def test_sendmany_good_simple(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Send.prompt',
side_effect=[
"neo", self.watch_addr_str, "1", "gas",
self.watch_addr_str, "1",
UserWalletTestCase.wallet_1_pass()
]):
PromptData.Wallet = self.GetWallet1(recreate=True)
args = ['sendmany', '2']
res = Wallet.CommandWallet().execute(args)
self.assertTrue(res) # verify successful tx
self.assertIn("Sending with fee: 0", mock_print.getvalue())
json_res = res.ToJson()
# check for 2 transfers
transfers = 0
for info in json_res['vout']:
if info['address'] == self.watch_addr_str:
transfers += 1
self.assertEqual(2, transfers)
def test_wallet_claim_3(self):
self.OpenWallet1()
# test with bad --to-addr
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_1_pass()]):
args = ['claim', '--to-addr=AGYaEi3W6ndHPUmW7T12FFfsbQ6DWymkEn'] # bad address checksum
claim_tx, relayed = CommandWallet().execute(args)
self.assertEqual(claim_tx, None)
self.assertFalse(relayed)
self.assertIn("Address format error", mock_print.getvalue())
# test with an invalid --to-addr
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_1_pass()]):
args = ['claim', '--to-addr=blah'] # completely wrong address format
claim_tx, relayed = CommandWallet().execute(args)
self.assertEqual(claim_tx, None)
self.assertFalse(relayed)
self.assertIn("Not correct Address, wrong length", mock_print.getvalue())
# test with --to-addr
nodemgr = NodeManager()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_1_pass()]):
with patch('neo.Network.node.NeoNode.relay', return_value=self.async_return(True)):
args = ['claim', '--to-addr=' + self.watch_addr_str]
claim_tx, relayed = CommandWallet().execute(args)
self.assertIsInstance(claim_tx, ClaimTransaction)
self.assertTrue(relayed)
json_tx = claim_tx.ToJson()
self.assertEqual(json_tx['vout'][0]['address'], self.watch_addr_str) # note how the --to-addr supercedes the default change address
nodemgr.reset_for_test()
def test_send_with_fee_and_from_addr(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Send.prompt',
side_effect=[UserWalletTestCase.wallet_1_pass()]):
PromptData.Wallet = self.GetWallet1(recreate=True)
args = [
'send', 'neo', self.watch_addr_str, '1',
'--from-addr=AJQ6FoaSXDFzA6wLnyZ1nFN7SGSN2oNTc3',
'--fee=0.005'
]
res = Wallet.CommandWallet().execute(args)
self.assertTrue(res) # verify successful tx
json_res = res.ToJson()
self.assertEqual(self.watch_addr_str, json_res['vout'][0]
['address']) # verify correct address_to
self.assertEqual(
self.wallet_1_addr, json_res['vout'][1]
['address']) # verify correct address_from
self.assertEqual(json_res['net_fee'],
"0.005") # verify correct fee
self.assertIn("Sending with fee: 0.005",
mock_print.getvalue())
def test_wallet_claim_2(self):
self.OpenWallet2()
# test with bad --from-addr
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_2_pass()]):
args = ['claim', '--from-addr=AJQ6FoaSXDFzA6wLnyZ1nFN7SGSN2oNTc'] # address is too short
claim_tx, relayed = CommandWallet().execute(args)
self.assertEqual(claim_tx, None)
self.assertFalse(relayed)
self.assertIn("Not correct Address, wrong length.", mock_print.getvalue())
# test with invalid --from-addr
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_2_pass()]):
args = ['claim', '--from-addr=VJQ6FoaSXDFzA6wLnyZ1nFN7SGSN2oNTc3'] # address does not start with 'A'
claim_tx, relayed = CommandWallet().execute(args)
self.assertEqual(claim_tx, None)
self.assertFalse(relayed)
self.assertIn("Address format error", mock_print.getvalue())
# successful test with --from-addr
nodemgr = NodeManager()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_2_pass()]):
with patch('neo.Network.node.NeoNode.relay', return_value=self.async_return(True)):
args = ['claim', '--from-addr=' + self.wallet_1_addr]
