def test_recognition_and_comparisons(self): a = Address(self.addr) a2 = address(self.addr) self.assertIsInstance(a2, Address) self.assertEqual(a, a2) self.assertEqual(a, self.addr) self.assertEqual(self.addr, a) self.assertEqual(a.is_testnet(), self.testnet) self.assertEqual(a2.is_testnet(), self.testnet) ia = IntegratedAddress(self.iaddr) ia2 = address(self.iaddr) self.assertIsInstance(ia, IntegratedAddress) self.assertEqual(ia, ia2) self.assertEqual(ia, self.iaddr) self.assertEqual(self.iaddr, ia) self.assertEqual(ia.is_testnet(), self.testnet) self.assertEqual(ia2.is_testnet(), self.testnet) self.assertEqual(ia2.get_base_address(), a) sa = SubAddress(self.subaddr) sa2 = address(self.subaddr) self.assertIsInstance(sa2, SubAddress) self.assertEqual(sa, sa2) self.assertEqual(sa, self.subaddr) self.assertEqual(self.subaddr, sa) self.assertEqual(sa.is_testnet(), self.testnet) self.assertEqual(sa2.is_testnet(), self.testnet)
def test_from_and_to_string(self): a = Address(self.addr) self.assertEqual(str(a), self.addr) self.assertEqual("{:s}".format(a), self.addr) self.assertEqual(a.spend_key(), self.psk) self.assertEqual(a.view_key(), self.pvk) self.assertEqual(hash(a), hash(self.addr)) ba = Address(self.addr.encode()) self.assertEqual(ba, a) ba = address(self.addr.encode()) self.assertEqual(ba, a) ia = IntegratedAddress(self.iaddr) self.assertEqual(ia.payment_id(), self.pid) self.assertEqual(str(ia), self.iaddr) self.assertEqual("{:s}".format(ia), self.iaddr) self.assertEqual(ia.spend_key(), self.psk) self.assertEqual(ia.view_key(), self.pvk) self.assertEqual(ia.base_address(), a) ba = IntegratedAddress(self.iaddr.encode()) self.assertEqual(ba, ia) ba = address(self.iaddr.encode()) self.assertEqual(ba, ia) sa = SubAddress(self.subaddr) self.assertEqual(str(sa), self.subaddr) self.assertEqual("{:s}".format(sa), self.subaddr) ba = SubAddress(self.subaddr.encode()) self.assertEqual(ba, sa) ba = address(self.subaddr.encode()) self.assertEqual(ba, sa)
def test_recognition_and_comparisons(self): a = Address(self.addr) a2 = address(self.addr) self.assertIsInstance(a2, Address) self.assertEqual(a, a2) self.assertEqual(a, self.addr) self.assertEqual(self.addr, a) self.assertEqual(hash(a), hash(self.addr)) self.assertEqual(a.is_mainnet(), self.mainnet) self.assertEqual(a.is_testnet(), self.testnet) self.assertEqual(a.is_stagenet(), self.stagenet) self.assertEqual(a2.is_mainnet(), self.mainnet) self.assertEqual(a2.is_testnet(), self.testnet) self.assertEqual(a2.is_stagenet(), self.stagenet) ia = IntegratedAddress(self.iaddr) ia2 = address(self.iaddr) self.assertIsInstance(ia, IntegratedAddress) self.assertEqual(ia, ia2) self.assertEqual(ia, self.iaddr) self.assertEqual(self.iaddr, ia) self.assertEqual(hash(ia), hash(self.iaddr)) self.assertEqual(ia.is_mainnet(), self.mainnet) self.assertEqual(ia.is_testnet(), self.testnet) self.assertEqual(ia.is_stagenet(), self.stagenet) self.assertEqual(ia2.is_mainnet(), self.mainnet) self.assertEqual(ia2.is_testnet(), self.testnet) self.assertEqual(ia2.is_stagenet(), self.stagenet) self.assertEqual(ia2.base_address(), a) self.assertEqual(ia.view_key(), a.view_key()) self.assertEqual(ia.spend_key(), a.spend_key()) sa = SubAddress(self.subaddr) sa2 = address(self.subaddr) self.assertIsInstance(sa2, SubAddress) self.assertEqual(sa, sa2) self.assertEqual(sa, self.subaddr) self.assertEqual(self.subaddr, sa) self.assertEqual(hash(sa), hash(self.subaddr)) self.assertEqual(sa.is_mainnet(), self.mainnet) self.assertEqual(sa.is_testnet(), self.testnet) self.assertEqual(sa.is_stagenet(), self.stagenet) self.assertEqual(sa2.is_mainnet(), self.mainnet) self.assertEqual(sa2.is_testnet(), self.testnet) self.assertEqual(sa2.is_stagenet(), self.stagenet) self.assertNotEqual(a, 0)
def test_idempotence(self): a = Address(self.addr) a_idem = Address(a) self.assertEqual(a, a_idem) a_idem = Address(str(a)) self.assertEqual(a, a_idem) a_idem = address(a) self.assertEqual(a, a_idem) ia = IntegratedAddress(self.iaddr) ia_idem = IntegratedAddress(ia) self.assertEqual(ia, ia_idem) ia_idem = IntegratedAddress(str(ia)) self.assertEqual(ia, ia_idem) ia_idem = address(ia) self.assertEqual(ia, ia_idem)
def setUp(self): self.tx1 = Transaction( timestamp=datetime(2018, 1, 29, 15, 0, 25), height=1087606, hash='a0b876ebcf7c1d499712d84cedec836f9d50b608bb22d6cb49fd2feae3ffed14', fee=Decimal('0.00352891')) self.pm1 = IncomingPayment( amount=Decimal('1'), local_address=address('Bf6ngv7q2TBWup13nEm9AjZ36gLE6i4QCaZ7XScZUKDUeGbYEHmPRdegKGwLT8tBBK7P6L32RELNzCR6QzNFkmogDjvypyV'), payment_id=PaymentID('0166d8da6c0045c51273dd65d6f63734beb8a84e0545a185b2cfd053fced9f5d'), transaction=self.tx1) # setup for one-time output tests self.json1 = { # Actual as_json response from TX ee5bcb6430c39757ff27f8d607287572f3956a0ee16bb1d2378891f93746c8f9 'version': 2, 'unlock_time': 0, 'vin': [{'key': {'amount': 0, 'key_offsets': [25471133, 261981, 36602, 18967, 13096, 16260, 54279, 3105, 5403, 786, 555], 'k_image': '4b48346e954a74be9a334b03cadf8aa020542d201fb6ae7416246d19fd04fdb7'}}], 'vout': [{'amount': 0, 'target': {'key': 'c55e793b4d673dcf73587e5141b777ef24e255d48826c75ce110ffc23ff762b9'}}, {'amount': 0, 'target': {'key': '93b263454cd3cc349245ad60c9c248332b885a1f2d7b5792cfc24fd87434d62a'}}], 'extra': [1, 209, 170, 43, 245, 190, 68, 82, 131, 116, 79, 134, 175, 104, 216, 127, 99, 49, 127, 141, 255, 65, 204, 101, 81, 244, 111, 253, 155, 75, 111, 14, 159, 2, 9, 1, 24, 56, 108, 94, 20, 88, 150, 94], 'rct_signatures': {'type': 5, 'txnFee': 58560000, 'ecdhInfo': [{'amount': '6c13cf459cb9ed96'}, {'amount': '373bc40c7f600bf4'}], 'outPk': ['80521a77ebe954a5daa6f14b13cc74337f999bc68177a58e76f768c18f2fa421', '5997e64b90d59f7f810ddbc801f747c4fa43e2de593e4ea48531e16d776c00fd']}} self.outind1 = [25884175, 25884176] self.tx2 = Transaction(json=self.json1, output_indices=self.outind1) self.oto1 = Output(index=25973289, amount=Decimal('0.000000000000')) self.oto2 = Output(pubkey='0faff18f7149a0db5aa0dc3c9116887740ccbb5dc4d1eeff87895288e55e5052')
