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test_coins.py
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test_coins.py
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from unittest import skip
import unittest
from operator import itemgetter
from cryptos import *
from cryptos import coins
from cryptos import explorers
class BaseCoinCase(unittest.TestCase):
name = ""
unspent_address = ""
unspent_address_multiple = []
unspent = []
unspent_multiple = []
addresses = []
segwit_addresses = []
new_segwit_addresses = []
multisig_address = ""
privkeys = []
txid = None
txheight = None
tx = None
txinputs = None
min_latest_height = 99999999999
fee = 0
coin = coins.Bitcoin
blockcypher_api_key = None
blockcypher_coin_symbol = None
testnet = True
num_merkle_siblings = 0
@classmethod
def setUpClass(cls):
print('Starting %s tests' % cls.name)
def assertUnorderedListEqual(self, list1, list2, key):
list1 = sorted(list1, key=itemgetter(key))
list2 = sorted(list2, key=itemgetter(key))
self.assertEqual(list1, list2)
def assertBlockHeightOK(self):
coin = self.coin(testnet=self.testnet)
height = coin.block_height(self.txid)
self.assertEqual(height, self.txheight)
def assertLatestBlockHeightOK(self):
coin = self.coin(testnet=self.testnet)
height = coin.current_block_height()
self.assertGreaterEqual(height, self.min_latest_height)
def assertUnspentOK(self):
c = self.coin(testnet=self.testnet)
unspent_outputs = c.unspent(*self.unspent_address)
self.assertUnorderedListEqual(unspent_outputs, self.unspent, 'tx_hash')
def assertParseArgsOK(self):
addr_args = explorers.blockcypher.parse_addr_args(self.unspent_address)
self.assertListEqual(addr_args, [self.unspent_address])
addr_args = explorers.blockcypher.parse_addr_args(*self.unspent_address_multiple)
self.assertListEqual(addr_args, self.unspent_address_multiple)
addr_args = explorers.blockcypher.parse_addr_args(self.unspent_address_multiple)
self.assertListEqual(addr_args, self.unspent_address_multiple)
def assertMixedSegwitTransactionOK(self):
c = self.coin(testnet=self.testnet)
#Find which of the three addresses currently has the most coins and choose that as the sender
segwit_max_value = 0
segwit_sender = self.segwit_addresses[0]
segwit_from_addr_i = 0
segwit_unspents = []
for i, addr in enumerate(self.segwit_addresses):
addr_unspents = c.unspent(addr)
value = sum(o['value'] for o in addr_unspents)
if value > segwit_max_value:
segwit_max_value = value
segwit_sender = addr
segwit_from_addr_i = i
segwit_unspents = addr_unspents
for u in segwit_unspents:
u['segwit'] = True
regular_max_value = 0
regular_sender = None
regular_from_addr_i = 0
regular_unspents = []
for i, addr in enumerate(self.addresses):
addr_unspents = c.unspent(addr)
value = sum(o['value'] for o in addr_unspents)
if value > regular_max_value:
regular_max_value = value
regular_sender = addr
regular_from_addr_i = i
regular_unspents = addr_unspents
unspents = segwit_unspents + regular_unspents
#Arbitrarily set send value, change value, receiver and change address
outputs_value = segwit_max_value + regular_max_value - self.fee
send_value = int(outputs_value * 0.5)
change_value = int(outputs_value - send_value)
if segwit_sender == self.segwit_addresses[0]:
receiver = self.segwit_addresses[1]
elif segwit_sender == self.segwit_addresses[1]:
receiver = self.segwit_addresses[2]
else:
receiver = self.segwit_addresses[0]
if regular_sender == self.addresses[0]:
change_address = self.addresses[1]
elif regular_sender == self.addresses[1]:
change_address = self.addresses[2]
else:
change_address = self.addresses[0]
outs = [{'value': send_value, 'address': receiver},
{'value': change_value, 'address': change_address}]
#Create the transaction using all available unspents as inputs
tx = c.mktx(unspents, outs)
