def test_ethereum_sanity_checks(self, client): # gas overflow with pytest.raises(TrezorFailure): ethereum.sign_tx( client, n=parse_path("44'/60'/0'/0/0"), nonce=123456, gas_price=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, gas_limit=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, to=TO_ADDR, value=12345678901234567890, ) # no gas price with pytest.raises(TrezorFailure): client.call( messages.EthereumSignTx( address_n=parse_path("44'/60'/0'/0/0"), nonce=b"AAA", gas_limit=ethereum.int_to_big_endian(10000), to=TO_ADDR, value=ethereum.int_to_big_endian(12345678901234567890), )) # no gas limit with pytest.raises(TrezorFailure): client.call( messages.EthereumSignTx( address_n=parse_path("44'/60'/0'/0/0"), nonce=b"AAA", gas_price=ethereum.int_to_big_endian(10000), to=TO_ADDR, value=ethereum.int_to_big_endian(12345678901234567890), ))
def test_signtx_data_pagination(client: Client, flow): with client: client.watch_layout() client.set_input_flow(flow(client)) ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=0x0, gas_price=0x14, gas_limit=0x14, to="0x1d1c328764a41bda0492b66baa30c4a339ff85ef", chain_id=1, value=0xA, tx_type=None, data=bytes.fromhex(HEXDATA), ) with client, pytest.raises(exceptions.Cancelled): client.watch_layout() client.set_input_flow(flow(client, cancel=True)) ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=0x0, gas_price=0x14, gas_limit=0x14, to="0x1d1c328764a41bda0492b66baa30c4a339ff85ef", chain_id=1, value=0xA, tx_type=None, data=bytes.fromhex(HEXDATA), )
def test_ethereum_signtx_nodata(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), # v,r,s checked later ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/100"), nonce=0, gas_price=20, gas_limit=20, to=TO_ADDR, value=10, ) assert sig_v == 27 assert ( sig_r.hex() == "2f548f63ddb4cf19b6b9f922da58ff71833b967d590f3b4dcc2a70810338a982" ) assert ( sig_s.hex() == "428d35f0dca963b5196b63e7aa5e0405d8bff77d6aee1202183f1f68dacb4483" ) with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/100"), nonce=123456, gas_price=20000, gas_limit=20000, to=TO_ADDR, value=12345678901234567890, ) assert sig_v == 27 assert ( sig_r.hex() == "3bf0470cd7f5ad8d82613199f73deadc55c3c9f32f91b1a21b5ef644144ebd58" ) assert ( sig_s.hex() == "48b3ef1b2502febdf35e9ff4df0ba1fda62f042fad639eb4852a297fc9872ebd" )
def test_ethereum_signtx_nodata(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest( data_length=None), # v,r,s checked later ]) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=0, gas_price=20, gas_limit=20, to=unhexlify("1d1c328764a41bda0492b66baa30c4a339ff85ef"), value=10, ) assert sig_v == 27 assert ( hexlify(sig_r) == b"9b61192a161d056c66cfbbd331edb2d783a0193bd4f65f49ee965f791d898f72" ) assert ( hexlify(sig_s) == b"49c0bbe35131592c6ed5c871ac457feeb16a1493f64237387fab9b83c1a202f7" ) with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ]) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=20000, gas_limit=20000, to=unhexlify("1d1c328764a41bda0492b66baa30c4a339ff85ef"), value=12345678901234567890, ) assert sig_v == 28 assert ( hexlify(sig_r) == b"6de597b8ec1b46501e5b159676e132c1aa78a95bd5892ef23560a9867528975a" ) assert ( hexlify(sig_s) == b"6e33c4230b1ecf96a8dbb514b4aec0a6d6ba53f8991c8143f77812aa6daa993f" )
def test_ethereum_signtx_newcontract(self): self.setup_mnemonic_allallall() # contract creation without data should fail. with pytest.raises(Exception): ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/0"), nonce=123456, gas_price=20000, gas_limit=20000, to="", value=12345678901234567890, ) with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=3), proto.EthereumTxRequest(), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/0"), nonce=0, gas_price=20000, gas_limit=20000, to="", value=12345678901234567890, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 28 assert ( sig_r.hex() == "c86bda9de238b1c602648996561e7270a3be208da96bbf23474cb8e4014b9f93" ) assert ( sig_s.hex() == "18742403f75a05e7fa9868c30b36f1e55628de02d01c03084c1ff6775a13137c" )
def test_ethereum_signtx_newcontract(self): self.setup_mnemonic_nopin_nopassphrase() # contract creation without data should fail. with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=20000, gas_limit=20000, to="", value=12345678901234567890, ) with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=3), proto.EthereumTxRequest(), ]) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=0, gas_price=20000, gas_limit=20000, to="", value=12345678901234567890, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 28 assert ( hexlify(sig_r) == b"b401884c10ae435a2e792303b5fc257a09f94403b2883ad8c0ac7a7282f5f1f9" ) assert ( hexlify(sig_s) == b"4742fc9e6a5fa8db3db15c2d856914a7f3daab21603a6c1ce9e9927482f8352e" )
