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

501 lines
16 KiB
Python

# standard imports import logging
import datetime
import os
import logging
# third-party imports
import pytest
from sqlalchemy import DateTime
from cic_registry import CICRegistry
# local imports
from cic_eth.eth.rpc import RpcClient
from cic_eth.eth.tx import cache_gas_refill_data
from cic_eth.db.models.otx import Otx
from cic_eth.db.models.otx import OtxSync
from cic_eth.db.models.tx import TxCache
from cic_eth.db.models.lock import Lock
from cic_eth.db.models.base import SessionBase
from cic_eth.db.enum import StatusEnum
from cic_eth.db.enum import LockEnum
from cic_eth.queue.tx import create as queue_create
from cic_eth.queue.tx import set_final_status
from cic_eth.queue.tx import set_sent_status
from cic_eth.queue.tx import set_waitforgas
from cic_eth.queue.tx import set_ready
from cic_eth.queue.tx import get_paused_txs
from cic_eth.queue.tx import get_upcoming_tx
from cic_eth.queue.tx import get_account_tx
from cic_eth.queue.tx import get_tx
from cic_eth.eth.util import unpack_signed_raw_tx
from cic_eth.db.error import TxStateChangeError
logg = logging.getLogger()
def test_finalize(
default_chain_spec,
init_w3,
init_database,
):
tx_hashes = []
for i in range(1, 6):
tx = {
'from': init_w3.eth.accounts[0],
'to': init_w3.eth.accounts[1],
'nonce': 42 + int(i/5),
'gas': 21000,
'gasPrice': 1000000*i,
'value': 128,
'chainId': 666,
'data': '',
}
logg.debug('nonce {}'.format(tx['nonce']))
tx_signed = init_w3.eth.sign_transaction(tx)
#tx_hash = RpcClient.w3.keccak(hexstr=tx_signed['raw'])
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
tx_hashes.append(tx_hash.hex())
if i < 4:
set_sent_status(tx_hash.hex())
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[0]).first()
assert otx.status == StatusEnum.OBSOLETED
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[1]).first()
assert otx.status == StatusEnum.OBSOLETED
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[2]).first()
assert otx.status == StatusEnum.OBSOLETED
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[3]).first()
assert otx.status == StatusEnum.PENDING
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[4]).first()
assert otx.status == StatusEnum.PENDING
set_sent_status(tx_hashes[3], False)
set_sent_status(tx_hashes[4], False)
set_final_status(tx_hashes[3], 1024)
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[0]).first()
assert otx.status == StatusEnum.CANCELLED
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[1]).first()
assert otx.status == StatusEnum.CANCELLED
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[2]).first()
assert otx.status == StatusEnum.CANCELLED
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[3]).first()
assert otx.status == StatusEnum.SUCCESS
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hashes[4]).first()
assert otx.status == StatusEnum.SENT
def test_expired(
default_chain_spec,
init_database,
init_w3,
):
tx_hashes = []
for i in range(1, 6):
tx = {
'from': init_w3.eth.accounts[0],
'to': init_w3.eth.accounts[1],
'nonce': 42 + int(i/2),
'gas': 21000,
'gasPrice': 1000000*i,
'value': 128,
