laconicd-deprecated/tests/integration_tests/cosmoscli.py

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import json
import tempfile
import requests
from dateutil.parser import isoparse
from pystarport.utils import build_cli_args_safe, interact
DEFAULT_GAS_PRICE = "5000000000000aphoton"
class ChainCommand:
def __init__(self, cmd):
self.cmd = cmd
def __call__(self, cmd, *args, stdin=None, **kwargs):
"execute chain-maind"
args = " ".join(build_cli_args_safe(cmd, *args, **kwargs))
return interact(f"{self.cmd} {args}", input=stdin)
class CosmosCLI:
"the apis to interact with wallet and blockchain"
def __init__(
self,
data_dir,
node_rpc,
cmd,
):
self.data_dir = data_dir
self._genesis = json.loads(
(self.data_dir / "config" / "genesis.json").read_text()
)
self.chain_id = self._genesis["chain_id"]
self.node_rpc = node_rpc
self.raw = ChainCommand(cmd)
self.output = None
self.error = None
@property
def node_rpc_http(self):
return "http" + self.node_rpc.removeprefix("tcp")
def node_id(self):
"get tendermint node id"
output = self.raw("tendermint", "show-node-id", home=self.data_dir)
return output.decode().strip()
def delete_account(self, name):
"delete wallet account in node's keyring"
return self.raw(
"keys",
"delete",
name,
"-y",
"--force",
home=self.data_dir,
output="json",
keyring_backend="test",
)
def create_account(self, name, mnemonic=None):
"create new keypair in node's keyring"
if mnemonic is None:
output = self.raw(
"keys",
"add",
name,
home=self.data_dir,
output="json",
keyring_backend="test",
)
else:
output = self.raw(
"keys",
"add",
name,
"--recover",
home=self.data_dir,
output="json",
keyring_backend="test",
stdin=mnemonic.encode() + b"\n",
)
return json.loads(output)
def init(self, moniker):
"the node's config is already added"
return self.raw(
"init",
moniker,
chain_id=self.chain_id,
home=self.data_dir,
)
def validate_genesis(self):
return self.raw("validate-genesis", home=self.data_dir)
def add_genesis_account(self, addr, coins, **kwargs):
return self.raw(
"add-genesis-account",
addr,
coins,
home=self.data_dir,
output="json",
**kwargs,
)
def gentx(self, name, coins, min_self_delegation=1, pubkey=None):
return self.raw(
"gentx",
name,
coins,
min_self_delegation=str(min_self_delegation),
home=self.data_dir,
chain_id=self.chain_id,
keyring_backend="test",
pubkey=pubkey,
)
def collect_gentxs(self, gentx_dir):
return self.raw("collect-gentxs", gentx_dir, home=self.data_dir)
def status(self):
return json.loads(self.raw("status", node=self.node_rpc))
def block_height(self):
return int(self.status()["SyncInfo"]["latest_block_height"])
def block_time(self):
return isoparse(self.status()["SyncInfo"]["latest_block_time"])
def balances(self, addr):
return json.loads(
self.raw("query", "bank", "balances", addr, home=self.data_dir)
)["balances"]
def balance(self, addr, denom="aphoton"):
denoms = {coin["denom"]: int(coin["amount"]) for coin in self.balances(addr)}
return denoms.get(denom, 0)
def query_tx(self, tx_type, tx_value):
tx = self.raw(
"query",
"tx",
"--type",
tx_type,
tx_value,
home=self.data_dir,
chain_id=self.chain_id,
node=self.node_rpc,
)
return json.loads(tx)
def query_all_txs(self, addr):
txs = self.raw(
"query",
"txs-all",
addr,
home=self.data_dir,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
return json.loads(txs)