def test_data_streaming(client: Client): """Only verifying the expected responses, the signatures are checked in vectorized function above. """ with client: client.set_expected_responses( [ messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), message_filters.EthereumTxRequest( data_length=1_024, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest( data_length=1_024, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest( data_length=1_024, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest( data_length=3, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest(data_length=None), ] ) ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=0, gas_price=20_000, gas_limit=20_000, to=TO_ADDR, value=0, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", chain_id=1, )
def test_ethereum_signtx_wanchain(self, client): with client: client.set_expected_responses( [ messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.EthereumTxRequest(data_length=None), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path("44'/5718350'/0'/0/0"), nonce=0, gas_price=20, gas_limit=20, # ADT token address to="0xd0d6d6c5fe4a677d343cc433536bb717bae167dd", chain_id=1, tx_type=1, # value needs to be 0, token value is set in the contract (data) value=100, ) # ad-hoc generated signature. might not be valid. assert ( sig_r.hex() == "d6e197029031ec90b53ed14e8233aa78b592400513ac0386d2d55cdedc3d796f" ) assert ( sig_s.hex() == "326e0d600dd1b7ee606eb531b998a6a3b3293d4995fb8cfe0677962e8a43cff6" )
def test_ethereum_signtx_message(self, client): with client: client.set_expected_responses([ messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), messages.EthereumTxRequest(data_length=1024), messages.EthereumTxRequest(data_length=1024), messages.EthereumTxRequest(data_length=3), messages.EthereumTxRequest(), ]) sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path("44'/60'/0'/0/0"), nonce=0, gas_price=20000, gas_limit=20000, to=TO_ADDR, value=0, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 27 assert ( sig_r.hex() == "81af16020d3c6ad820cab2e2b0834fa37f4a9b0c2443f151a4e2f12fe1081b09") assert ( sig_s.hex() == "7b34b5d8a43771d493cd9fa0c7b27a9563e2a31799fb9f0c2809539a848b9f47")
def test_ethereum_signtx_unknown_erc20_token(self, client): with client: expected_responses = [ messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), ] # TT asks for contract address confirmation if client.features.model == "T": expected_responses.append( messages.ButtonRequest( code=messages.ButtonRequestType.SignTx)) expected_responses.append( messages.EthereumTxRequest(data_length=None)) client.set_expected_responses(expected_responses) data = bytearray() # method id signalizing `transfer(address _to, uint256 _value)` function data.extend(bytes.fromhex("a9059cbb")) # 1st function argument (to - the receiver) data.extend( bytes.fromhex( "000000000000000000000000574bbb36871ba6b78e27f4b4dcfb76ea0091880b" )) # 2nd function argument (value - amount to be transferred) data.extend( bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000123" )) # since this token is unknown trezor should display "unknown token value" sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path("44'/60'/0'/0/1"), nonce=0, gas_price=20, gas_limit=20, # unknown token address (Grzegorz Brzęczyszczykiewicz Token) to="0xfc6b5d6af8a13258f7cbd0d39e11b35e01a32f93", chain_id=1, # value needs to be 0, token value is set in the contract (data) value=0, data=data, ) # taken from T1 might not be 100% correct but still better than nothing assert ( sig_r.hex() == "2559bbf1bcb80992b6eaa96f0074b19606d8ea7bf4219e1c9ac64a12855c0cce" ) assert ( sig_s.hex() == "633a74429eb6d3aeec4ed797542236a85daab3cab15e37736b87a45697541d7a" )
