def test_simple_transfer(self): EXPECTED_DIGEST = "7fff24ca77fbb23b9b3c460104ab1a74011bafe3965e15dc6ea6f25a4ac44392" EXPECTED_PAYLOAD = \ "a1440000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d44235130ac5aab442e39f" \ "9aa27118956695229212dd2f1ab5b714e9f6bd581511c1010000000000000000000000000418c2a33af8bd2cba7f" \ "a714a840a308a217aa4483880b1ef14b4fdffe08ab956e3f4b921cec33be7c258cfd7025a2b9a942770e5b17758b" \ "cc4961bbdc75a0251c" # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.add_transfer(IDENTITIES[1], 256) payload.add_signer(IDENTITIES[0]) # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def test_multiple_transfers(self): EXPECTED_DIGEST = "7e6a95a8c773755d349209d8f3bb60ec2a5f3c683075540f953863f124eb1250" EXPECTED_PAYLOAD = \ "a1460000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d4014235130ac5aab442e3" \ "9f9aa27118956695229212dd2f1ab5b714e9f6bd581511c1010020f478c7f74b50c187bf9a8836f382bd62977bae" \ "eaf19625608e7e912aa60098c10200da2e9c3191e3768d1c59ea43f6318367ed9b21e6974f46a60d0dd8976740af" \ "6dc2000186a000000000000000000000000418c2a33af8bd2cba7fa714a840a308a217aa4483880b1ef14b4fdffe" \ "08ab956e3f4b921cec33be7c258cfd7025a2b9a942770e5b17758bcc4961bbdc75a0251c" # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.add_transfer(IDENTITIES[1], 256) payload.add_transfer(IDENTITIES[2], 512) payload.add_transfer(IDENTITIES[3], 100000) payload.add_signer(IDENTITIES[0]) # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def get_hash(message: bytes) -> str: """ Get the hash of a message. :param message: the message to be hashed. :return: the hash of the message. """ digest = sha256_hash(message) return digest.hex()
def generate_tx_nonce(seller: Address, client: Address) -> str: """ Generate a unique hash to distinguish txs with the same terms. :param seller: the address of the seller. :param client: the address of the client. :return: return the hash in hex. """ time_stamp = int(time.time()) aggregate_hash = sha256_hash( b"".join([seller.encode(), client.encode(), time_stamp.to_bytes(32, "big")]) ) return aggregate_hash.hex()
def generate_tx_nonce(self, seller: Address, client: Address) -> str: """ Generate a random str message. :param seller: the address of the seller. :param client: the address of the client. :return: return the hash in hex. """ time_stamp = int(time.time()) aggregate_hash = sha256_hash(b"".join( [seller.encode(), client.encode(), time_stamp.to_bytes(32, "big")])) return aggregate_hash.hex()
def test_contract_with_large_shard_mask(self): EXPECTED_DIGEST = "a4eff45d0374d29f259aba25fb06dd67394149b636927d199062102d91c0f7bf" EXPECTED_PAYLOAD = \ "a1418000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d464c0c8c103e8c2000f42" \ "4041eaab0b666f6f2e6261722e62617a066c61756e63680000000000000000000418c2a33af8bd2cba7fa714a840" \ "a308a217aa4483880b1ef14b4fdffe08ab956e3f4b921cec33be7c258cfd7025a2b9a942770e5b17758bcc4961bb" \ "dc75a0251c" mask = BitVector(16) mask.set(15, 1) mask.set(14, 1) mask.set(13, 1) mask.set(11, 1) mask.set(9, 1) mask.set(7, 1) mask.set(5, 1) mask.set(3, 1) mask.set(1, 1) mask.set(0, 1) # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.add_signer(IDENTITIES[0]) payload.charge_rate = 1000 payload.charge_limit = 1000000 payload.valid_from = 100 payload.valid_until = 200 payload.target_chain_code('foo.bar.baz', mask) payload.action = 'launch' # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def test_contract_with_4bit_shard_mask(self): EXPECTED_DIGEST = "7915d6393fb07dbb4ff6896ef0f57025e5153b744d3a652b0f4815f129a9033c" EXPECTED_PAYLOAD = \ "a1418000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d464c0c8c103e8c2000f42" \ "401c0b666f6f2e6261722e62617a066c61756e63680000000000000000000418c2a33af8bd2cba7fa714a840a308" \ "a217aa4483880b1ef14b4fdffe08ab956e3f4b921cec33be7c258cfd7025a2b9a942770e5b17758bcc4961bbdc75" \ "a0251c" mask = BitVector(4) mask.set(3, 1) mask.set(2, 1) # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.add_signer(IDENTITIES[0]) payload.charge_rate = 1000 payload.charge_limit = 1000000 payload.valid_from = 100 payload.valid_until = 200 payload.target_chain_code('foo.bar.baz', mask) payload.action = 'launch' # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def test_validity_ranges(self): EXPECTED_DIGEST = "98f10e8aa0bf4507db9eca66f0ff0b6a3eff35fe4def9ed86150c7ce72e71e80" EXPECTED_PAYLOAD = \ "a1470000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d4024235130ac5aab442e3" \ "9f9aa27118956695229212dd2f1ab5b714e9f6bd581511c103e820f478c7f74b50c187bf9a8836f382bd62977bae" \ "eaf19625608e7e912aa60098c103e8da2e9c3191e3768d1c59ea43f6318367ed9b21e6974f46a60d0dd8976740af" \ "6dc103e8e6672a9d98da667e5dc25b2bca8acf9644a7ac0797f01cb5968abf39de011df2c103e864c0c8c103e8c2" \ "000f424000000000000000000418c2a33af8bd2cba7fa714a840a308a217aa4483880b1ef14b4fdffe08ab956e3f" \ "4b921cec33be7c258cfd7025a2b9a942770e5b17758bcc4961bbdc75a0251c" # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.add_transfer(IDENTITIES[1], 1000) payload.add_transfer(IDENTITIES[2], 1000) payload.add_transfer(IDENTITIES[3], 1000) payload.add_transfer(IDENTITIES[4], 1000) payload.add_signer(IDENTITIES[0]) payload.charge_rate = 1000 payload.charge_limit = 1000000 payload.valid_from = 100 payload.valid_until = 200 # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def test_synergetic_data_submission(self): EXPECTED_DIGEST = "9397fd490b60a394ea0af5526435608a1e853e2cb6b09bc7cafec8f6a0aa2cf6" EXPECTED_PAYLOAD = \ "a140c000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d4c1271001c3000000e8d4" \ "a5100080da2e9c3191e3768d1c59ea43f6318367ed9b21e6974f46a60d0dd8976740af6de6672a9d98da667e5dc2" \ "5b2bca8acf9644a7ac0797f01cb5968abf39de011df204646174610f7b2276616c7565223a20313233347d000000" \ "00000000000418c2a33af8bd2cba7fa714a840a308a217aa4483880b1ef14b4fdffe08ab956e3f4b921cec33be7c" \ "258cfd7025a2b9a942770e5b17758bcc4961bbdc75a0251c" # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.valid_until = 10000 payload.target_contract(IDENTITIES[3], IDENTITIES[4], BitVector()) payload.charge_rate = 1 payload.charge_limit = 1000000000000 payload.action = 'data' payload.synergetic_data_submission = True payload.data = json.dumps({'value': 1234}).encode('ascii') payload.add_signer(IDENTITIES[0]) # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def test_smart_contract(self): EXPECTED_DIGEST = "032a72029ae2ac5cdbf9e07cf57d9ecab97a6de34ed5cdf785d1d98037cd5dcd" EXPECTED_PAYLOAD = \ "a1404000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d400c103e8c2000f424080" \ "da2e9c3191e3768d1c59ea43f6318367ed9b21e6974f46a60d0dd8976740af6de6672a9d98da667e5dc25b2bca8a" \ "cf9644a7ac0797f01cb5968abf39de011df2066c61756e636802676f00000000000000000418c2a33af8bd2cba7f" \ "a714a840a308a217aa4483880b1ef14b4fdffe08ab956e3f4b921cec33be7c258cfd7025a2b9a942770e5b17758b" \ "cc4961bbdc75a0251c" # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.add_signer(IDENTITIES[0]) payload.charge_rate = 1000 payload.charge_limit = 1000000 payload.target_contract(IDENTITIES[3], IDENTITIES[4], BitVector()) payload.action = 'launch' payload.data = 'go'.encode('ascii') # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def test_chain_code(self): EXPECTED_DIGEST = "7032dd625b0a93aec85fa03696d0ecbc9de19d834ce3fd1d1ed9cf8a56d9f62e" EXPECTED_PAYLOAD = \ "a1408000532398dd883d1990f7dad3fde6a53a53347afc2680a04748f7f15ad03cadc4d400c103e8c2000f424080" \ "0b666f6f2e6261722e62617a066c61756e636802676f00000000000000000418c2a33af8bd2cba7fa714a840a308" \ "a217aa4483880b1ef14b4fdffe08ab956e3f4b921cec33be7c258cfd7025a2b9a942770e5b17758bcc4961bbdc75" \ "a0251c" # build the payload bytes for the transaction with mock.patch('random.getrandbits') as mock_counter: mock_counter.side_effect = [0] payload = Transaction() payload.from_address = IDENTITIES[0] payload.add_signer(IDENTITIES[0]) payload.charge_rate = 1000 payload.charge_limit = 1000000 payload.target_chain_code('foo.bar.baz', BitVector()) payload.action = 'launch' payload.data = 'go'.encode('ascii') # sign the final transaction transaction_bytes = encode_transaction(payload, [ENTITIES[0]]) self.assertIsExpectedTx(payload, transaction_bytes, EXPECTED_PAYLOAD) # attempt to decode a transaction from the generated bytes buffer = io.BytesIO(transaction_bytes) success, tx = decode_transaction(buffer) self.assertTrue(success) self.assertTxAreEqual(payload, tx) # Check payload digest buffer = io.BytesIO() encode_payload(buffer, payload) self.assertEqual(sha256_hash(buffer.getvalue()), EXPECTED_DIGEST)
def _compute_digest(source) -> Address: return Address(sha256_hash(source.encode('ascii')))
def _digest(data): return sha256_hash(data)