claim_tx, relayed = CommandWallet().execute(args)
self.assertIsInstance(claim_tx, ClaimTransaction)
self.assertTrue(relayed)
json_tx = claim_tx.ToJson()
self.assertEqual(json_tx['vout'][0]['address'], self.wallet_1_addr)
nodemgr.reset_for_test()
def test_send_token_ok(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('neo.Prompt.Commands.Tokens.prompt',
side_effect=[UserWalletTestCase.wallet_1_pass()]):
with patch('sys.stdout', new=StringIO()) as mock_print:
PromptData.Wallet = self.GetWallet1(recreate=True)
token_hash = '31730cc9a1844891a3bafd1aa929a4142860d8d3'
ImportToken(PromptData.Wallet, token_hash)
args = [
'send', 'NXT4', self.watch_addr_str, '30',
'--from-addr=%s' % self.wallet_1_addr
]
res = Wallet.CommandWallet().execute(args)
self.assertTrue(res)
self.assertIn(
"Will transfer 30.00000000 NXT4 from AJQ6FoaSXDFzA6wLnyZ1nFN7SGSN2oNTc3 to AGYaEi3W6ndHPUmW7T12FFfsbQ6DWymkEm",
mock_print.getvalue())
def test_5_wallet_claim_ok(self):
wallet = self.GetWallet1()
nodemgr = NodeManager()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('neo.Prompt.Commands.Wallet.prompt',
return_value=self.wallet_1_pass()):
claim_tx, relayed = ClaimGas(wallet)
self.assertIsInstance(claim_tx, ClaimTransaction)
self.assertTrue(relayed)
def test_sendmany_good_complex(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Send.prompt',
side_effect=[
"neo", "AXjaFSP23Jkbe6Pk9pPGT6NBDs1HVdqaXK",
"1", "gas",
"AXjaFSP23Jkbe6Pk9pPGT6NBDs1HVdqaXK", "1",
UserWalletTestCase.wallet_1_pass()
]):
PromptData.Wallet = self.GetWallet1(recreate=True)
args = [
'sendmany', '2',
'--from-addr=%s' % self.wallet_1_addr,
'--change-addr=%s' % self.watch_addr_str, '--fee=0.005'
]
address_from_account_state = Blockchain.Default(
).GetAccountState(self.wallet_1_addr).ToJson()
address_from_gas = next(
filter(
lambda b: b['asset'] ==
'0x602c79718b16e442de58778e148d0b1084e3b2dffd5de6b7b16cee7969282de7',
address_from_account_state['balances']))
address_from_gas_bal = address_from_gas['value']
res = Wallet.CommandWallet().execute(args)
self.assertTrue(res) # verify successful tx
json_res = res.ToJson()
self.assertEqual("AXjaFSP23Jkbe6Pk9pPGT6NBDs1HVdqaXK",
json_res['vout'][0]
['address']) # verify correct address_to
self.assertEqual(
self.watch_addr_str, json_res['vout'][2]
['address']) # verify correct change address
self.assertEqual(
float(address_from_gas_bal) - 1 - 0.005,
float(json_res['vout'][3]['value']))
self.assertEqual('0.005', json_res['net_fee'])
self.assertIn("Sending with fee: 0.005",
mock_print.getvalue())
def test_send_gas(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Send.prompt',
side_effect=[UserWalletTestCase.wallet_1_pass()]):
PromptData.Wallet = self.GetWallet1(recreate=True)
args = ['send', 'gas', self.watch_addr_str, '5']
res = Wallet.CommandWallet().execute(args)
self.assertTrue(res)
self.assertIn("Sending with fee: 0", mock_print.getvalue())
def test_wallet_claim_4(self):
self.OpenWallet2()
# test with --from-addr and --to-addr
nodemgr = NodeManager()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_2_pass()]):
with patch('neo.Network.node.NeoNode.relay', return_value=self.async_return(True)):
args = ['claim', '--from-addr=' + self.wallet_1_addr, '--to-addr=' + self.wallet_2_addr]
claim_tx, relayed = CommandWallet().execute(args)
self.assertIsInstance(claim_tx, ClaimTransaction)
self.assertTrue(relayed)
json_tx = claim_tx.ToJson()
self.assertEqual(json_tx['vout'][0]['address'],
self.wallet_2_addr) # note how the --to-addr also supercedes the from address if both are specified
nodemgr.reset_for_test()
def test_bad_attributes(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('neo.Prompt.Commands.Send.prompt',
side_effect=[UserWalletTestCase.wallet_1_pass()]):
PromptData.Wallet = self.GetWallet1(recreate=True)