def test_ethereum_signtx_known_erc20_token(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ] ) data = bytearray() # method id signalizing `transfer(address _to, uint256 _value)` function data.extend(bytes.fromhex("a9059cbb")) # 1st function argument (to - the receiver) data.extend( bytes.fromhex( "000000000000000000000000574bbb36871ba6b78e27f4b4dcfb76ea0091880b" ) ) # 2nd function argument (value - amount to be transferred) data.extend( bytes.fromhex( "000000000000000000000000000000000000000000000000000000000bebc200" ) ) # 200 000 000 in dec, divisibility of ADT = 9, trezor1 displays 0.2 ADT, Trezor T 200 000 000 Wei ADT sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/0"), nonce=0, gas_price=20, gas_limit=20, # ADT token address to="0xd0d6d6c5fe4a677d343cc433536bb717bae167dd", chain_id=1, # value needs to be 0, token value is set in the contract (data) value=0, data=data, ) # taken from T1 might not be 100% correct but still better than nothing assert ( sig_r.hex() == "ec1df922115d256745410fbc2070296756583c8786e4d402a88d4e29ec513fa9" ) assert ( sig_s.hex() == "7001bfe3ba357e4a9f9e0d3a3f8a8962257615a4cf215db93e48b98999fc51b7" )
def test_ethereum_signtx_unknown_erc20_token(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ] ) data = bytearray() # method id signalizing `transfer(address _to, uint256 _value)` function data.extend(bytes.fromhex("a9059cbb")) # 1st function argument (to - the receiver) data.extend( bytes.fromhex( "000000000000000000000000574bbb36871ba6b78e27f4b4dcfb76ea0091880b" ) ) # 2nd function argument (value - amount to be transferred) data.extend( bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000123" ) ) # since this token is unknown trezor should display "unknown token value" sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/1"), nonce=0, gas_price=20, gas_limit=20, # unknown token address (Grzegorz Brzęczyszczykiewicz Token) to="0xfc6b5d6af8a13258f7cbd0d39e11b35e01a32f93", chain_id=1, # value needs to be 0, token value is set in the contract (data) value=0, data=data, ) # taken from T1 might not be 100% correct but still better than nothing assert ( sig_r.hex() == "2559bbf1bcb80992b6eaa96f0074b19606d8ea7bf4219e1c9ac64a12855c0cce" ) assert ( sig_s.hex() == "633a74429eb6d3aeec4ed797542236a85daab3cab15e37736b87a45697541d7a" )
def test_chain_ids(client, chain_id, slip44, sig): sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path(f"m/44h/{slip44}h/0h/0/0"), nonce=0, gas_price=20000000000, gas_limit=21000, to="0x8eA7a3fccC211ED48b763b4164884DDbcF3b0A98", value=10000000000, chain_id=chain_id, ) expected_v = 2 * chain_id + 35 assert sig_v in (expected_v, expected_v + 1) assert (sig_v, sig_r.hex(), sig_s.hex()) == sig
def test_ethereum_signtx_known_erc20_token(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ]) data = bytearray() # method id signalizing `transfer(address _to, uint256 _value)` function data.extend(bytes.fromhex("a9059cbb")) # 1st function argument (to - the receiver) data.extend( bytes.fromhex( "000000000000000000000000574bbb36871ba6b78e27f4b4dcfb76ea0091880b" )) # 2nd function argument (value - amount to be transferred) data.extend( bytes.fromhex( "000000000000000000000000000000000000000000000000000000000bebc200" )) # 200 000 000 in dec, divisibility of ADT = 9, trezor1 displays 0.2 ADT, Trezor T 200 000 000 Wei ADT sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=0, gas_price=20, gas_limit=20, # ADT token address to= b"\xd0\xd6\xd6\xc5\xfe\x4a\x67\x7d\x34\x3c\xc4\x33\x53\x6b\xb7\x17\xba\xe1\x67\xdd", chain_id=1, # value needs to be 0, token value is set in the contract (data) value=0, data=data, ) # taken from T1 might not be 100% correct but still better than nothing assert ( sig_r.hex() == "75cf48fa173d8ceb68af9e4fb6b78ef69e6ed5e7679ba6f8e3e91d74b2fb0f96" ) assert ( sig_s.hex() == "65de4a8c35263b2cfff3954b12146e8e568aa67a1c2461d6865e74ef75c7e190" )
def test_ethereum_signtx_unknown_erc20_token(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ]) data = bytearray() # method id signalizing `transfer(address _to, uint256 _value)` function data.extend(bytes.fromhex("a9059cbb")) # 1st function argument (to - the receiver) data.extend( bytes.fromhex( "000000000000000000000000574bbb36871ba6b78e27f4b4dcfb76ea0091880b" )) # 2nd function argument (value - amount to be transferred) data.extend( bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000123" )) # since this token is unknown trezor should display "unknown token value" sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/1"), nonce=0, gas_price=20, gas_limit=20, # unknown token address (Grzegorz Brzęczyszczykiewicz Token) to= b"\xfc\x6b\x5d\x6a\xf8\xa1\x32\x58\xf7\xcb\xd0\xd3\x9e\x11\xb3\x5e\x01\xa3\x2f\x93", chain_id=1, # value needs to be 0, token value is set in the contract (data) value=0, data=data, ) # taken from T1 might not be 100% correct but still better than nothing assert ( sig_r.hex() == "2559bbf1bcb80992b6eaa96f0074b19606d8ea7bf4219e1c9ac64a12855c0cce" ) assert ( sig_s.hex() == "633a74429eb6d3aeec4ed797542236a85daab3cab15e37736b87a45697541d7a" )