'chainId': 666,
'data': '0x',
}
tx_signed = init_w3.eth.sign_transaction(tx)
#tx_hash = RpcClient.w3.keccak(hexstr=tx_signed['raw'])
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
tx_hashes.append(tx_hash.hex())
set_sent_status(tx_hash.hex(), False)
otx = init_database.query(Otx).filter(Otx.tx_hash==tx_hash.hex()).first()
fake_created = datetime.datetime.utcnow() - datetime.timedelta(seconds=40*i)
otx.date_created = fake_created
init_database.add(otx)
init_database.commit()
init_database.refresh(otx)
now = datetime.datetime.utcnow()
delta = datetime.timedelta(seconds=61)
then = now - delta
otxs = OtxSync.get_expired(then)
nonce_acc = 0
for otx in otxs:
nonce_acc += otx.nonce
assert nonce_acc == (43 + 44)
def test_get_paused(
init_w3,
init_database,
cic_registry,
default_chain_spec,
):
tx_hashes = []
for i in range(1, 3):
tx = {
'from': init_w3.eth.accounts[0],
'to': init_w3.eth.accounts[1],
'nonce': 42 + int(i),
'gas': 21000,
'gasPrice': 1000000*i,
'value': 128,
'chainId': 8995,
'data': '0x',
}
logg.debug('nonce {}'.format(tx['nonce']))
tx_signed = init_w3.eth.sign_transaction(tx)
#tx_hash = RpcClient.w3.keccak(hexstr=tx_signed['raw'])
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
tx_hashes.append(tx_hash.hex())
#txs = get_paused_txs(recipient=init_w3.eth.accounts[1])
txs = get_paused_txs(sender=init_w3.eth.accounts[0])
assert len(txs.keys()) == 0
q = init_database.query(Otx)
q = q.filter(Otx.tx_hash==tx_hashes[0])
r = q.first()
r.waitforgas(session=init_database)
init_database.add(r)
init_database.commit()
chain_id = default_chain_spec.chain_id()
txs = get_paused_txs(chain_id=chain_id)
assert len(txs.keys()) == 1
#txs = get_paused_txs(recipient=init_w3.eth.accounts[1])
txs = get_paused_txs(sender=init_w3.eth.accounts[0], chain_id=chain_id)
assert len(txs.keys()) == 1
txs = get_paused_txs(status=StatusEnum.WAITFORGAS)
assert len(txs.keys()) == 1
#txs = get_paused_txs(recipient=init_w3.eth.accounts[1], status=StatusEnum.WAITFORGAS)
txs = get_paused_txs(sender=init_w3.eth.accounts[0], status=StatusEnum.WAITFORGAS, chain_id=chain_id)
assert len(txs.keys()) == 1
q = init_database.query(Otx)
q = q.filter(Otx.tx_hash==tx_hashes[1])
o = q.first()
o.waitforgas(session=init_database)
init_database.add(o)
init_database.commit()
txs = get_paused_txs()
assert len(txs.keys()) == 2
#txs = get_paused_txs(recipient=init_w3.eth.accounts[1])
txs = get_paused_txs(sender=init_w3.eth.accounts[0], chain_id=chain_id)
assert len(txs.keys()) == 2
txs = get_paused_txs(status=StatusEnum.WAITFORGAS, chain_id=chain_id)
assert len(txs.keys()) == 2
#txs = get_paused_txs(recipient=init_w3.eth.accounts[1], status=StatusEnum.WAITFORGAS)
txs = get_paused_txs(sender=init_w3.eth.accounts[0], status=StatusEnum.WAITFORGAS, chain_id=chain_id)
assert len(txs.keys()) == 2
q = init_database.query(Otx)
q = q.filter(Otx.tx_hash==tx_hashes[1])
o = q.first()
o.sendfail(session=init_database)
init_database.add(o)
init_database.commit()
txs = get_paused_txs()
assert len(txs.keys()) == 2
txs = get_paused_txs(sender=init_w3.eth.accounts[0], chain_id=chain_id)
assert len(txs.keys()) == 2
txs = get_paused_txs(status=StatusEnum.WAITFORGAS, chain_id=chain_id)