args = [
'send', 'gas', self.watch_addr_str, '2',
'--tx-attr=[{"usa:241"data":his is a remark"}]'
]
res = Wallet.CommandWallet().execute(args)
self.assertTrue(res)
self.assertEqual(1, len(res.Attributes))
def test_transaction_size_1(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Send.prompt',
side_effect=[UserWalletTestCase.wallet_1_pass()]):
with patch('neo.Core.TX.Transaction.Transaction.Size',
return_value=1026): # returns a size of 1026
PromptData.Wallet = self.GetWallet1(recreate=True)
args = ['send', 'gas', self.watch_addr_str, '5']
res = Wallet.CommandWallet().execute(args)
self.assertFalse(res)
self.assertIn(
'Transaction cancelled. The tx size (1026) exceeds the max free tx size (1024).\nA network fee of 0.001 GAS is required.',
mock_print.getvalue()
) # notice the required fee is equal to the low priority threshold
def test_wallet_claim_1(self):
# test with no wallet
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['claim']
res = CommandWallet().execute(args)
self.assertFalse(res)
self.assertIn("Please open a wallet", mock_print.getvalue())
self.OpenWallet1()
# test wrong password
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=["wrong"]):
args = ['claim']
claim_tx, relayed = CommandWallet().execute(args)
self.assertEqual(claim_tx, None)
self.assertFalse(relayed)
self.assertIn("Incorrect password", mock_print.getvalue())
# test successful
nodemgr = NodeManager()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_1_pass()]):
with patch('neo.Network.node.NeoNode.relay', return_value=self.async_return(True)):
args = ['claim']
claim_tx, relayed = CommandWallet().execute(args)
self.assertIsInstance(claim_tx, ClaimTransaction)
self.assertTrue(relayed)
json_tx = claim_tx.ToJson()
self.assertEqual(json_tx['vout'][0]['address'], self.wallet_1_addr)
nodemgr.reset_for_test()
# test nothing to claim anymore
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Wallet.prompt', side_effect=[WalletFixtureTestCase.wallet_1_pass()]):
args = ['claim']
claim_tx, relayed = CommandWallet().execute(args)
self.assertEqual(claim_tx, None)
self.assertFalse(relayed)
self.assertIn("No claims to process", mock_print.getvalue())
def test_attributes(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
with patch('neo.Prompt.Commands.Send.prompt',
side_effect=[UserWalletTestCase.wallet_1_pass()]):
PromptData.Wallet = self.GetWallet1(recreate=True)
args = [
'send', 'gas', self.watch_addr_str, '2',
'--tx-attr={"usage":241,"data":"This is a remark"}'
]
res = Wallet.CommandWallet().execute(args)
self.assertTrue(res)
self.assertEqual(
2, len(res.Attributes)
) # By default the script_hash of the transaction sender is added to the TransactionAttribute list, therefore the Attributes length is `count` + 1
def test_9_send_neo_tx(self):
with patch('neo.Network.node.NeoNode.relay', return_value=self.async_return(True)):
wallet = self.GetWallet1()
tx = ContractTransaction()
tx.outputs = [TransactionOutput(Blockchain.SystemShare().Hash, Fixed8.FromDecimal(10.0), self.import_watch_addr)]
try:
tx = wallet.MakeTransaction(tx)
except (ValueError):
pass
cpc = ContractParametersContext(tx)
wallet.Sign(cpc)
tx.scripts = cpc.GetScripts()
nodemgr = NodeManager()
# we need at least 1 node for relay to be mocked
nodemgr.nodes = [NeoNode(object, object)]
result = nodemgr.relay(tx)
self.assertEqual(result, True)
def test_6_split_unspent(self):
wallet = self.GetWallet1(recreate=True)
addr = wallet.ToScriptHash('AJQ6FoaSXDFzA6wLnyZ1nFN7SGSN2oNTc3')
nodemgr = NodeManager()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
# bad inputs
tx = SplitUnspentCoin(None, self.NEO, addr, 0, 2)
self.assertEqual(tx, None)
tx = SplitUnspentCoin(wallet, self.NEO, addr, 3, 2)
self.assertEqual(tx, None)