def test_ethereum_signtx_unknown_erc20_token(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ]) data = bytearray() # method id signalizing `transfer(address _to, uint256 _value)` function data.extend(bytes.fromhex("a9059cbb")) # 1st function argument (to - the receiver) data.extend( bytes.fromhex( "000000000000000000000000574bbb36871ba6b78e27f4b4dcfb76ea0091880b" )) # 2nd function argument (value - amount to be transferred) data.extend( bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000123" )) # since this token is unknown trezor should display "unknown token value" sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=0, gas_price=20, gas_limit=20, # unknown token address (Grzegorz Brzęczyszczykiewicz Token) to= b"\xfc\x6b\x5d\x6a\xf8\xa1\x32\x58\xf7\xcb\xd0\xd3\x9e\x11\xb3\x5e\x01\xa3\x2f\x93", chain_id=1, # value needs to be 0, token value is set in the contract (data) value=0, data=data, ) # taken from T1 might not be 100% correct but still better than nothing assert ( sig_r.hex() == "1707471fbf632e42d18144157aaf4cde101cd9aa9782ad8e30583cfc95ddeef6" ) assert ( sig_s.hex() == "3d2e52ba5904a4bf131abde3f79db826199f5d6f4d241d531d7e8a30a3b9cfd9" )
def test_ethereum_sanity_checks(self): # gas overflow with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, gas_limit=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, to=TO_ADDR, value=12345678901234567890, ) # no gas price with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_limit=10000, to=TO_ADDR, value=12345678901234567890, ) # no gas limit with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=10000, to=TO_ADDR, value=12345678901234567890, ) # no nonce with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], gas_price=10000, gas_limit=123456, to=TO_ADDR, value=12345678901234567890, )
def test_ethereum_sanity_checks(self): # gas overflow with pytest.raises(Exception): ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/0"), nonce=123456, gas_price=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, gas_limit=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, to=TO_ADDR, value=12345678901234567890, ) # no gas price with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_limit=10000, to=TO_ADDR, value=12345678901234567890, ) # no gas limit with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=10000, to=TO_ADDR, value=12345678901234567890, ) # no nonce with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], gas_price=10000, gas_limit=123456, to=TO_ADDR, value=12345678901234567890, )
def test_ethereum_sanity_checks(self): # gas overflow with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=0xffffffffffffffffffffffffffffffff, gas_limit=0xffffffffffffffffffffffffffffff, to=unhexlify("1d1c328764a41bda0492b66baa30c4a339ff85ef"), value=12345678901234567890, ) # no gas price with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_limit=10000, to=unhexlify("1d1c328764a41bda0492b66baa30c4a339ff85ef"), value=12345678901234567890, ) # no gas limit with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=10000, to=unhexlify("1d1c328764a41bda0492b66baa30c4a339ff85ef"), value=12345678901234567890, ) # no nonce with pytest.raises(Exception): ethereum.sign_tx( self.client, n=[0, 0], gas_price=10000, gas_limit=123456, to=unhexlify("1d1c328764a41bda0492b66baa30c4a339ff85ef"), value=12345678901234567890, )
def test_with_data(client): sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=0, gas_price=20000000000, gas_limit=21000, to="0x8eA7a3fccC211ED48b763b4164884DDbcF3b0A98", value=10000000000, chain_id=1, data=b"ABCDEFGHIJKLM", ) assert sig_v == 37 assert (sig_r.hex() == "c57556e308f49c84adc614042bf443381676fd2797f9512a85dc529f7acb7fa8") assert (sig_s.hex() == "60a82338641fd4a924a6ec31da4aadc0a43ac77d3a021307ec07bb6982ccbe8d")
def test_signtx(client: Client, parameters, result): with client: sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path(parameters["path"]), nonce=int(parameters["nonce"], 16), gas_price=int(parameters["gas_price"], 16), gas_limit=int(parameters["gas_limit"], 16), to=parameters["to_address"], chain_id=parameters["chain_id"], value=int(parameters["value"], 16), tx_type=parameters["tx_type"], data=bytes.fromhex(parameters["data"]), ) expected_v = 2 * parameters["chain_id"] + 35 assert sig_v in (expected_v, expected_v + 1) assert sig_r.hex() == result["sig_r"] assert sig_s.hex() == result["sig_s"] assert sig_v == result["sig_v"]