def address_is_valid_monero(value): ad = AuctionDaemon() try: a = address(value) if ad.connected: net_type = ad.daemon.info()['nettype'] if net_type == 'stagenet' and a.is_stagenet(): return True elif net_type == 'testnet' and a.is_testnet(): return True elif net_type == 'mainnet' and a.is_mainnet(): return True else: raise ValidationError( _('%(value)s is not a valid %(net_type)s address'), params={ 'value': value, 'net_type': net_type }) return True except ValueError: raise ValidationError( _('%(value)s is an invalid Monero address'), params={'value': value}, )
def validate_address(addr): try: try: a = address(addr) return {'network': str(a.net), 'is_valid': True} except ValueError as v: return {'error': str(v), 'is_valid': False} except Exception as e: abort(500, str(e))
def setUp(self): self.tx1 = Transaction( timestamp=datetime(2018, 1, 29, 15, 0, 25), height=1087606, hash='a0b876ebcf7c1d499712d84cedec836f9d50b608bb22d6cb49fd2feae3ffed14', fee=Decimal('0.00352891')) self.pm1 = IncomingPayment( amount=Decimal('1'), local_address=address('Bf6ngv7q2TBWup13nEm9AjZ36gLE6i4QCaZ7XScZUKDUeGbYEHmPRdegKGwLT8tBBK7P6L32RELNzCR6QzNFkmogDjvypyV'), payment_id=PaymentID('0166d8da6c0045c51273dd65d6f63734beb8a84e0545a185b2cfd053fced9f5d'), transaction=self.tx1)
def test_filter_address(self): pmts = self.wallet.incoming( local_address= 'BhE3cQvB7VF2uuXcpXp28Wbadez6GgjypdRS1F1Mzqn8Advd6q8VfaX8ZoEDobjejrMfpHeNXoX8MjY8q8prW1PEALgr1En' ) self.assertEqual(len(pmts), 2) self.assertEqual( pmts, self.wallet.incoming(local_address=address( 'BhE3cQvB7VF2uuXcpXp28Wbadez6GgjypdRS1F1Mzqn8Advd6q8VfaX8ZoEDobjejrMfpHeNXoX8MjY8q8prW1PEALgr1En' ))) pmts = self.wallet.incoming(local_address=( 'BhE3cQvB7VF2uuXcpXp28Wbadez6GgjypdRS1F1Mzqn8Advd6q8VfaX8ZoEDobjejrMfpHeNXoX8MjY8q8prW1PEALgr1En', 'Bf6ngv7q2TBWup13nEm9AjZ36gLE6i4QCaZ7XScZUKDUeGbYEHmPRdegKGwLT8tBBK7P6L32RELNzCR6QzNFkmogDjvypyV' )) self.assertEqual(len(pmts), 3)
def public_address(self, net='mainnet'): """Returns the master :class:`Address <monero.address.Address>` represented by the seed. :param net: the network, one of 'mainnet', 'testnet', 'stagenet'. Default is 'mainnet'. :rtype: :class:`Address <monero.address.Address>` """ if net not in ('mainnet', 'testnet', 'stagenet'): raise ValueError( "Invalid net argument. Must be one of ('mainnet', 'testnet', 'stagenet').") netbyte = 18 if net == 'mainnet' else 53 if net == 'testnet' else 24 data = "{:x}{:s}{:s}".format(netbyte, self.public_spend_key(), self.public_view_key()) h = keccak_256() h.update(unhexlify(data)) checksum = h.hexdigest() return address(base58.encode(data + checksum[0:8]))
def __init__(self, **kwargs): self.transfers = [] tx = Transaction( timestamp=datetime(2018, 1, 29, 15, 0, 25), height=1087606, hash= "a0b876ebcf7c1d499712d84cedec836f9d50b608bb22d6cb49fd2feae3ffed14", fee=Decimal("0.00352891"), confirmations=3, ) pm = IncomingPayment( amount=Decimal("1"), local_address=address( "Bf6ngv7q2TBWup13nEm9AjZ36gLE6i4QCaZ7XScZUKDUeGbYEHmPRdegKGwLT8tBBK" "7P6L32RELNzCR6QzNFkmogDjvypyV"), payment_id=PaymentID( "0166d8da6c0045c51273dd65d6f63734beb8a84e0545a185b2cfd053fced9f5d" ), transaction=tx, ) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087530, hash= "5c3ab739346e9d98d38dc7b8d36a4b7b1e4b6a16276946485a69797dbf887cd8", fee=Decimal("0.000962550000"), ) pm = IncomingPayment( amount=Decimal("10.000000000000"), local_address=address( "9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6" "K3fhq3scsyY88tdB1MqucULcKzWZC"), payment_id=PaymentID("f75ad90e25d71a12"), transaction=tx, ) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087608, hash= "4ea70add5d0c7db33557551b15cd174972fcfc73bf0f6a6b47b7837564b708d3", fee=Decimal("0.000962550000"), confirmations=1, ) pm = IncomingPayment( amount=Decimal("4.000000000000"), local_address=address( "9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6" "K3fhq3scsyY88tdB1MqucULcKzWZC"), payment_id=PaymentID("f75ad90e25d71a12"), transaction=tx, ) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087530, hash= "e9a71c01875bec20812f71d155bfabf42024fde3ec82475562b817dcc8cbf8dc", fee=Decimal("0.000962550000"), ) pm = IncomingPayment( amount=Decimal("2.120000000000"), local_address=address( "9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6" "K3fhq3scsyY88tdB1MqucULcKzWZC"), payment_id=PaymentID("cb248105ea6a9189"), transaction=tx, ) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 14, 57, 47), height=1087601, hash= "5ef7ead6a041101ed326568fbb59c128403cba46076c3f353cd110d969dac808", fee=Decimal("0.000962430000"), ) pm = IncomingPayment( amount=Decimal("1240.0000000"), local_address=address( "BhE3cQvB7VF2uuXcpXp28Wbadez6GgjypdRS1F1Mzqn8Advd6q8VfaX8ZoEDobjejr" "MfpHeNXoX8MjY8q8prW1PEALgr1En"), payment_id=PaymentID("0000000000000000"), transaction=tx, ) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087606, hash= "cc44568337a186c2e1ccc080b43b4ae9db26a07b7afd7edeed60ce2fc4a6477f", fee=Decimal("0.000962550000"), ) pm = IncomingPayment( amount=Decimal("10.000000000000"), local_address=address( "9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6" "K3fhq3scsyY88tdB1MqucULcKzWZC"), payment_id=PaymentID("0000000000000000"), transaction=tx, ) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 21, 13, 28), height=None, hash= "d29264ad317e8fdb55ea04484c00420430c35be7b3fe6dd663f99aebf41a786c", fee=Decimal("0.000961950000"), ) pm = IncomingPayment( amount=Decimal("3.140000000000"), local_address=address( "9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6" "K3fhq3scsyY88tdB1MqucULcKzWZC"), payment_id=PaymentID("03f6649304ea4cb2"), transaction=tx, ) self.transfers.append(pm)
def __init__(self): self.transfers = [] tx = Transaction( timestamp=datetime(2018, 1, 29, 15, 0, 25), height=1087606, hash= 'a0b876ebcf7c1d499712d84cedec836f9d50b608bb22d6cb49fd2feae3ffed14', fee=Decimal('0.00352891')) pm = IncomingPayment( amount=Decimal('1'), local_address=address( 'Bf6ngv7q2TBWup13nEm9AjZ36gLE6i4QCaZ7XScZUKDUeGbYEHmPRdegKGwLT8tBBK7P6L32RELNzCR6QzNFkmogDjvypyV' ), payment_id=PaymentID( '0166d8da6c0045c51273dd65d6f63734beb8a84e0545a185b2cfd053fced9f5d' ), transaction=tx) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 