#For testnets, private keys are already available. For live networks, private keys need to be entered manually at this point
try:
segwit_privkey = self.privkeys[segwit_from_addr_i]
except IndexError:
segwit_privkey = input("Enter private key for script address %s: %s" % (segwit_from_addr_i, segwit_sender))
try:
regular_privkey = self.privkeys[regular_from_addr_i]
except IndexError:
regular_privkey = input("Enter private key for address %s: %s" % (regular_from_addr_i, regular_sender))
#Verify that the private key belongs to the sender address for this network
self.assertEqual(segwit_sender, c.privtop2w(segwit_privkey), msg="Private key does not belong to script %s on %s" % (segwit_sender, c.display_name))
self.assertEqual(regular_sender, c.privtoaddr(regular_privkey), msg="Private key does not belong to address %s on %s" % (regular_sender, c.display_name))
self.assertTrue(c.is_segwit(segwit_privkey, segwit_sender))
self.assertFalse(c.is_segwit(regular_privkey, regular_sender))
#Sign each input with the given private keys
for i in range(0, len(segwit_unspents)):
tx = c.sign(tx, i, segwit_privkey)
for i in range(len(segwit_unspents), len(unspents)):
tx = c.sign(tx, i, regular_privkey)
self.assertEqual(len(tx['witness']), len(unspents))
tx = serialize(tx)
#Push the transaction to the network
result = c.pushtx(tx)
self.assertPushTxOK(result)
def assertSegwitTransactionOK(self):
c = self.coin(testnet=self.testnet)
#Find which of the three addresses currently has the most coins and choose that as the sender
max_value = 0
sender = self.segwit_addresses[0]
from_addr_i = 0
unspents = []
for i, addr in enumerate(self.segwit_addresses):
addr_unspents = c.unspent(addr)
value = sum(o['value'] for o in addr_unspents)
if value > max_value:
max_value = value
sender = addr
from_addr_i = i
unspents = addr_unspents
for u in unspents:
u['segwit'] = True
#Arbitrarily set send value, change value, receiver and change address
outputs_value = max_value - self.fee
send_value = int(outputs_value * 0.1)
change_value = int(outputs_value - send_value)
if sender == self.segwit_addresses[0]:
receiver = self.segwit_addresses[1]
change_address = self.segwit_addresses[2]
elif sender == self.segwit_addresses[1]:
receiver = self.segwit_addresses[2]
change_address = self.segwit_addresses[0]
else:
receiver = self.segwit_addresses[0]
change_address = self.segwit_addresses[1]
outs = [{'value': send_value, 'address': receiver},
{'value': change_value, 'address': change_address}]
#Create the transaction using all available unspents as inputs
tx = c.mktx(unspents, outs)
#3rd party check that transaction is ok, not really necessary. Blockcypher requires an API key for this request
if self.blockcypher_api_key:
tx_decoded = self.decodetx(tx)
#For testnets, private keys are already available. For live networks, private keys need to be entered manually at this point
try:
privkey = self.privkeys[from_addr_i]
except IndexError:
privkey = input("Enter private key for address %s: %s" % (from_addr_i, sender))
#Verify that the private key belongs to the sender address for this network
self.assertEqual(sender, c.privtop2w(privkey), msg="Private key does not belong to script %s on %s" % (sender, c.display_name))
#Sign each input with the given private key
for i in range(0, len(unspents)):
tx = c.sign(tx, i, privkey)
self.assertEqual(len(tx['witness']), len(unspents))
tx = serialize(tx)
#Push the transaction to the network
result = c.pushtx(tx)
self.assertPushTxOK(result)
def assertNewSegwitTransactionOK(self):
c = self.coin(testnet=self.testnet)
#Enter unspents manually because blockchain.info doesn't support gathering unspents for new segwit addresses :(
from_addr_i = 0
sender = self.new_segwit_addresses[0]
unspents = [{'output': '17818e0d54629fe53a81dbac6503ea6aed48ce57501a79eda6ee8f6decdcfa58:0', 'value': 1090000}]