def test_ethereum_signtx_message(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=3), proto.EthereumTxRequest(), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/0"), nonce=0, gas_price=20000, gas_limit=20000, to=TO_ADDR, value=0, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 27 assert ( sig_r.hex() == "81af16020d3c6ad820cab2e2b0834fa37f4a9b0c2443f151a4e2f12fe1081b09" ) assert ( sig_s.hex() == "7b34b5d8a43771d493cd9fa0c7b27a9563e2a31799fb9f0c2809539a848b9f47" )
def test_ethereum_signtx_message(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=3), proto.EthereumTxRequest(), ]) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=0, gas_price=20000, gas_limit=20000, to=unhexlify("1d1c328764a41bda0492b66baa30c4a339ff85ef"), value=0, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 28 assert ( hexlify(sig_r) == b"070e9dafda4d9e733fa7b6747a75f8a4916459560efb85e3e73cd39f31aa160d" ) assert ( hexlify(sig_s) == b"7842db33ef15c27049ed52741db41fe3238a6fa3a6a0888fcfb74d6917600e41" )
def sign_transaction(self, tx): """Sign a provided transaction, either with our private key or a Trezor hardware wallet. :param tx: Transaction to sign :return: Signed transaction """ logger.info('Signing transaction: %s', tx) if self.trezor is not None: chain_id = tx['chainId'] txobj = Transaction( nonce=tx['nonce'], gasprice=tx['gasPrice'], startgas=tx['gas'], to=tx['to'], value=tx['value'], data=bytes.fromhex(tx['data'][2:]), ) v, r, s = trezoreth.sign_tx( self.trezor, n=self.address_n, nonce=txobj.nonce, gas_price=txobj.gasprice, gas_limit=txobj.startgas, to=txobj.to, value=txobj.value, data=txobj.data, chain_id=chain_id, ) r = int.from_bytes(r, byteorder='big') s = int.from_bytes(s, byteorder='big') return rlp.encode(txobj.copy(v=v, r=r, s=s)) else: return self.w3.eth.account.signTransaction( tx, self.priv_key).rawTransaction
def test_sanity_checks(client: Client): """Is not vectorized because these are internal-only tests that do not need to be exposed to the public. """ # contract creation without data should fail. with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=123_456, gas_price=20_000, gas_limit=20_000, to="", value=12_345_678_901_234_567_890, chain_id=1, ) # gas overflow with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=123_456, gas_price=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, gas_limit=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, to=TO_ADDR, value=12_345_678_901_234_567_890, chain_id=1, ) # bad chain ID with pytest.raises(TrezorFailure, match=r"Chain ID out of bounds"): ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=123_456, gas_price=20_000, gas_limit=20_000, to=TO_ADDR, value=12_345_678_901_234_567_890, chain_id=0, )
def test_ethereum_signtx_data(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ]) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=0, gas_price=20, gas_limit=20, to=TO_ADDR, value=10, data=b"abcdefghijklmnop" * 16, ) assert sig_v == 28 assert ( sig_r.hex() == "6da89ed8627a491bedc9e0382f37707ac4e5102e25e7a1234cb697cedb7cd2c0") assert ( sig_s.hex() == "691f73b145647623e2d115b208a7c3455a6a8a83e3b4db5b9c6d9bc75825038a") with self.client: self.client.set_expected_responses([ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=3), proto.EthereumTxRequest(), ]) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[0, 0], nonce=123456, gas_price=20000, gas_limit=20000, to=TO_ADDR, value=12345678901234567890, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 28 assert ( sig_r.hex() == "4e90b13c45c6a9bf4aaad0e5427c3e62d76692b36eb727c78d332441b7400404") assert ( sig_s.hex() == "3ff236e7d05f0f9b1ee3d70599bb4200638f28388a8faf6bb36db9e04dc544be")
def test_ethereum_signtx_data(self, client): with client: client.set_expected_responses( [ messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.EthereumTxRequest(data_length=None), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path("44'/60'/0'/0/0"), nonce=0, gas_price=20, gas_limit=20, to=TO_ADDR, value=10, data=b"abcdefghijklmnop" * 16, ) assert sig_v == 27 assert ( sig_r.hex() == "e90f9e3dbfb34861d40d67570cb369049e675c6eebfdda6b08413a2283421b85" ) assert ( sig_s.hex() == "763912b8801f76cbea7792d98123a245514beeab2f3afebb4bab637888e8393a" ) with client: client.set_expected_responses( [ messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), messages.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), messages.EthereumTxRequest(data_length=1024), messages.EthereumTxRequest(data_length=1024), messages.EthereumTxRequest(data_length=3), messages.EthereumTxRequest(), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path("44'/60'/0'/0/0"), nonce=123456, gas_price=20000, gas_limit=20000, to=TO_ADDR, value=12345678901234567890, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 27 assert ( sig_r.hex() == "dd96d82d791118a55601dfcede237760d2e9734b76c373ede5362a447c42ac48" ) assert ( sig_s.hex() == "60a77558f28d483d476f9507cd8a6a4bb47b86611aaff95fd5499b9ee9ebe7ee" )