assert len(txs.keys()) == 1
#txs = get_paused_txs(recipient=init_w3.eth.accounts[1], status=StatusEnum.WAITFORGAS)
txs = get_paused_txs(sender=init_w3.eth.accounts[0], status=StatusEnum.WAITFORGAS, chain_id=chain_id)
assert len(txs.keys()) == 1
def test_get_upcoming(
default_chain_spec,
init_w3,
init_database,
cic_registry,
):
tx_hashes = []
for i in range(0, 7):
tx = {
'from': init_w3.eth.accounts[i % 3],
'to': init_w3.eth.accounts[1],
'nonce': 42 + int(i / 3),
'gas': 21000,
'gasPrice': 1000000*i,
'value': 128,
'chainId': 8995,
'data': '0x',
}
tx_signed = init_w3.eth.sign_transaction(tx)
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
logg.debug('{} nonce {} {}'.format(i, tx['nonce'], tx_hash.hex()))
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
tx_hashes.append(tx_hash.hex())
chain_id = int(default_chain_spec.chain_id())
txs = get_upcoming_tx(StatusEnum.PENDING, chain_id=chain_id)
assert len(txs.keys()) == 3
tx = unpack_signed_raw_tx(bytes.fromhex(txs[tx_hashes[0]][2:]), chain_id)
assert tx['nonce'] == 42
tx = unpack_signed_raw_tx(bytes.fromhex(txs[tx_hashes[1]][2:]), chain_id)
assert tx['nonce'] == 42
tx = unpack_signed_raw_tx(bytes.fromhex(txs[tx_hashes[2]][2:]), chain_id)
assert tx['nonce'] == 42
q = init_database.query(TxCache)
q = q.filter(TxCache.sender==init_w3.eth.accounts[0])
for o in q.all():
o.date_checked -= datetime.timedelta(seconds=30)
init_database.add(o)
init_database.commit()
before = datetime.datetime.now() - datetime.timedelta(seconds=20)
logg.debug('before {}'.format(before))
txs = get_upcoming_tx(StatusEnum.PENDING, before=before)
logg.debug('txs {} {}'.format(txs.keys(), txs.values()))
assert len(txs.keys()) == 1
# Now date checked has been set to current time, and the check returns no results
txs = get_upcoming_tx(StatusEnum.PENDING, before=before)
logg.debug('txs {} {}'.format(txs.keys(), txs.values()))
assert len(txs.keys()) == 0
set_sent_status(tx_hashes[0])
txs = get_upcoming_tx(StatusEnum.PENDING)
assert len(txs.keys()) == 3
with pytest.raises(KeyError):
tx = txs[tx_hashes[0]]
tx = unpack_signed_raw_tx(bytes.fromhex(txs[tx_hashes[3]][2:]), chain_id)
assert tx['nonce'] == 43
set_waitforgas(tx_hashes[1])
txs = get_upcoming_tx(StatusEnum.PENDING)
assert len(txs.keys()) == 3
with pytest.raises(KeyError):
tx = txs[tx_hashes[1]]
tx = unpack_signed_raw_tx(bytes.fromhex(txs[tx_hashes[3]][2:]), chain_id)
assert tx['nonce'] == 43
txs = get_upcoming_tx(StatusEnum.WAITFORGAS)
assert len(txs.keys()) == 1
def test_upcoming_with_lock(
default_chain_spec,
init_database,
init_w3,
):
chain_id = int(default_chain_spec.chain_id())
chain_str = str(default_chain_spec)
tx = {
'from': init_w3.eth.accounts[0],
'to': init_w3.eth.accounts[1],
'nonce': 42,
'gas': 21000,
'gasPrice': 1000000,
'value': 128,
'chainId': 8995,
'data': '0x',
}
tx_signed = init_w3.eth.sign_transaction(tx)
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
logg.debug('nonce {} {}'.format(tx['nonce'], tx_hash.hex()))
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
txs = get_upcoming_tx(StatusEnum.PENDING, chain_id=chain_id)
assert len(txs.keys()) == 1