def distribution_commission(self, addr):
coin = json.loads(
self.raw(
"query",
"distribution",
"commission",
addr,
output="json",
node=self.node_rpc,
)
)["commission"][0]
return float(coin["amount"])
def distribution_community(self):
coin = json.loads(
self.raw(
"query",
"distribution",
"community-pool",
output="json",
node=self.node_rpc,
)
)["pool"][0]
return float(coin["amount"])
def distribution_reward(self, delegator_addr):
coin = json.loads(
self.raw(
"query",
"distribution",
"rewards",
delegator_addr,
output="json",
node=self.node_rpc,
)
)["total"][0]
return float(coin["amount"])
def address(self, name, bech="acc"):
output = self.raw(
"keys",
"show",
name,
"-a",
home=self.data_dir,
keyring_backend="test",
bech=bech,
)
return output.strip().decode()
def account(self, addr):
return json.loads(
self.raw(
"query", "auth", "account", addr, output="json", node=self.node_rpc
)
)
def tx_search(self, events: str):
"/tx_search"
return json.loads(
self.raw("query", "txs", events=events, output="json", node=self.node_rpc)
)
def tx_search_rpc(self, events: str):
rsp = requests.get(
f"{self.node_rpc_http}/tx_search",
params={
"query": f'"{events}"',
},
).json()
assert "error" not in rsp, rsp["error"]
return rsp["result"]["txs"]
def tx(self, value, **kwargs):
"/tx"
default_kwargs = {
"home": self.data_dir,
}
return json.loads(self.raw("query", "tx", value, **(default_kwargs | kwargs)))
def total_supply(self):
return json.loads(
self.raw("query", "bank", "total", output="json", node=self.node_rpc)
)
def validator(self, addr):
return json.loads(
self.raw(
"query",
"staking",
"validator",
addr,
output="json",
node=self.node_rpc,
)
)
def validators(self):
return json.loads(
self.raw(
"query", "staking", "validators", output="json", node=self.node_rpc
)
)["validators"]
def staking_params(self):
return json.loads(
self.raw("query", "staking", "params", output="json", node=self.node_rpc)
)
def staking_pool(self, bonded=True):
return int(
json.loads(
self.raw("query", "staking", "pool", output="json", node=self.node_rpc)
)["bonded_tokens" if bonded else "not_bonded_tokens"]
)
def transfer(self, from_, to, coins, generate_only=False, **kwargs):
kwargs.setdefault("gas_prices", DEFAULT_GAS_PRICE)
return json.loads(
self.raw(
"tx",
"bank",
"send",
from_,
to,
coins,
"-y",
"--generate-only" if generate_only else None,
home=self.data_dir,
**kwargs,
)
)
def get_delegated_amount(self, which_addr):
return json.loads(
self.raw(
"query",
"staking",
"delegations",
which_addr,
home=self.data_dir,
chain_id=self.chain_id,
node=self.node_rpc,
output="json",
)
)
def delegate_amount(self, to_addr, amount, from_addr, gas_price=None):
if gas_price is None:
return json.loads(
self.raw(
"tx",
"staking",
"delegate",
to_addr,
amount,
"-y",
home=self.data_dir,
from_=from_addr,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
)
else:
return json.loads(
self.raw(
"tx",
"staking",
"delegate",
to_addr,
amount,
"-y",
home=self.data_dir,
from_=from_addr,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
gas_prices=gas_price,
)
)
# to_addr: croclcl1... , from_addr: cro1...
def unbond_amount(self, to_addr, amount, from_addr):
return json.loads(
self.raw(
"tx",
"staking",
"unbond",
to_addr,
amount,
"-y",
home=self.data_dir,
from_=from_addr,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
)