], "outputs": [{"name": "", "type": "bool"}], } ] contract = w3.eth.contract(address=token_address, abi=min_abi) data = contract.encodeABI("transfer", [to_address, amount]) data = bytes.fromhex(data[2:]) to_address = token_address amount = 0 sig = ethereum.sign_tx( client, n=address_n, nonce=nonce, gas_price=gas_price, gas_limit=gas_limit, to=to_address, value=amount, data=data, chain_id=chain_id, ) client.close() to = bytes.fromhex(to_address[2:]) transaction = rlp_encode((nonce, gas_price, gas_limit, to, amount, data) + sig) print(f'{{"hex": "0x{transaction.hex()}"}}') """ txn_id = 0xdcaf3eba690a3cdbad8c2926a8f5a95cd20003c5ba2aace91d8c5fe8048e395b https://etherscan.io/getRawTx?tx=${txn_id}
def test_ethereum_signtx_eip155(self): # chain_id, nonce, sig_v, sig_r, sig_s, value, gas_limit, data VECTORS = [ ( 3, 0, 41, b"a90d0bc4f8d63be69453dd62f2bb5fff53c610000abf956672564d8a654d401a", b"544a2e57bc8b4da18660a1e6036967ea581cc635f5137e3ba97a750867c27cf2", 100000000000000000, 21000, None, ), ( 3, 1, 42, b"699428a6950e23c6843f1bf3754f847e64e047e829978df80d55187d19a401ce", b"087343d0a3a2f10842218ffccb146b59a8431b6245ab389fde22dc833f171e6e", 100000000000000000, 21000, None, ), ( 3, 2, 42, b"ba85b622a8bb82606ba96c132e81fa8058172192d15bc41d7e57c031bca17df4", b"6473b75997634b6f692f8d672193591d299d5bf1c2d6e51f1a14ed0530b91c7d", 100000000000000000, 21004, b"\0", ), ( 3, 3, 42, b"d021c98f92859c8db5e4de2f0e410a8deb0c977eb1a631e323ebf7484bd0d79a", b"2c0e9defc9b1e895dc9520ff25ba3c635b14ad70aa86a5ad6c0a3acb82b569b6", 100000000000000000, 299732, b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ), ( 3, 4, 42, b"dd52f026972a83c56b7dea356836fcfc70a68e3b879cdc8ef2bb5fea23e0a7aa", b"079285fe579c9a2da25c811b1c5c0a74cd19b6301ee42cf20ef7b3b1353f7242", 0, 21004, b"\0", ), ( 1, 1, 37, b"bae6198fdc87ccad6256e543617a34d052bfd17ae3be0bec7fbf8ea34bf9c930", b"7d12f625f3e54700b6ed14ab669f45a8a2b5552c39f0781b0ab3796f19e6b4d1", 0, 21004, b"\0", ), ( 255, 1, 546, b"7597a40719509ae3850d2eba808b7b2f7d272fda316e1321e5ebcc911e9f1b0d", b"269dd69248273820f65b43d8824bb7aff1aa4e35ee663a5433a5df8f0c47dc31", 0, 21004, b"\0", ), ( 256, 1, 547, b"64e9821db2001ff5dff13c9d8c7fb0701ff860f5f95155d378fb9fcc06088f28", b"4d03f339afed717e2155f044a6b0a895b5ac98343f1745e7525870c2046c36bc", 0, 21004, b"\0", ), ( 65535, 1, 131106, b"6f2275808dc328184d7aa019d0a68f8dd8234969576a477670934145bb358969", b"2be1ff9045bccff9ba3d6d5c7789a52c52c9679526dd3ec349caa318c3d055ff", 0, 21004, b"\0", ), ( 65536, 1, 131107, b"e16e35afe534a46e3e4cf09f355cbf02edc01937c2b444238162c2aca79037b8", b"1083b84e21b1cbad95c7ea9792818c18fa716aa25951c5341b48732d611a396a", 0, 21004, b"\0", ), ( 16777215, 1, 33554466, b"f9753ee68cf2af20638cc753945d157039504f82d6d6fe0ec98806b64366c551", b"056b57a69d88a4b71fba993c580d8bbf04f2c857f97a8b7d4b2892b5dafa9114", 0, 21004, b"\0", ), ( 16777216, 1, 33554468, b"23a5399650c6efa46a25a0a966a29119830d9c587b6b93da43cb0be6d3c69059", b"5a6eddffc62317a6a3801608071655a9c43423aef9705b2f5df4212942265c37", 0, 21004, b"\0", ), ( 2147483629, 1, 4294967294, b"6a996586f1ea19afe9cb0ca44dec6bb8643cdf53b5cf148323c94a32a04b087d", b"0d086b208df6826657edf98010972b2649b323466a7ea4b67e7285fb9e829481", 0, 21004, b"\0", ), ( 2147483630, 1, 4294967296, b"fd0377ff429a51ae284c4b09b7d7c26c78944c86bb311b5988d70be4fc59eeba", b"2ad183858ac6b1efa820b9ee2c2dbf6659a73cc5b714d32c380b263d024f2ee9", 0, 21004, None, ), ( 2147483631, 1, 4294967298, b"a4e89720285b179f679ecec1c79e4948b18ee4cf08f76b11d701cbead5e81a70", b"094b32d3e53833c8085dadfe169782db4d32856d7b556f832f64dfdcfa1dd3b8", 100000000000000000, 21000, None, ), ( 3125659152, 1, 6251318340, b"a39e51d16cb10c81a9c1d9b071b714c4ecf112702407f1cc7aae35c85eced3d3", b"0b0654665e4677c77510fc2a43026ee66c13261d3d893895bc49e6f4eaa5c8bd", 1, 21005, None, ), ( 4294967295, 1, 8589934625, b"3367230b5f506426f075f3137f4fd6a5fc4198326dd4936bbc38bf0c5ff43a5e", b"6e48c3c95b3a534f7853a3b5dd72cdeffe9b7e93503eb7a793c9d5fdc14c4e99", 100000000000000000, 21000, None, ), ] self.setup_mnemonic_allallall() for ci, n, sv, sr, ss, v, gl, d in VECTORS: sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[H_(44), H_(1), H_(0), 0, 0], nonce=n, gas_price=20000000000, gas_limit=gl, to=unhexlify("8ea7a3fccc211ed48b763b4164884ddbcf3b0a98"), value=v, chain_id=ci, data=d, ) assert sig_v == sv assert hexlify(sig_r) == sr assert hexlify(sig_s) == ss