14, 57, 47), height=1087601, hash= 'f34b495cec77822a70f829ec8a5a7f1e727128d62e6b1438e9cb7799654d610e', fee=Decimal('0.008661870000')) pm = IncomingPayment( amount=Decimal('3.000000000000'), local_address=address( 'BhE3cQvB7VF2uuXcpXp28Wbadez6GgjypdRS1F1Mzqn8Advd6q8VfaX8ZoEDobjejrMfpHeNXoX8MjY8q8prW1PEALgr1En' ), payment_id=PaymentID('f75ad90e25d71a12'), transaction=tx) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087530, hash= '5c3ab739346e9d98d38dc7b8d36a4b7b1e4b6a16276946485a69797dbf887cd8', fee=Decimal('0.000962550000')) pm = IncomingPayment( amount=Decimal('10.000000000000'), local_address=address( '9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6K3fhq3scsyY88tdB1MqucULcKzWZC' ), payment_id=PaymentID('f75ad90e25d71a12'), transaction=tx) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087530, hash= '4ea70add5d0c7db33557551b15cd174972fcfc73bf0f6a6b47b7837564b708d3', fee=Decimal('0.000962550000')) pm = IncomingPayment( amount=Decimal('4.000000000000'), local_address=address( '9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6K3fhq3scsyY88tdB1MqucULcKzWZC' ), payment_id=PaymentID('f75ad90e25d71a12'), transaction=tx) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087530, hash= 'e9a71c01875bec20812f71d155bfabf42024fde3ec82475562b817dcc8cbf8dc', fee=Decimal('0.000962550000')) pm = IncomingPayment( amount=Decimal('2.120000000000'), local_address=address( '9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6K3fhq3scsyY88tdB1MqucULcKzWZC' ), payment_id=PaymentID('cb248105ea6a9189'), transaction=tx) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 14, 57, 47), height=1087601, hash= '5ef7ead6a041101ed326568fbb59c128403cba46076c3f353cd110d969dac808', fee=Decimal('0.000962430000')) pm = IncomingPayment( amount=Decimal('7.000000000000'), local_address=address( 'BhE3cQvB7VF2uuXcpXp28Wbadez6GgjypdRS1F1Mzqn8Advd6q8VfaX8ZoEDobjejrMfpHeNXoX8MjY8q8prW1PEALgr1En' ), payment_id=PaymentID('0000000000000000'), transaction=tx) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 13, 17, 18), height=1087530, hash= 'cc44568337a186c2e1ccc080b43b4ae9db26a07b7afd7edeed60ce2fc4a6477f', fee=Decimal('0.000962550000')) pm = IncomingPayment( amount=Decimal('10.000000000000'), local_address=address( '9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6K3fhq3scsyY88tdB1MqucULcKzWZC' ), payment_id=PaymentID('0000000000000000'), transaction=tx) self.transfers.append(pm) tx = Transaction( timestamp=datetime(2018, 1, 29, 21, 13, 28), height=None, hash= 'd29264ad317e8fdb55ea04484c00420430c35be7b3fe6dd663f99aebf41a786c', fee=Decimal('0.000961950000')) pm = IncomingPayment( amount=Decimal('3.140000000000'), local_address=address( '9tQoHWyZ4yXUgbz9nvMcFZUfDy5hxcdZabQCxmNCUukKYicXegsDL7nQpcUa3A1pF6K3fhq3scsyY88tdB1MqucULcKzWZC' ), payment_id=PaymentID('03f6649304ea4cb2'), transaction=tx) self.transfers.append(pm)
def destpair(s): addr, amount = s.split(':') return (address(addr), as_monero(amount))