tx = SplitUnspentCoin(wallet, 'bla', addr, 0, 2)
self.assertEqual(tx, None)
# should be ok
with patch('neo.Prompt.Commands.WalletAddress.prompt',
return_value=self.wallet_1_pass()):
tx = SplitUnspentCoin(wallet, self.NEO, addr, 0, 2)
self.assertIsNotNone(tx)
# rebuild wallet and try with non-even amount of neo, should be split into integer values of NEO
wallet = self.GetWallet1(True)
tx = SplitUnspentCoin(wallet, self.NEO, addr, 0, 3)
self.assertIsNotNone(tx)
self.assertEqual([
Fixed8.FromDecimal(17),
Fixed8.FromDecimal(17),
Fixed8.FromDecimal(16)
], [item.Value for item in tx.outputs])
# try with gas
wallet = self.GetWallet1(True)
tx = SplitUnspentCoin(wallet, self.GAS, addr, 0, 3)
self.assertIsNotNone(tx)
def test_show_nodes(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
# test "nodes" with no nodes connected
args = ['nodes']
with patch('sys.stdout', new=StringIO()) as mock_print:
res = CommandShow().execute(args)
self.assertFalse(res)
self.assertIn('No nodes connected yet', mock_print.getvalue())
# test "nodes verbose" with no nodes connected
args = ['nodes', 'verbose']
res = CommandShow().execute(args)
self.assertIn('Addresses in queue: 0', res)
self.assertIn('Known addresses: 0', res)
self.assertIn('Bad addresses: 0', res)
# test "nodes queued" with no nodes connected
args = ['nodes', 'queued']
res = CommandShow().execute(args)
self.assertIn('No queued addresses', res)
# test "nodes known" with no nodes connected
args = ['nodes', 'known']
res = CommandShow().execute(args)
self.assertIn('No known addresses other than connect peers', res)
# test "nodes bad" with no nodes connected
args = ['nodes', 'bad']
res = CommandShow().execute(args)
self.assertIn('No bad addresses', res)
# query nodes with connected peers
# first make sure we have a predictable state
node1 = NeoNode(object, object)
node2 = NeoNode(object, object)
node1.address = "127.0.0.1:20333"
node2.address = "127.0.0.1:20334"
node1.best_height = 1025
node2.best_height = 1026
node1.version = MagicMock()
node2.version = MagicMock()
node1.version.user_agent = "test_user_agent"
node2.version.user_agent = "test_user_agent"
nodemgr.nodes = [node1, node2]
queued_address = "127.0.0.1:20335"
known_address = "127.0.0.1:20336"
bad_address = "127.0.0.1:20337"
nodemgr.queued_addresses.append(queued_address)
nodemgr.known_addresses.append(known_address)
nodemgr.bad_addresses.append(bad_address)
# now use "node"
args = ['node']
res = CommandShow().execute(args)
self.assertIn("Connected: 2", res)
self.assertIn("Peer 1", res)
self.assertIn("1025", res)
# test "nodes verbose" with queued, known, and bad addresses
args = ['nodes', 'verbose']
res = CommandShow().execute(args)
self.assertIn("Addresses in queue: 1", res)
self.assertIn("Known addresses: 1", res)
self.assertIn("Bad addresses: 1", res)
# test "nodes queued" with queued, known, and bad addresses
args = ['nodes', 'queued']
res = CommandShow().execute(args)
self.assertIn("Queued addresses:", res)
self.assertIn(queued_address, res)
# test "nodes known" with queued, known, and bad addresses
args = ['nodes', 'known']
res = CommandShow().execute(args)
self.assertIn("Known addresses:", res)
self.assertIn(known_address, res)
# test "nodes bad" with queued, known, and bad addresses
args = ['nodes', 'bad']
res = CommandShow().execute(args)
self.assertIn("Bad addresses:", res)
self.assertIn(bad_address, res)
nodemgr.reset_for_test()
def test_config_maxpeers(self):
nodemgr = NodeManager()
nodemgr.reset_for_test()
# test no input and verify output confirming current maxpeers
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['maxpeers']
res = CommandConfig().execute(args)
self.assertFalse(res)
self.assertEqual(settings.CONNECTED_PEER_MAX, 10)
self.assertIn(
f"Maintaining maxpeers at {settings.CONNECTED_PEER_MAX}",