def test_ethereum_signtx_eip155(self): # chain_id, nonce, sig_v, sig_r, sig_s, value, gas_limit, data VECTORS = [ ( 3, 0, 42, "cde31d8ab07d423d5e52aeb148180528ea54974cdb4c5578499c0137ec24d892", "41fc58955b3b3e3f3b2aced65e11e8a3cb6339027f943bec3d504d6398b69dd2", 100000000000000000, 21000, None, ), ( 3, 1, 41, "57951fed170f3765dea164d65acd31373799db32ec572e213b1d9a1209956b98", "0971f8830c0e2e89919309f217ed2eadb0c63d647e016d220729ce79d27c24a0", 100000000000000000, 21000, None, ), ( 3, 2, 42, "73744f66231690edd9eed2ab3c2b56ec4f6c4b9aabc633ae7f3f4ea94223d52c", "7f500afbe2b2b4e4e57f22511e3a42b3596b85cad7fe1eca700cdae1905d3555", 100000000000000000, 21004, b"\0", ), ( 3, 3, 42, "1a4fc1ec5f98bf874d5336aaf1fa9069ce68dc36c3f77e93465c9ac2c8b4b741", "13007c9b1df6a0d2f2ffa9d0ebcdec189122a5e781eb64967eb0d6a6def95b7a", 100000000000000000, 299732, b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ), ( 3, 4, 42, "8da0358d780df542f767d977f99ad034b6d9fa808fe50997141be2a1b93542c0", "2dafe1ead8aae1051e6662c5d553b34067bda9c8fa7314ae8693ec61ddfc96d4", 0, 21004, b"\0", ), ( 1, 1, 38, "b72707f0f5a38339c9dd0359720312c739a8ac6554659c7af48456f06ba33374", "75a431c046046942f9c1f3305cd08f34302164811c675ac0a0ac0b73cb30a90e", 0, 21004, b"\0", ), ( 255, 1, 545, "529172fb644a6d29b7218fb783f3d666021fc29cc4bf9bffbcfb3b84ab8d6181", "30980c6102a12872ef9cd888f2bf90c81bbbdc8878ff7d1d1382f8983b0d0c49", 0, 21004, b"\0", ), ( 256, 1, 548, "db53c05c679bdfdf3ded787ce9607d3f109ae46c87b1dcc9ab34053e5ed0eace", "39645dd48118d369b588dbf279f1a8c01051fabf65bf8eaa633c6433ff120cce", 0, 21004, b"\0", ), ( 65535, 1, 131105, "b520fa77767cdf07b6014d4a8fb35eebe5ed7c0edab97132b0dc74e3e1f13ed9", "78735b2db4cf95fb651c5c1f5529e60542019e456c6cb7a9f4bd9bbb83418d99", 0, 21004, b"\0", ), ( 65536, 1, 131107, "4b6122ba875b57ce084bd5f08e9ae1944e998726a4056c9b7746432d8f46ba99", "6812c2668ac9c9927b69ef7cf9baec54436f7319ccc14f0f664e1e94e6109e06", 0, 21004, b"\0", ), ( 16777215, 1, 33554465, "68a8c6f2336a8e3296f17a307d84a1e6d3ab1383fdcc62611c2e8426f2e2777e", "2d4ce900077ab40aac26064945998dbac5a014baadae2d3cb629cdeb9452db61", 0, 21004, b"\0", ), ( 16777216, 1, 33554468, "b6c42c584ef69621a2e5f3e1ab9dad890dbff3c92a599230dd0e394cd29d1c68", "497eec05ea52773d0f05e7fdf4f7993b3a06ef958804b39af699ef09ed0f5d7e", 0, 21004, b"\0", ), ( 2147483629, 1, 4294967294, "1a31f886c0bba527e622a731270dc29e62a607ff63558fca38745e5b9a672686", "0f3fce8a70598bbb54387cde7e8f957a27e4a816cbc9408717b27d8666222bd9", 0, 21004, b"\0", ), ( 2147483630, 1, 4294967296, "ba6cb6e2ebbac3726db9a3e4a939454009108f6515330e567aeada14ecebe074", "2bbfba1154cae32e3e6c6bbf3ce41cba6cc8c6b764245ba6026605506838e690", 0, 21004, None, ), ( 2147483631, 1, 4294967298, "3c743528e9ce315db02e487de93f2b2cfc93421e43f1d519f77a2f05bd2ce190", "16c1fec1495fe5da89d1a026f1a575ff354e18ff0fb9d04a6cfb0413267ab2bc", 100000000000000000, 21000, None, ), ( 3125659152, 1, 6251318340, "82cde0c9e1a94c1305791b09e1bcd021a49b036a16d9733acbc1a08bb30f3410", "472c8897519ba410b86f80993236d992e18e94d1f59c3d8760d2d7c90914dfc6", 1, 21005, None, ), ( 4294967295, 1, 8589934625, "67788e892fb372bba16823e16d3186f67494d7b1128555248f3661ad87e9d7ef", "2faf9f06dfdf23ceca2796cf0d55c88187f199e98a94dfb15722824b244d81a1", 100000000000000000, 21000, None, ), ] self.setup_mnemonic_allallall() for ci, n, sv, sr, ss, v, gl, d in VECTORS: sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[H_(44), H_(60), H_(0), 0, 0], nonce=n, gas_price=20000000000, gas_limit=gl, to="0x8eA7a3fccC211ED48b763b4164884DDbcF3b0A98", value=v, chain_id=ci, data=d, ) assert sig_v == sv assert sig_r.hex() == sr assert sig_s.hex() == ss
def test_ethereum_signtx_data(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest(data_length=None), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/0"), nonce=0, gas_price=20, gas_limit=20, to=TO_ADDR, value=10, data=b"abcdefghijklmnop" * 16, ) assert sig_v == 27 assert ( sig_r.hex() == "e90f9e3dbfb34861d40d67570cb369049e675c6eebfdda6b08413a2283421b85" ) assert ( sig_s.hex() == "763912b8801f76cbea7792d98123a245514beeab2f3afebb4bab637888e8393a" ) with self.client: self.client.set_expected_responses( [ proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.ButtonRequest(code=proto.ButtonRequestType.SignTx), proto.EthereumTxRequest( data_length=1024, signature_r=None, signature_s=None, signature_v=None, ), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=1024), proto.EthereumTxRequest(data_length=3), proto.EthereumTxRequest(), ] ) sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=parse_path("44'/60'/0'/0/0"), nonce=123456, gas_price=20000, gas_limit=20000, to=TO_ADDR, value=12345678901234567890, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ) assert sig_v == 27 assert ( sig_r.hex() == "dd96d82d791118a55601dfcede237760d2e9734b76c373ede5362a447c42ac48" ) assert ( sig_s.hex() == "60a77558f28d483d476f9507cd8a6a4bb47b86611aaff95fd5499b9ee9ebe7ee" )