Lock.set(chain_str, LockEnum.SEND, address=init_w3.eth.accounts[0])
txs = get_upcoming_tx(StatusEnum.PENDING, chain_id=chain_id)
assert len(txs.keys()) == 0
tx = {
'from': init_w3.eth.accounts[1],
'to': init_w3.eth.accounts[0],
'nonce': 42,
'gas': 21000,
'gasPrice': 1000000,
'value': 128,
'chainId': 8995,
'data': '0x',
}
tx_signed = init_w3.eth.sign_transaction(tx)
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
logg.debug('nonce {} {}'.format(tx['nonce'], tx_hash.hex()))
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
txs = get_upcoming_tx(StatusEnum.PENDING, chain_id=chain_id)
assert len(txs.keys()) == 1
def test_obsoletion(
default_chain_spec,
init_w3,
init_database,
):
tx_hashes = []
for i in range(0, 4):
tx = {
'from': init_w3.eth.accounts[int(i/2)],
'to': init_w3.eth.accounts[1],
'nonce': 42 + int(i/3),
'gas': 21000,
'gasPrice': 1000000*i,
'value': 128,
'chainId': 8995,
'data': '0x',
}
logg.debug('nonce {}'.format(tx['nonce']))
tx_signed = init_w3.eth.sign_transaction(tx)
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
tx_hashes.append(tx_hash.hex())
if i < 2:
set_sent_status(tx_hash.hex())
session = SessionBase.create_session()
q = session.query(Otx)
q = q.filter(Otx.status==StatusEnum.OBSOLETED)
z = 0
for o in q.all():
z += o.nonce
session.close()
assert z == 42
set_final_status(tx_hashes[1], 362436, True)
session = SessionBase.create_session()
q = session.query(Otx)
q = q.filter(Otx.status==StatusEnum.OBSOLETED)
zo = 0
for o in q.all():
zo += o.nonce
q = session.query(Otx)
q = q.filter(Otx.status==StatusEnum.CANCELLED)
zc = 0
for o in q.all():
zc += o.nonce
session.close()
assert zo == 0
assert zc == 42
def test_retry(
init_database,
):
address = '0x' + os.urandom(20).hex()
tx_hash = '0x' + os.urandom(32).hex()
signed_tx = '0x' + os.urandom(128).hex()
otx = Otx(0, address, tx_hash, signed_tx)
init_database.add(otx)
init_database.commit()
set_sent_status(tx_hash, True)
set_ready(tx_hash)
q = init_database.query(Otx)
q = q.filter(Otx.tx_hash==tx_hash)
otx = q.first()
assert otx.status == StatusEnum.RETRY
set_sent_status(tx_hash, False)
set_ready(tx_hash)
q = init_database.query(Otx)
q = q.filter(Otx.tx_hash==tx_hash)
otx = q.first()
assert otx.status == StatusEnum.RETRY
def test_get_account_tx(
default_chain_spec,
init_database,
init_w3,
):
tx_hashes = []
for i in range(0, 4):
tx = {
'from': init_w3.eth.accounts[int(i/3)],
'to': init_w3.eth.accounts[3-i],
'nonce': 42 + i,
'gas': 21000,
'gasPrice': 1000000*i,
'value': 128,
'chainId': 666,
'data': '',
}
logg.debug('nonce {}'.format(tx['nonce']))
tx_signed = init_w3.eth.sign_transaction(tx)
tx_hash = init_w3.keccak(hexstr=tx_signed['raw'])
queue_create(tx['nonce'], tx['from'], tx_hash.hex(), tx_signed['raw'], str(default_chain_spec))
cache_gas_refill_data(tx_hash.hex(), tx)
tx_hashes.append(tx_hash.hex())
txs = get_account_tx(init_w3.eth.accounts[0])
logg.debug('tx {} tx {}'.format(list(txs.keys()), tx_hashes))
assert list(txs.keys()) == tx_hashes
txs = get_account_tx(init_w3.eth.accounts[0], as_recipient=False)
assert list(txs.keys()) == tx_hashes[:3]
txs = get_account_tx(init_w3.eth.accounts[0], as_sender=False)
assert list(txs.keys()) == tx_hashes[3:]