max_value = sum(o['value'] for o in unspents)
for u in unspents:
u['new_segwit'] = True
#Arbitrarily set send value, change value, receiver and change address
outputs_value = max_value - self.fee
send_value = int(outputs_value * 0.1)
change_value = int(outputs_value - send_value)
if sender == self.new_segwit_addresses[0]:
receiver = self.new_segwit_addresses[1]
change_address = self.new_segwit_addresses[2]
elif sender == self.new_segwit_addresses[1]:
receiver = self.new_segwit_addresses[2]
change_address = self.new_segwit_addresses[0]
else:
receiver = self.new_segwit_addresses[0]
change_address = self.new_segwit_addresses[1]
outs = [{'value': send_value, 'address': receiver},
{'value': change_value, 'address': change_address}]
#Create the transaction using all available unspents as inputs
tx = c.mktx(unspents, outs)
from_addr_i = 0
#For testnets, private keys are already available. For live networks, private keys need to be entered manually at this point
try:
privkey = self.privkeys[from_addr_i]
except IndexError:
privkey = input("Enter private key for address %s: %s" % (from_addr_i, sender))
#Verify that the private key belongs to the sender address for this network
self.assertEqual(sender, c.privtosegwit(privkey), msg="Private key does not belong to script %s on %s" % (sender, c.display_name))
#Sign each input with the given private key
for i in range(0, len(unspents)):
tx = c.sign(tx, i, privkey)
self.assertEqual(len(tx['witness']), len(unspents))
tx = serialize(tx)
#Push the transaction to the network
result = c.pushtx(tx)
self.assertPushTxOK(result)
def assertTransactionOK(self):
c = self.coin(testnet=self.testnet)
#Find which of the three addresses currently has the most coins and choose that as the sender
max_value = 0
sender = self.addresses[0]
from_addr_i = 0
unspents = []
for i, addr in enumerate(self.addresses):
addr_unspents = c.unspent(addr)
value = sum(o['value'] for o in addr_unspents)
if value > max_value:
max_value = value
sender = addr
from_addr_i = i
unspents = addr_unspents
#Arbitrarily set send value, change value, receiver and change address
outputs_value = max_value - self.fee
send_value = int(outputs_value * 0.1)
change_value = int(outputs_value - send_value)
if sender == self.addresses[0]:
receiver = self.addresses[1]
change_address = self.addresses[2]
elif sender == self.addresses[1]:
receiver = self.addresses[2]
change_address = self.addresses[0]
else:
receiver = self.addresses[0]
change_address = self.addresses[1]
outs = [{'value': send_value, 'address': receiver},
{'value': change_value, 'address': change_address}]
#Create the transaction using all available unspents as inputs
tx = c.mktx(unspents, outs)
#For testnets, private keys are already available. For live networks, private keys need to be entered manually at this point
try:
privkey = self.privkeys[from_addr_i]
except IndexError:
privkey = input("Enter private key for address %s: %s" % (from_addr_i, sender))
#Verify that the private key belongs to the sender address for this network
self.assertEqual(sender, c.privtoaddr(privkey), msg="Private key does not belong to address %s on %s" % (sender, c.display_name))
#Sign each input with the given private key
for i in range(0, len(unspents)):
tx = c.sign(tx, i, privkey)
tx = serialize(tx)
#Push the transaction to the network
result = c.pushtx(tx)
self.assertPushTxOK(result)
def assertPushTxOK(self, result):
#For chain.so. Override for other explorers.
if isinstance(result, dict):
try:
self.assertEqual(result['status'], "success")
print("Txid %s successfully broadcast on %s network" % (result['data']['txid'], result['data']['network']))
except AssertionError:
raise AssertionError("Push tx failed. Result: %s" % result)
except KeyError:
raise AssertionError("Push tx failed. Response: %s" % result)