def test_ethereum_signtx_eip155(self): # chain_id, nonce, sig_v, sig_r, sig_s, value, gas_limit, data VECTORS = [ ( 3, 0, 42, "cde31d8ab07d423d5e52aeb148180528ea54974cdb4c5578499c0137ec24d892", "41fc58955b3b3e3f3b2aced65e11e8a3cb6339027f943bec3d504d6398b69dd2", 100000000000000000, 21000, None, ), ( 3, 1, 41, "57951fed170f3765dea164d65acd31373799db32ec572e213b1d9a1209956b98", "0971f8830c0e2e89919309f217ed2eadb0c63d647e016d220729ce79d27c24a0", 100000000000000000, 21000, None, ), ( 3, 2, 42, "73744f66231690edd9eed2ab3c2b56ec4f6c4b9aabc633ae7f3f4ea94223d52c", "7f500afbe2b2b4e4e57f22511e3a42b3596b85cad7fe1eca700cdae1905d3555", 100000000000000000, 21004, b"\0", ), ( 3, 3, 42, "1a4fc1ec5f98bf874d5336aaf1fa9069ce68dc36c3f77e93465c9ac2c8b4b741", "13007c9b1df6a0d2f2ffa9d0ebcdec189122a5e781eb64967eb0d6a6def95b7a", 100000000000000000, 299732, b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", ), ( 3, 4, 42, "8da0358d780df542f767d977f99ad034b6d9fa808fe50997141be2a1b93542c0", "2dafe1ead8aae1051e6662c5d553b34067bda9c8fa7314ae8693ec61ddfc96d4", 0, 21004, b"\0", ), ( 1, 1, 38, "b72707f0f5a38339c9dd0359720312c739a8ac6554659c7af48456f06ba33374", "75a431c046046942f9c1f3305cd08f34302164811c675ac0a0ac0b73cb30a90e", 0, 21004, b"\0", ), ( 255, 1, 545, "529172fb644a6d29b7218fb783f3d666021fc29cc4bf9bffbcfb3b84ab8d6181", "30980c6102a12872ef9cd888f2bf90c81bbbdc8878ff7d1d1382f8983b0d0c49", 0, 21004, b"\0", ), ( 256, 1, 548, "db53c05c679bdfdf3ded787ce9607d3f109ae46c87b1dcc9ab34053e5ed0eace", "39645dd48118d369b588dbf279f1a8c01051fabf65bf8eaa633c6433ff120cce", 0, 21004, b"\0", ), ( 65535, 1, 131105, "b520fa77767cdf07b6014d4a8fb35eebe5ed7c0edab97132b0dc74e3e1f13ed9", "78735b2db4cf95fb651c5c1f5529e60542019e456c6cb7a9f4bd9bbb83418d99", 0, 21004, b"\0", ), ( 65536, 1, 131107, "4b6122ba875b57ce084bd5f08e9ae1944e998726a4056c9b7746432d8f46ba99", "6812c2668ac9c9927b69ef7cf9baec54436f7319ccc14f0f664e1e94e6109e06", 0, 21004, b"\0", ), ( 16777215, 1, 33554465, "68a8c6f2336a8e3296f17a307d84a1e6d3ab1383fdcc62611c2e8426f2e2777e", "2d4ce900077ab40aac26064945998dbac5a014baadae2d3cb629cdeb9452db61", 0, 21004, b"\0", ), ( 16777216, 1, 33554468, "b6c42c584ef69621a2e5f3e1ab9dad890dbff3c92a599230dd0e394cd29d1c68", "497eec05ea52773d0f05e7fdf4f7993b3a06ef958804b39af699ef09ed0f5d7e", 0, 21004, b"\0", ), ( 2147483629, 1, 4294967294, "1a31f886c0bba527e622a731270dc29e62a607ff63558fca38745e5b9a672686", "0f3fce8a70598bbb54387cde7e8f957a27e4a816cbc9408717b27d8666222bd9", 0, 21004, b"\0", ), ( 2147483630, 1, 4294967296, "ba6cb6e2ebbac3726db9a3e4a939454009108f6515330e567aeada14ecebe074", "2bbfba1154cae32e3e6c6bbf3ce41cba6cc8c6b764245ba6026605506838e690", 0, 21004, None, ), ( 2147483631, 1, 4294967298, "3c743528e9ce315db02e487de93f2b2cfc93421e43f1d519f77a2f05bd2ce190", "16c1fec1495fe5da89d1a026f1a575ff354e18ff0fb9d04a6cfb0413267ab2bc", 100000000000000000, 21000, None, ), ( 3125659152, 1, 6251318340, "82cde0c9e1a94c1305791b09e1bcd021a49b036a16d9733acbc1a08bb30f3410", "472c8897519ba410b86f80993236d992e18e94d1f59c3d8760d2d7c90914dfc6", 1, 21005, None, ), ( 4294967295, 1, 8589934625, "67788e892fb372bba16823e16d3186f67494d7b1128555248f3661ad87e9d7ef", "2faf9f06dfdf23ceca2796cf0d55c88187f199e98a94dfb15722824b244d81a1", 100000000000000000, 21000, None, ), ] self.setup_mnemonic_allallall() for ci, n, sv, sr, ss, v, gl, d in VECTORS: sig_v, sig_r, sig_s = ethereum.sign_tx( self.client, n=[H_(44), H_(60), H_(0), 0, 0], nonce=n, gas_price=20000000000, gas_limit=gl, to=bytes.fromhex("8ea7a3fccc211ed48b763b4164884ddbcf3b0a98"), value=v, chain_id=ci, data=d, ) assert sig_v == sv assert sig_r.hex() == sr assert sig_s.hex() == ss
def __sign_transaction(self, n: List[int], trezor_transaction: dict) -> Tuple[bytes, bytes, bytes]: """Internal wrapper for trezorlib transaction signing calls""" v, r, s = ethereum.sign_tx(client=self.__client, n=n, **trezor_transaction) return v, r, s