert "Not enough signers" in e.value.args[0]
with pytest.raises(_ed25519.SignatureMismatch):
# when N < number of possible signers, the topmost signers will be ignored
cosi.verify_m_of_n(global_sig, message, 2, 3, sigmask, pubkeys)
with pytest.raises(_ed25519.SignatureMismatch):
# wrong sigmask
cosi.verify_m_of_n(global_sig, message, 1, 4, 5, pubkeys)
with pytest.raises(ValueError):
# can't use "0 of N" scheme
cosi.verify_m_of_n(global_sig, message, 0, 4, sigmask, pubkeys)