else:
if not result.status_code == 200:
raise AssertionError(result.text)
def decodetx(self, tx):
try:
import blockcypher
return blockcypher.decodetx(tx, coin_symbol=self.blockcypher_coin_symbol, api_key=self.blockcypher_api_key)
except ImportError:
pass
def delete_key_by_name(self, obj, key):
if isinstance(obj, dict):
for k, v in obj.items():
if k == key:
del obj[k]
self.delete_key_by_name(obj, key)
break
elif isinstance(v, (dict, list)):
self.delete_key_by_name(v, key)
elif isinstance(obj, list):
for i in obj:
self.delete_key_by_name(i, key)
def assertFetchTXOK(self):
coin = self.coin(testnet=self.testnet)
tx = coin.fetchtx(self.txid)
self.delete_key_by_name(tx, "confirmations")
self.delete_key_by_name(self.tx, "confirmations")
txid = tx.get('txid', None) or tx.get('hash', None) or tx.get('txhash', None)
self.assertEqual(txid, self.tx['txid'])
def assertTXInputsOK(self):
coin = self.coin(testnet=self.testnet)
inputs = coin.txinputs(self.txid)
self.assertUnorderedListEqual(inputs, self.txinputs, key="output")
def assertMultiSigTransactionOK(self):
c = self.coin(testnet=True)
pubs = [privtopub(priv) for priv in self.privkeys]
script, sender = c.mk_multsig_address(pubs, 2)
self.assertEqual(sender, self.multisig_address)
receiver = self.addresses[0]
value = 1100000
tx = c.preparetx(sender, receiver, value, self.fee)
for i in range(0, len(tx['ins'])):
sig1 = c.multisign(tx, i, script, self.privkeys[0])
sig3 = c.multisign(tx, i, script, self.privkeys[2])
tx = apply_multisignatures(tx, i, script, sig1, sig3)
#Push the transaction to the network
result = c.pushtx(tx)
self.assertPushTxOK(result)
def assertBlockInfoOK(self):
coin = self.coin(testnet=self.testnet)
blockinfo = coin.block_info(self.txheight)
self.assertListEqual(list(blockinfo.keys()),
["version", "hash", "prevhash", "timestamp", "merkle_root", "bits", "nonce", "tx_hashes"]
)
def assertMerkleProofOK(self):
coin = self.coin(testnet=self.testnet)
proof = coin.merkle_prove(self.txid)
self.assertEqual(self.num_merkle_siblings, len(proof['siblings']))
class TestBitcoin(BaseCoinCase):
name = "Bitcoin"
coin = coins.Bitcoin
addresses = ["1Ba7UmguphMX1g8ibyWQL62qzNu7mrXLVz", "16mBWqf9zefiZcKrKSf6uo3He9ipzPyuTb", "15pXUHkdBXFeUUetZJnJqNoD7dyCzaJFUn"]
fee = 54400
blockcypher_coin_symbol = "btc"
testnet = False
unspent_address = ["12gK1NsNhzrRxs2kGKSjXhA1bhd8vyyWMR", "1A7hMTCfHbQJ1RAtBAVNcUtVsh8i8yFdmT"]
unspent = [
{'tx_hash': 'b489a0e8a99daad4d1a85992d9e373a87463a95109a5c56f4e4827f4e5a1af34', 'tx_pos': 1, 'height': 114743,
'value': 5000000, 'address': '12gK1NsNhzrRxs2kGKSjXhA1bhd8vyyWMR'},
{'tx_hash': 'f5e0c14b7d1f95d245d990ac6bb9ccf28d7f80f721f8133cd6ed34f9c8d13f0f', 'tx_pos': 1, 'height': 116768,
'value': 16336000000, 'address': '12gK1NsNhzrRxs2kGKSjXhA1bhd8vyyWMR'},
{'tx_hash': 'fd232fe21b6ad7f096f3012e935467a7f2177258cdcd07c748502a5b1f31ccd5', 'tx_pos': 0, 'height': 187296,
'value': 8000000000, 'address': '1A7hMTCfHbQJ1RAtBAVNcUtVsh8i8yFdmT'},
{'tx_hash': 'a146923df9579f7c7b9a8f5ddf27e230e8d838117379bdf6b57113ce31bf52e0', 'tx_pos': 41, 'height': 248365,
'value': 100000, 'address': '1A7hMTCfHbQJ1RAtBAVNcUtVsh8i8yFdmT'}]
min_latest_height = 503351
txid = "fd3c66b9c981a3ccc40ae0f631f45286e7b31cf6d9afa1acaf8be1261f133690"
txheight = 135235
txinputs = [{"output": "7a905da948f1e174c43c6f41b0a0ee338119191de7b92bd1ca3c79f899e5d583:1", 'value': 1000000},
{"output": "da1ad82b777c51105d3a24cef253e0301dd08153115013a49e0edf69fd7cdadf:1", 'value': 100000}]
tx = {'txid': 'fd3c66b9c981a3ccc40ae0f631f45286e7b31cf6d9afa1acaf8be1261f133690'}
num_merkle_siblings = 6
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_fetchtx(self):
self.assertFetchTXOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_parse_args(self):
self.assertParseArgsOK()
@skip("very high fees")
