# 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 . from hashlib import sha256 import pytest from trezorlib import cosi from trezorlib.debuglink import TrezorClientDebugLink as Client from trezorlib.exceptions import TrezorFailure from trezorlib.tools import H_, Address, parse_path DIGEST = sha256(b"this is not a pipe").digest() def test_cosi_pubkey(client: Client): c0 = cosi.commit(client, parse_path("m/10018h/0h")) c1 = cosi.commit(client, parse_path("m/10018h/1h")) c2 = cosi.commit(client, parse_path("m/10018h/2h")) assert c0.pubkey != c1.pubkey assert c0.pubkey != c2.pubkey assert c1.pubkey != c2.pubkey def test_cosi_nonce(client: Client): # The nonce/commitment must change after each signing. c0 = cosi.commit(client, parse_path("m/10018h/0h")) cosi.sign(client, parse_path("m/10018h/0h"), DIGEST, c0.commitment, c0.pubkey) c1 = cosi.commit(client, parse_path("m/10018h/0h")) assert c0.commitment != c1.commitment def test_cosi_sign1(client: Client): # Single party signature. commit = cosi.commit(client, parse_path("m/10018h/0h")) sig = cosi.sign( client, parse_path("m/10018h/0h"), DIGEST, commit.commitment, commit.pubkey ) signature = cosi.combine_sig(commit.commitment, [sig.signature]) cosi.verify_combined(signature, DIGEST, commit.pubkey) def test_cosi_sign2(client: Client): # Two party signature. remote_commit = cosi.commit(client, parse_path("m/10018h/1h")) local_privkey = sha256(b"private key").digest()[:32] local_pubkey = cosi.pubkey_from_privkey(local_privkey) local_nonce, local_commitment = cosi.get_nonce(local_privkey, DIGEST, 42) global_pk = cosi.combine_keys([remote_commit.pubkey, local_pubkey]) global_R = cosi.combine_keys([remote_commit.commitment, local_commitment]) remote_sig = cosi.sign( client, parse_path("m/10018h/1h"), DIGEST, global_R, global_pk ) local_sig = cosi.sign_with_privkey( DIGEST, local_privkey, global_pk, local_nonce, global_R ) signature = cosi.combine_sig(global_R, [remote_sig.signature, local_sig]) cosi.verify_combined(signature, DIGEST, global_pk) def test_cosi_sign3(client: Client): # Three party signature. remote_commit = cosi.commit(client, parse_path("m/10018h/2h")) local_privkey1 = sha256(b"private key").digest()[:32] local_pubkey1 = cosi.pubkey_from_privkey(local_privkey1) local_nonce1, local_commitment1 = cosi.get_nonce(local_privkey1, DIGEST, 42) local_privkey2 = sha256(b"private key").digest()[:32] local_pubkey2 = cosi.pubkey_from_privkey(local_privkey2) local_nonce2, local_commitment2 = cosi.get_nonce(local_privkey2, DIGEST, 42) global_pk = cosi.combine_keys([remote_commit.pubkey, local_pubkey1, local_pubkey2]) global_R = cosi.combine_keys( [remote_commit.commitment, local_commitment1, local_commitment2] ) remote_sig = cosi.sign( client, parse_path("m/10018h/2h"), DIGEST, global_R, global_pk ) local_sig1 = cosi.sign_with_privkey( DIGEST, local_privkey1, global_pk, local_nonce1, global_R ) local_sig2 = cosi.sign_with_privkey( DIGEST, local_privkey2, global_pk, local_nonce2, global_R ) signature = cosi.combine_sig( global_R, [remote_sig.signature, local_sig1, local_sig2] ) cosi.verify_combined(signature, DIGEST, global_pk) @pytest.mark.skip_t1 def test_cosi_different_key(client: Client): with pytest.raises(TrezorFailure): commit = cosi.commit(client, parse_path("m/10018h/0h")) cosi.sign( client, parse_path("m/10018h/1h"), DIGEST, commit.commitment, commit.pubkey ) @pytest.mark.parametrize( "model", ( b"T1B1", b"T2T1", b"T2B1", b"T3W1", b"\xfe\xfe\xfe\xfe", b"\x00", b"dog", b"42", ), ) @pytest.mark.skip_t1 def test_slip26_paths(client: Client, model: bytes): slip26_model = int.from_bytes(model, "little") path = Address([H_(10026), H_(slip26_model), H_(0), H_(0)]) cosi.commit(client, path)