mock_print.getvalue())
# test changing the number of maxpeers
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['maxpeers', "6"]
res = CommandConfig().execute(args)
self.assertTrue(res)
self.assertEqual(settings.CONNECTED_PEER_MAX, 6)
self.assertEqual(int(res), settings.CONNECTED_PEER_MAX)
self.assertIn(f"Maxpeers set to {settings.CONNECTED_PEER_MAX}",
mock_print.getvalue())
# test trying to set maxpeers > 10
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['maxpeers', "12"]
res = CommandConfig().execute(args)
self.assertFalse(res)
self.assertIn("Max peers is limited to 10", mock_print.getvalue())
# test bad input
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['maxpeers', "blah"]
res = CommandConfig().execute(args)
self.assertFalse(res)
self.assertIn("Invalid argument", mock_print.getvalue())
# test negative number
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['maxpeers', "-1"]
res = CommandConfig().execute(args)
self.assertFalse(res)
self.assertIn("Please supply a positive integer for maxpeers",
mock_print.getvalue())
# test if the new maxpeers < settings.CONNECTED_PEER_MAX
# first make sure we have a predictable state
node1 = NeoNode(object, object)
node2 = NeoNode(object, object)
node1.address = "127.0.0.1:20333"
node2.address = "127.0.0.1:20334"
nodemgr.nodes = [node1, node2]
nodemgr.loop = object
with patch("neo.Network.node.NeoNode.disconnect") as mock_disconnect:
# first test if the number of connected peers !< new maxpeers
self.assertEqual(nodemgr.max_clients,
6) # verifying the current number of maxpeers
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['maxpeers', "4"]
res = CommandConfig().execute(args)
self.assertTrue(res)
self.assertEqual(nodemgr.max_clients, 4)
self.assertFalse(mock_disconnect.called)
self.assertEqual(settings.CONNECTED_PEER_MAX, 4)
self.assertIn(f"Maxpeers set to {settings.CONNECTED_PEER_MAX}",
mock_print.getvalue())
# now test if the number of connected peers < new maxpeers and < current minpeers
self.assertEqual(settings.CONNECTED_PEER_MIN,
4) # verifying the current minpeers value
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.Config.wait_for'):
args = ['maxpeers', "1"]
res = CommandConfig().execute(args)
self.assertTrue(res)
self.assertEqual(nodemgr.max_clients, 1)
self.assertTrue(mock_disconnect.called)
self.assertEqual(settings.CONNECTED_PEER_MAX, 1)
self.assertIn(
f"Maxpeers set to {settings.CONNECTED_PEER_MAX}",
mock_print.getvalue())
self.assertEqual(settings.CONNECTED_PEER_MIN, 1)
self.assertIn(
f"Minpeers set to {settings.CONNECTED_PEER_MIN}",
mock_print.getvalue())
# reset for future tests
nodemgr.reset_for_test()
nodemgr.loop = None
settings.set_max_peers(10)
def test_sc_invoke(self):
token_hash_str = '31730cc9a1844891a3bafd1aa929a4142860d8d3'
# test no open wallet
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['invoke', token_hash_str, 'symbol', '[]']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("Please open a wallet", mock_print.getvalue())
PromptData.Wallet = self.GetWallet3(recreate=True)
# test invalid contract script hash
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['invoke', 'invalid_hash', 'invalid_params']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("Invalid script hash", mock_print.getvalue())
# test invalid parameter count (missing required `contract`)
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['invoke', '--from-addr=bla']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("Please specify the required parameters", mock_print.getvalue())
# test with an script_hash that cannot be found
with patch('sys.stdout', new=StringIO()) as mock_print:
bad_contract = 'a' * 40 # passes basic script_hash length check, but won't find actual contract