def test_transaction(self):
self.assertTransactionOK()
def test_unspent(self):
self.assertUnspentOK()
@skip
def test_asyncio_concurrent_times(self):
coin = self.coin(testnet=self.testnet)
c = coin.rpc_client
addresses = ["1GmWF2ZpJveAyF6uayZ8s5VHCkHTzatoQA", "1LMUeCtgAmrz1VPevBWnbuju1H1XYqT3tF",
"1GN4Y1cnKuv35jkJsCqBX3iUe47fu8giHo", "1GN4Y1cnKuv35jkJsCqBX3iUe47fu8giHo",
"1CcitR6EV2K5npTtqzi5igjKLzcWQvbRPq", "1CCtAT5kmqcs6bDVgqV777L65vEdTqGiQ7",
"15tjqUpXSfvhPRABdBFEuPidCFnQP32Rar", "1GJ3antfMZ5Kb3dSyAL6GH2gqWXLkkhruB"]
from datetime import datetime
now = datetime.now()
coin.unspent(*addresses)
time_taken_together = datetime.now() - now
now = datetime.now()
coin.unspent(addresses[0])
coin.unspent(addresses[1])
coin.unspent(addresses[2])
coin.unspent(addresses[3])
coin.unspent(addresses[4])
coin.unspent(addresses[5])
coin.unspent(addresses[6])
coin.unspent(addresses[7])
time_taken_separate = datetime.now() - now
print('seperate', time_taken_separate)
print('together', time_taken_together)
self.assertGreater(time_taken_separate, time_taken_together)
class TestBitcoinTestnet(BaseCoinCase):
name = "Bitcoin Testnet"
coin = coins.Bitcoin
addresses = ["myLktRdRh3dkK3gnShNj5tZsig6J1oaaJW", "mnjBtsvoSo6dMvMaeyfaCCRV4hAF8WA2cu","mmbKDFPjBatJmZ6pWTW6yqXSC6826YLBX6"]
segwit_addresses = ["2N3CxTkwr7uSh6AaZKLjWeR8WxC43bQ2QRZ", "2NDpBxpK4obuGiFodKtYe3dXx14aPwDBPGU", "2Mt2f4knFtjLZz9CW2979Hw3tYiAYd6WcA1"]
new_segwit_addresses = ["tb1qcwzf2q6zedhcma23wk6gtp5r3vp3xradjc23st", "tb1qfuvnn87p787z7nqv9seu4e8fqel83yacg7yf2r", "tb1qg237zx5qkf0lvweqwnz36969zv4uewapph2pws"]
privkeys = ["cUdNKzomacP2631fa5Q4yHv2fADc8Ueymr5Z5NUSJjVM13igcVJk",
"cMrziExc6iMV8vvAML8QX9hGDP8zNhcsKbdS9BqrRa1b4mhKvK6f",
"c396c62dfdc529645b822dc4eaa7b9ddc97dd8424de09ca19decce61e6732f71"] #Private keys for above addresses in same order
fee = 54400
blockcypher_coin_symbol = "btc-testnet"
testnet = True
num_merkle_siblings = 5
min_latest_height = 1258030
multisig_address = "2ND6ptW19yaFEmBa5LtEDzjKc2rSsYyUvqA"
unspent_address = "ms31HApa3jvv3crqvZ3sJj7tC5TCs61GSA"
unspent = [{'output': '1d69dd7a23f18d86f514ff7d8ef85894ad00c61fb29f3f7597e9834ac2569c8c:0', 'value': 180000000}]
txid = "1d69dd7a23f18d86f514ff7d8ef85894ad00c61fb29f3f7597e9834ac2569c8c"
txheight = 1238008
txinputs = [{'output': '1b8ae7a7a9629bbcbc13339bc29b258122c8d8670c54e6883d35c6a699e23a33:1', 'value': 190453372316}]
tx = {'txid': '1d69dd7a23f18d86f514ff7d8ef85894ad00c61fb29f3f7597e9834ac2569c8c'}
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_fetchtx(self):
self.assertFetchTXOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_transaction(self):
self.assertTransactionOK()
def test_transaction_mixed_segwit(self):
self.assertMixedSegwitTransactionOK()
def test_transaction_segwit(self):
self.assertSegwitTransactionOK()
@skip("Not possible to gather unspents")
def test_transacton_new_segwit(self):
self.assertNewSegwitTransactionOK()
def test_transaction_multisig(self):
self.assertMultiSigTransactionOK()
def test_sendmultitx(self):
c = self.coin(testnet=self.testnet)
#Find which of the three addresses currently has the most coins and choose that as the sender
max_value = 0
sender = self.addresses[0]
from_addr_i = 0
for i, addr in enumerate(self.addresses):
addr_unspents = c.unspent(addr)
value = sum(o['value'] for o in addr_unspents)
if value > max_value:
max_value = value
sender = addr
from_addr_i = i
privkey = self.privkeys[from_addr_i]
#Arbitrarily set send value, change value, receiver and change address
fee = self.fee * 0.1
outputs_value = max_value - fee
send_value1 = int(outputs_value * 0.1)
send_value2 = int(outputs_value * 0.5)
if sender == self.addresses[0]:
receiver1 = self.addresses[1]
receiver2 = self.addresses[2]
elif sender == self.addresses[1]:
receiver1 = self.addresses[2]
