cic-internal-integration/apps/cic-eth/tests/unit/queue/test_balances.py

166 lines
4.5 KiB
Python

# standard imports
import os
import logging
# external imports
import pytest
from chainqueue.db.models.otx import Otx
from chainqueue.db.models.tx import TxCache
# local imports
from cic_eth.queue.balance import (
balance_outgoing,
balance_incoming,
assemble_balances,
)
from cic_eth.encode import tx_normalize
logg = logging.getLogger()
def test_assemble():
token_foo = '0x' + os.urandom(20).hex()
token_bar = '0x' + os.urandom(20).hex()
b = [
[
{
'address': token_foo,
'converters': [],
'balance_foo': 42,
},
{
'address': token_bar,
'converters': [],
'balance_baz': 666,
},
],
[
{
'address': token_foo,
'converters': [],
'balance_bar': 13,
},
{
'address': token_bar,
'converters': [],
'balance_xyzzy': 1337,
}
]
]
r = assemble_balances(b)
logg.debug('r {}'.format(r))
assert r[0]['address'] == tx_normalize.executable_address(token_foo)
assert r[1]['address'] == tx_normalize.executable_address(token_bar)
assert r[0].get('balance_foo') != None
assert r[0].get('balance_bar') != None
assert r[1].get('balance_baz') != None
assert r[1].get('balance_xyzzy') != None
def test_outgoing_balance(
default_chain_spec,
init_database,
):
recipient = '0x' + os.urandom(20).hex()
tx_hash = '0x' + os.urandom(32).hex()
signed_tx = '0x' + os.urandom(128).hex()
otx = Otx.add(0, tx_hash, signed_tx, session=init_database)
init_database.add(otx)
init_database.commit()
token_address = '0x' + os.urandom(20).hex()
sender = '0x' + os.urandom(20).hex()
txc = TxCache(
tx_normalize.tx_hash(tx_hash),
tx_normalize.wallet_address(sender),
tx_normalize.wallet_address(recipient),
tx_normalize.executable_address(token_address),
tx_normalize.executable_address(token_address),
1000,
1000,
session=init_database,
)
init_database.add(txc)
init_database.commit()
token_data = {
'address': token_address,
'converters': [],
}
b = balance_outgoing([token_data], sender, default_chain_spec.asdict())
assert b[0]['balance_outgoing'] == 1000
otx.readysend(session=init_database)
init_database.flush()
otx.reserve(session=init_database)
init_database.flush()
otx.sent(session=init_database)
init_database.commit()
b = balance_outgoing([token_data], sender, default_chain_spec.asdict())
assert b[0]['balance_outgoing'] == 1000
otx.success(block=1024, session=init_database)
init_database.commit()
b = balance_outgoing([token_data], sender, default_chain_spec.asdict())
assert b[0]['balance_outgoing'] == 0
def test_incoming_balance(
default_chain_spec,
init_database,
):
recipient = '0x' + os.urandom(20).hex()
tx_hash = '0x' + os.urandom(32).hex()
signed_tx = '0x' + os.urandom(128).hex()
otx = Otx.add(0, tx_hash, signed_tx, session=init_database)
init_database.add(otx)
init_database.commit()
token_address = '0x' + os.urandom(20).hex()
sender = '0x' + os.urandom(20).hex()
txc = TxCache(
tx_normalize.tx_hash(tx_hash),
tx_normalize.wallet_address(sender),
tx_normalize.wallet_address(recipient),
tx_normalize.executable_address(token_address),
tx_normalize.executable_address(token_address),
1000,
1000,
session=init_database,
)
init_database.add(txc)
init_database.commit()
token_data = {
'address': token_address,
'converters': [],
}
b = balance_incoming([token_data], recipient, default_chain_spec.asdict())
assert b[0]['balance_incoming'] == 1000
otx.readysend(session=init_database)
init_database.flush()
otx.reserve(session=init_database)
init_database.flush()
otx.sent(session=init_database)
init_database.commit()
#b = balance_incoming([token_data], recipient, default_chain_spec.asdict())
#assert b[0]['balance_incoming'] == 1000
otx.success(block=1024, session=init_database)
init_database.commit()
b = balance_incoming([token_data], recipient, default_chain_spec.asdict())
assert b[0]['balance_incoming'] == 0