args = ['invoke', bad_contract, 'name', '[]']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("Error testing contract invoke", mock_print.getvalue())
# test with keyboard interrupt
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[KeyboardInterrupt]):
args = ['invoke', token_hash_str, 'symbol', '[]']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("Invocation cancelled", mock_print.getvalue())
# test with negative fee
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[self.wallet_3_pass()]):
args = ['invoke', token_hash_str, 'symbol', '[]', '--fee=-0.001']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("invalid amount format", mock_print.getvalue())
# test with weird fee
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[self.wallet_3_pass()]):
args = ['invoke', token_hash_str, 'symbol', '[]', '--fee=0.0abc']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("invalid amount format", mock_print.getvalue())
# test ok, but bad passw to send to network
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=["blah"]):
args = ['invoke', token_hash_str, 'symbol', '[]']
res = CommandSC().execute(args)
self.assertFalse(res)
self.assertIn("Incorrect password", mock_print.getvalue())
# test with no return-type override
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[KeyboardInterrupt]):
args = ['invoke', token_hash_str, 'totalSupply', '[]', '']
res = CommandSC().execute(args)
a = mock_print.getvalue()
self.assertIn("ByteArray", mock_print.getvalue())
# test with bad return-type override
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[KeyboardInterrupt]):
args = ['invoke', token_hash_str, 'totalSupply', '[]', '--return-type=99']
res = CommandSC().execute(args)
self.assertFalse(res)
# test with hex return-type override
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[KeyboardInterrupt]):
args = ['invoke', token_hash_str, 'totalSupply', '[]', '--return-type=02']
res = CommandSC().execute(args)
self.assertIn("Integer", mock_print.getvalue())
# test with named return-type override
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[KeyboardInterrupt]):
args = ['invoke', token_hash_str, 'totalSupply', '[]', '--return-type=Integer']
res = CommandSC().execute(args)
self.assertIn("Integer", mock_print.getvalue())
# test ok
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Network.node.NeoNode.relay', return_value=self.async_return(True)):
with patch('sys.stdout', new=StringIO()) as mock_print:
with patch('neo.Prompt.Commands.SC.prompt', side_effect=[self.wallet_3_pass()]):
args = ['invoke', token_hash_str, 'symbol', '[]', '--fee=0.001']
res = CommandSC().execute(args)
# not the best check, but will do for now
self.assertTrue(res)
self.assertIn("Priority Fee (0.001) + Invoke TX Fee (0.0001) = 0.0011", mock_print.getvalue())
def test_wallet_split(self):
# test wallet split with no wallet open
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['address', 'split']
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("open a wallet", mock_print.getvalue())
self.OpenWallet1()
# test wallet split with not enough arguments
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['address', 'split', self.wallet_1_addr]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("specify the required parameters",
mock_print.getvalue())
# test wallet split with too much arguments
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2', 'too',
'much'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Too many parameters supplied",
mock_print.getvalue())
# test wallet split with invalid address
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['address', 'split', '123', 'neo', '0', '2']
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Invalid address specified", mock_print.getvalue())