receiver2 = self.addresses[0]
else:
receiver1 = self.addresses[0]
receiver2 = self.addresses[1]
result = c.sendmultitx(privkey, "%s:%s" % (receiver1, send_value1), "%s:%s" % (receiver2, send_value2), self.fee)
self.assertPushTxOK(result)
def test_send(self):
c = self.coin(testnet=self.testnet)
#Find which of the three addresses currently has the most coins and choose that as the sender
max_value = 0
sender = self.addresses[0]
from_addr_i = 0
for i, addr in enumerate(self.addresses):
addr_unspents = c.unspent(addr)
value = sum(o['value'] for o in addr_unspents)
if value > max_value:
max_value = value
sender = addr
from_addr_i = i
privkey = self.privkeys[from_addr_i]
#Arbitrarily set send value, change value, receiver and change address
outputs_value = max_value - self.fee
send_value = int(outputs_value * 0.1)
if sender == self.addresses[0]:
receiver = self.addresses[1]
elif sender == self.addresses[1]:
receiver = self.addresses[2]
else:
receiver = self.addresses[0]
result = c.send(privkey, receiver, send_value, fee=self.fee)
self.assertPushTxOK(result)
def test_unspent(self):
self.assertUnspentOK()
class TestLitecoin(BaseCoinCase):
name = "Litecoin"
coin = coins.Litecoin
fee = 54400
testnet = False
num_merkle_siblings = 8
min_latest_height = 1347349
txid = "0c2d49e00dd1372a7219fbc4378611b39f54790bbd597b4c29517f0d93c9faa2"
txinputs = [{'output': 'b3105972beef05e88cf112fd9718d32c270773462d62e4659dc9b4a2baafc038:0', 'value': 1157763509}]
tx = {'txid': txid}
txheight = 1347312
unspent_address = "LcHdcvAs71DAnkEPLSEuqMGcCWu3zG4Dw5"
unspent = [
{'output': '0c2d49e00dd1372a7219fbc4378611b39f54790bbd597b4c29517f0d93c9faa2:0', 'value': 1107944447}]
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_fetchtx(self):
self.assertFetchTXOK()
@skip("Need to find stable transaction")
def test_unspent(self):
self.assertUnspentOK()
class TestLitecoinTestnet(BaseCoinCase):
name = "Litecoin Testnet"
coin = coins.Litecoin
addresses = ["myLktRdRh3dkK3gnShNj5tZsig6J1oaaJW", "mnjBtsvoSo6dMvMaeyfaCCRV4hAF8WA2cu", "mmbKDFPjBatJmZ6pWTW6yqXSC6826YLBX6"]
segwit_addresses = ["2N3CxTkwr7uSh6AaZKLjWeR8WxC43bQ2QRZ", "2NDpBxpK4obuGiFodKtYe3dXx14aPwDBPGU", "2Mt2f4knFtjLZz9CW2979Hw3tYiAYd6WcA1"]
privkeys = ["cUdNKzomacP2631fa5Q4yHv2fADc8Ueymr5Z5NUSJjVM13igcVJk",
"cMrziExc6iMV8vvAML8QX9hGDP8zNhcsKbdS9BqrRa1b4mhKvK6f",
"c396c62dfdc529645b822dc4eaa7b9ddc97dd8424de09ca19decce61e6732f71"] #Private keys for above addresses in same order
fee = 54400
blockcypher_coin_symbol = None
testnet = True
min_latest_height = 336741
unspent_address = "ms31HApa3jvv3crqvZ3sJj7tC5TCs61GSA"
unspent = [{'output': '3f7a5460983cdfdf8118a1ab6bc84c28e536e83971532d4910c26bd21153de19:1', 'value': 100000000,}]
num_merkle_siblings = 2
txid = "2a288547460ebe410e98fe63a1900b6452d95ec318efb0d58a5584ac67f27d93"
txheight = 296568
txinputs = [{'output': '83a32eb466e6a4600011b18cb4d7679f05bae8df40572a37b7c08e8849a7c984:0', 'value': 17984768},
{'output': '83a32eb466e6a4600011b18cb4d7679f05bae8df40572a37b7c08e8849a7c984:1', 'value': 161862912},
{'output': 'f27a53b9433eeb9d011a8c77439edb7a582a01166756e00ea1076699bfa58371:1', 'value': 17941248}]
tx = {'txid': '2a288547460ebe410e98fe63a1900b6452d95ec318efb0d58a5584ac67f27d93'}
def tearDown(self):
time.sleep(8)
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_fetchtx(self):
self.assertFetchTXOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_transaction(self):
self.assertTransactionOK()
def test_transaction_segwit(self):
self.assertSegwitTransactionOK()
def test_unspent(self):
self.assertUnspentOK()
class TestDash(BaseCoinCase):
name = "Dash"
coin = coins.Dash
fee = 54400
testnet = False
num_merkle_siblings = 4
min_latest_height = 801344
txid = "e7a607c5152863209f33cec4cc0baed973f7cfd75ae28130e623c099fde7072c"