import sys from monero.address import address from monero.numbers import PaymentID USAGE = "{0} <address> <payment_id>" try: addr = address(sys.argv[1]) pid = PaymentID(sys.argv[2]) except IndexError: print(USAGE.format(*sys.argv), file=sys.stderr) sys.exit(-1) print(addr.with_payment_id(pid))
def test_recognition_and_comparisons(self): a = Address(self.addr) a2 = address(self.addr) self.assertIsInstance(a2, Address) self.assertEqual(a, a2) self.assertEqual(a, self.addr) self.assertEqual(self.addr, a) self.assertEqual(hash(a), hash(self.addr)) self.assertEqual(a.net, self.net) with pytest.deprecated_call(): self.assertEqual(a.is_mainnet(), self.net == const.NET_MAIN) with pytest.deprecated_call(): self.assertEqual(a.is_testnet(), self.net == const.NET_TEST) with pytest.deprecated_call(): self.assertEqual(a.is_stagenet(), self.net == const.NET_STAGE) self.assertEqual(a2.net, self.net) with pytest.deprecated_call(): self.assertEqual(a2.is_mainnet(), self.net == const.NET_MAIN) with pytest.deprecated_call(): self.assertEqual(a2.is_testnet(), self.net == const.NET_TEST) with pytest.deprecated_call(): self.assertEqual(a2.is_stagenet(), self.net == const.NET_STAGE) ia = IntegratedAddress(self.iaddr) ia2 = address(self.iaddr) self.assertIsInstance(ia, IntegratedAddress) self.assertEqual(ia, ia2) self.assertEqual(ia, self.iaddr) self.assertEqual(self.iaddr, ia) self.assertEqual(hash(ia), hash(self.iaddr)) self.assertEqual(ia.net, self.net) with pytest.deprecated_call(): self.assertEqual(ia.is_mainnet(), self.net == const.NET_MAIN) with pytest.deprecated_call(): self.assertEqual(ia.is_testnet(), self.net == const.NET_TEST) with pytest.deprecated_call(): self.assertEqual(ia.is_stagenet(), self.net == const.NET_STAGE) self.assertEqual(ia2.net, self.net) with pytest.deprecated_call(): self.assertEqual(ia2.is_mainnet(), self.net == const.NET_MAIN) with pytest.deprecated_call(): self.assertEqual(ia2.is_testnet(), self.net == const.NET_TEST) with pytest.deprecated_call(): self.assertEqual(ia2.is_stagenet(), self.net == const.NET_STAGE) self.assertEqual(ia2.base_address(), a) self.assertEqual(ia.view_key(), a.view_key()) self.assertEqual(ia.spend_key(), a.spend_key()) sa = SubAddress(self.subaddr) sa2 = address(self.subaddr) self.assertIsInstance(sa2, SubAddress) self.assertEqual(sa, sa2) self.assertEqual(sa, self.subaddr) self.assertEqual(self.subaddr, sa) self.assertEqual(hash(sa), hash(self.subaddr)) self.assertEqual(sa.net, self.net) with pytest.deprecated_call(): self.assertEqual(sa.is_mainnet(), self.net == const.NET_MAIN) with pytest.deprecated_call(): self.assertEqual(sa.is_testnet(), self.net == const.NET_TEST) with pytest.deprecated_call(): self.assertEqual(sa.is_stagenet(), self.net == const.NET_STAGE) self.assertEqual(sa2.net, self.net) with pytest.deprecated_call(): self.assertEqual(sa2.is_mainnet(), self.net == const.NET_MAIN) with pytest.deprecated_call(): self.assertEqual(sa2.is_testnet(), self.net == const.NET_TEST) with pytest.deprecated_call(): self.assertEqual(sa2.is_stagenet(), self.net == const.NET_STAGE) self.assertNotEqual(a, 0)