# test wallet split with unknown asset
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'unknownasset', '0',
'2'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Unknown asset id", mock_print.getvalue())
# test wallet split with invalid index
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['address', 'split', self.wallet_1_addr, 'neo', 'abc', '2']
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Invalid unspent index value", mock_print.getvalue())
# test wallet split with invalid divisions
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['address', 'split', self.wallet_1_addr, 'neo', '0', 'abc']
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Invalid divisions value", mock_print.getvalue())
# test wallet split with invalid divisions (negative)
with patch('sys.stdout', new=StringIO()) as mock_print:
args = ['address', 'split', self.wallet_1_addr, 'neo', '0', '-3']
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Divisions cannot be lower than 2",
mock_print.getvalue())
# test wallet split with invalid fee
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2', 'abc'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Invalid fee value", mock_print.getvalue())
# test wallet split with negative fee
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2',
'-0.01'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Invalid fee value", mock_print.getvalue())
# test wallet split with wrong password
with patch('neo.Prompt.Commands.WalletAddress.prompt',
side_effect=["wrong_password"]):
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("incorrect password", mock_print.getvalue())
# test wallet split with keyboard interrupt
with patch('neo.Prompt.Commands.WalletAddress.prompt',
side_effect=[KeyboardInterrupt]):
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Splitting cancelled", mock_print.getvalue())
# test wallet split with fee bigger than the outputs
with patch('neo.Prompt.Commands.WalletAddress.prompt',
side_effect=[self.wallet_1_pass()]):
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2',
'100'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Fee could not be subtracted from outputs",
mock_print.getvalue())
# # test wallet split with error during tx relay
nodemgr = NodeManager()
nodemgr.reset_for_test()
nodemgr.nodes = [NeoNode(object, object)]
with patch('neo.Prompt.Commands.WalletAddress.prompt',
side_effect=[self.wallet_1_pass()]):
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(False)):
with patch('sys.stdout', new=StringIO()) as mock_print:
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2'
]
res = CommandWallet().execute(args)
self.assertIsNone(res)
self.assertIn("Could not relay tx", mock_print.getvalue())
# we have to clear the mempool because the previous test alread put a TX with the same hash in the mempool and so it will not try to relay again
nodemgr.mempool.reset()
# test wallet split neo successful
with patch('neo.Prompt.Commands.WalletAddress.prompt',
side_effect=[self.wallet_1_pass()]):
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
args = [
'address', 'split', self.wallet_1_addr, 'neo', '0', '2'
]
tx = CommandWallet().execute(args)
self.assertIsInstance(tx, ContractTransaction)
self.assertEqual(
[Fixed8.FromDecimal(25),
Fixed8.FromDecimal(25)],
[item.Value for item in tx.outputs])
# test wallet split gas successful
with patch('neo.Prompt.Commands.WalletAddress.prompt',
side_effect=[self.wallet_1_pass()]):
with patch('neo.Network.node.NeoNode.relay',
return_value=self.async_return(True)):
args = [
'address', 'split', self.wallet_1_addr, 'gas', '0', '3'
]
tx = CommandWallet().execute(args)
self.assertIsInstance(tx, ContractTransaction)
self.assertEqual(len(tx.outputs), 3)
nodemgr.reset_for_test()