txinputs = [{'output': 'ac7312d63f2817d4d2823dae107e601b52c08a52779c237bd06359e6189af9b8:0', 'value': 493488869}]
tx = {'txid': txid}
txheight = 801268
unspent_address = "XiY7UHfBCBkMCZR3L96kuCQ5HHEEuPZRXk"
unspent = [
{'output': 'e7a607c5152863209f33cec4cc0baed973f7cfd75ae28130e623c099fde7072c:1', 'value': 220000000}]
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_fetchtx(self):
self.assertFetchTXOK()
def test_unspent(self):
self.assertUnspentOK()
class TestDashTestnet(BaseCoinCase):
name = "Dash Testnet"
coin = coins.Dash
addresses = ["ye9FSaGnHH5A2cjJ9s2y9XTgyJZefB5huz", "yTXgT2aA32Y35VQ6N9KpFqKJKKdbidgKeZ", "ySPomQ35mpKiV89LDdAM3URFSibNiXEC4J"]
privkeys = ["cUdNKzomacP2631fa5Q4yHv2fADc8Ueymr5Z5NUSJjVM13igcVJk",
"cMrziExc6iMV8vvAML8QX9hGDP8zNhcsKbdS9BqrRa1b4mhKvK6f",
"c396c62dfdc529645b822dc4eaa7b9ddc97dd8424de09ca19decce61e6732f71"] #Private keys for above addresses in same order
fee = 54400
blockcypher_coin_symbol = None
testnet = True
num_merkle_siblings = 1
min_latest_height = 56045
unspent_address = "yV1AhJ3N3Dh4LeiN1ECYpWuLEgmfcA1y5G"
unspent = [{'output': '546842058817fc29f18de4ba1f0aa5d45fa429c8716ea59d005f878af463ee6c:0', 'value': 29228600000}]
txid = "725ff2599700462905aafe658a082c0545c2749f779a7c9114421b4ca65183d0"
txinputs = [{'output': 'f0b59a7a00ab906653271760922592eaa8c733e24c60115cf4c1981276fc2777:0', 'value': 4989724076},
{'output': 'f0b59a7a00ab906653271760922592eaa8c733e24c60115cf4c1981276fc2777:1', 'value': 44907516684}]
tx = {'txid': '725ff2599700462905aafe658a082c0545c2749f779a7c9114421b4ca65183d0'}
txheight = 45550
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_unspent(self):
self.assertUnspentOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_fetchtx(self):
self.assertFetchTXOK()
def test_transaction(self):
self.assertTransactionOK()
class TestDoge(BaseCoinCase):
name = "Dogecoin"
coin = coins.Doge
fee = 54400
testnet = False
num_merkle_siblings = 8
min_latest_height = 2046537
txid = "345c28885d265edbf8565f553f9491c511b6549d3923a1d63fe158b8000bbee2"
txinputs = [{'output': '72ee1f1f41d7613db02e89a58104a4c0cb0b3e9e5d46bfe4b14c80b80a9c2285:0', 'value': 3661230900743}]
txheight = 2046470
tx = {'txid': txid}
unspent_address = "DTXcEMwdwx6ZNjPdfVTSMFYABqqDqZQCVJ"
unspent = [
{'output': '345c28885d265edbf8565f553f9491c511b6549d3923a1d63fe158b8000bbee2:1', 'value': 3485074167413}]
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_fetchtx(self):
self.assertFetchTXOK()
@skip("Need stable transaction")
def test_unspent(self):
self.assertUnspentOK()
@skip("Explorer not working")
class TestDogeTestnet(BaseCoinCase):
name = "Doge Testnet"
coin = coins.Doge
addresses = ['nn1xreE17QZVwuxxVY3N497SygcBPsm15j', 'nbQPs6XNsA2NzndkhpLDASy4Khg8ZfhUfj', 'naGXBTzJbwp4QRNzZJAjx651T6duZy2kgV']
privkeys = ["cUdNKzomacP2631fa5Q4yHv2fADc8Ueymr5Z5NUSJjVM13igcVJk",
"cMrziExc6iMV8vvAML8QX9hGDP8zNhcsKbdS9BqrRa1b4mhKvK6f",
"c396c62dfdc529645b822dc4eaa7b9ddc97dd8424de09ca19decce61e6732f71"] #Private keys for above addresses in same order
fee = 54400
blockcypher_coin_symbol = None
testnet = True
unspent_address = "ncst7MzasMBQFwx2LuCwj8Z6F4pCRppzBP"
unspent = [{'output': '3f7a5460983cdfdf8118a1ab6bc84c28e536e83971532d4910c26bd21153de19:1', 'value': 100000000}]
def test_transaction(self):
self.assertTransactionOK()
class TestBitcoinCash(BaseCoinCase):
name = "Bitcoin Cash"
coin = coins.BitcoinCash
addresses = ["1Ba7UmguphMX1g8ibyWQL62qzNu7mrXLVz", "16mBWqf9zefiZcKrKSf6uo3He9ipzPyuTb", "15pXUHkdBXFeUUetZJnJqNoD7dyCzaJFUn"]
blockcypher_coin_symbol = "btc"
fee = 54400
testnet = False
min_latest_height = 512170
num_merkle_siblings = 9
txid = "e3ead2c8e6ad22b38f49abd5ae7a29105f0f64d19865fd8ccb0f8d5b2665f476"
txheight = 508381
unspent_address = "1KomPE4JdF7P4tBzb12cyqbBfrVp4WYxNS"
unspent = [
{'output': 'e3ead2c8e6ad22b38f49abd5ae7a29105f0f64d19865fd8ccb0f8d5b2665f476:1', 'value': 249077026}]
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_unspent(self):
self.assertUnspentOK()
class TestBitcoinCashTestnet(BaseCoinCase):
name = "Bitcoin Cash Testnet"
coin = coins.BitcoinCash
addresses = ["myLktRdRh3dkK3gnShNj5tZsig6J1oaaJW", "mnjBtsvoSo6dMvMaeyfaCCRV4hAF8WA2cu","mmbKDFPjBatJmZ6pWTW6yqXSC6826YLBX6"]
privkeys = ["cUdNKzomacP2631fa5Q4yHv2fADc8Ueymr5Z5NUSJjVM13igcVJk",
"cMrziExc6iMV8vvAML8QX9hGDP8zNhcsKbdS9BqrRa1b4mhKvK6f",
"c396c62dfdc529645b822dc4eaa7b9ddc97dd8424de09ca19decce61e6732f71"] #Private keys for above addresses in same order
fee = 54400
blockcypher_coin_symbol = None
testnet = True
num_merkle_siblings = 2
min_latest_height = 1201889
unspent_address = "ms31HApa3jvv3crqvZ3sJj7tC5TCs61GSA"
unspent = [{'output': '80700e6d1125deafa22b307f6c7c99e75771f9fc05517fc795a1344eca7c8472:0', 'value': 550000000}]
txid = "b4dd5908cca851d861b9d2ca267a901bb6f581f2bb096fbf42a28cc2d98e866a"
txinputs = [{'output': "cbd43131ee11bc9e05f36f55088ede26ab5fb160cc3ff11785ce9cc653aa414b:1", 'value': 96190578808}]
tx = {'txid': 'b4dd5908cca851d861b9d2ca267a901bb6f581f2bb096fbf42a28cc2d98e866a'}
txheight = 1196454
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_fetchtx(self):
self.assertFetchTXOK()
def test_txinputs(self):
self.assertTXInputsOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_transaction(self):
self.assertTransactionOK()
def test_unspent(self):
self.assertUnspentOK()
class TestBitcoinGold(BaseCoinCase):
name = "Bitcoin Gold"
coin = coins.BitcoinGold
blockcypher_coin_symbol = None
fee = 54400
testnet = False
unspent_address = "GKXERWCKgrTj3LL3CG6qxTVuWsQyrwXuzu"
unspent = [
{'output': 'b489a0e8a99daad4d1a85992d9e373a87463a95109a5c56f4e4827f4e5a1af34:1', 'value': 5000000},
{'output': 'f5e0c14b7d1f95d245d990ac6bb9ccf28d7f80f721f8133cd6ed34f9c8d13f0f:1', 'value': 16336000000}]
min_latest_height = 503351
txid = "fd3c66b9c981a3ccc40ae0f631f45286e7b31cf6d9afa1acaf8be1261f133690"
txheight = 135235
txinputs = [{"output": "7a905da948f1e174c43c6f41b0a0ee338119191de7b92bd1ca3c79f899e5d583:1", 'value': 1000000},
{"output": "da1ad82b777c51105d3a24cef253e0301dd08153115013a49e0edf69fd7cdadf:1", 'value': 100000}]
tx = {'txid': 'fd3c66b9c981a3ccc40ae0f631f45286e7b31cf6d9afa1acaf8be1261f133690'}
num_merkle_siblings = 6
def test_block_info(self):
self.assertBlockInfoOK()
def test_merkle_proof(self):
self.assertMerkleProofOK()
def test_block_height(self):
self.assertBlockHeightOK()
self.assertLatestBlockHeightOK()
def test_parse_args(self):
self.assertParseArgsOK()
def test_unspent(self):
self.assertUnspentOK()
class TestBitcoinGoldRegtest(BaseCoinCase):
name = "Bitcoin Cash Testnet"
coin = coins.BitcoinGold
testnet = True
def test_transaction(self):
tx = {'locktime': 0, 'version': 1, 'ins': [{'script': '', 'sequence': 0xffffffff, 'outpoint': {
'hash': 'cc58ce5e96c06294e2e498d061c9652e1981232e160b491cb73e205d411a7ea9', 'index': 1},
'amount': 800000000}],
'outs': [{'script': '76a914839cd17bb373d7732ce9537c4821be656e5d0e6188ac', 'value': 400000000},
{'script': '76a914fc839d8c0b80176ef6dab3223aa64882eb1b2c8a88ac', 'value': 399000000}]}
priv = 'cP7Dp4xr3RuYPa9tcwFE7VueUMAm1G7Y4M3ANd2NnRLMYh7Ggo4k'
coin = self.coin(testnet=self.testnet)
tx = coin.sign(tx, 0, priv)
self.assertEqual(serialize(tx),
"0100000001a97e1a415d203eb71c490b162e2381192e65c961d098e4e29462c0965ece58cc010000006a473044022059c249ce08f1453e0cd015b409098ee185049aaf9c5ba414d9b106234aca72eb02202ae0eb60af44f062b9d3ec8d5f3d8e8b01541888d1b65ecd9485e7a7657d72b14121039565b145956ccd9f100d72beb700b9e4fd307e14a0a3349b4a48384b41b29094ffffffff020084d717000000001976a914839cd17bb373d7732ce9537c4821be656e5d0e6188acc041c817000000001976a914fc839d8c0b80176ef6dab3223aa64882eb1b2c8a88ac00000000")
if __name__ == '__main__':
unittest.main()