# to_validator_addr: crocncl1... , from_from_validator_addraddr: crocl1...
def redelegate_amount(
self, to_validator_addr, from_validator_addr, amount, from_addr
):
return json.loads(
self.raw(
"tx",
"staking",
"redelegate",
from_validator_addr,
to_validator_addr,
amount,
"-y",
home=self.data_dir,
from_=from_addr,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
)
# from_delegator can be account name or address
def withdraw_all_rewards(self, from_delegator):
return json.loads(
self.raw(
"tx",
"distribution",
"withdraw-all-rewards",
"-y",
from_=from_delegator,
home=self.data_dir,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
)
def make_multisig(self, name, signer1, signer2):
self.raw(
"keys",
"add",
name,
multisig=f"{signer1},{signer2}",
multisig_threshold="2",
home=self.data_dir,
keyring_backend="test",
)
def sign_multisig_tx(self, tx_file, multi_addr, signer_name):
return json.loads(
self.raw(
"tx",
"sign",
tx_file,
from_=signer_name,
multisig=multi_addr,
home=self.data_dir,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
)
def sign_batch_multisig_tx(
self, tx_file, multi_addr, signer_name, account_number, sequence_number
):
r = self.raw(
"tx",
"sign-batch",
"--offline",
tx_file,
account_number=account_number,
sequence=sequence_number,
from_=signer_name,
multisig=multi_addr,
home=self.data_dir,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
return r.decode("utf-8")
def encode_signed_tx(self, signed_tx):
return self.raw(
"tx",
"encode",
signed_tx,
)
def sign_tx(self, tx_file, signer):
return json.loads(
self.raw(
"tx",
"sign",
tx_file,
from_=signer,
home=self.data_dir,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
)
def sign_tx_json(self, tx, signer, max_priority_price=None):
if max_priority_price is not None:
tx["body"]["extension_options"].append(
{
"@type": "/ethermint.types.v1.ExtensionOptionDynamicFeeTx",
"max_priority_price": str(max_priority_price),
}
)
with tempfile.NamedTemporaryFile("w") as fp:
json.dump(tx, fp)
fp.flush()
return self.sign_tx(fp.name, signer)
def combine_multisig_tx(self, tx_file, multi_name, signer1_file, signer2_file):
return json.loads(
self.raw(
"tx",
"multisign",
tx_file,
multi_name,
signer1_file,
signer2_file,
home=self.data_dir,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
)
def combine_batch_multisig_tx(
self, tx_file, multi_name, signer1_file, signer2_file
):
r = self.raw(
"tx",
"multisign-batch",
tx_file,
multi_name,
signer1_file,
signer2_file,
home=self.data_dir,
keyring_backend="test",
chain_id=self.chain_id,
node=self.node_rpc,
)
return r.decode("utf-8")
def broadcast_tx(self, tx_file, **kwargs):
kwargs.setdefault("broadcast_mode", "block")
kwargs.setdefault("output", "json")
return json.loads(
self.raw("tx", "broadcast", tx_file, node=self.node_rpc, **kwargs)
)
def broadcast_tx_json(self, tx, **kwargs):
with tempfile.NamedTemporaryFile("w") as fp:
json.dump(tx, fp)
fp.flush()
return self.broadcast_tx(fp.name, **kwargs)
def unjail(self, addr):
return json.loads(
self.raw(
"tx",
"slashing",
"unjail",
"-y",
from_=addr,
home=self.data_dir,
node=self.node_rpc,
keyring_backend="test",
chain_id=self.chain_id,
)
)
def create_validator(
self,
amount,
moniker=None,
commission_max_change_rate="0.01",
commission_rate="0.1",
commission_max_rate="0.2",
min_self_delegation="1",
identity="",
website="",
security_contact="",
details="",
):
"""MsgCreateValidator
create the node with create_node before call this"""
pubkey = (
"'"
+ (
self.raw(
"tendermint",
"show-validator",
home=self.data_dir,
)
.strip()
.decode()
)
+ "'"
)
return json.loads(
self.raw(
"tx",
"staking",
"create-validator",
"-y",
from_=self.address("validator"),
amount=amount,
pubkey=pubkey,
min_self_delegation=min_self_delegation,
# commision
commission_rate=commission_rate,
commission_max_rate=commission_max_rate,
commission_max_change_rate=commission_max_change_rate,
# description
moniker=moniker,
identity=identity,
website=website,
security_contact=security_contact,
details=details,
# basic
home=self.data_dir,
node=self.node_rpc,
keyring_backend="test",
chain_id=self.chain_id,
)
)
def edit_validator(
self,
commission_rate=None,
moniker=None,
identity=None,
website=None,
security_contact=None,
details=None,
):
"""MsgEditValidator"""
options = dict(
commission_rate=commission_rate,
# description
moniker=moniker,
identity=identity,
website=website,
security_contact=security_contact,
details=details,
)
return json.loads(
self.raw(
"tx",
"staking",
"edit-validator",
"-y",
from_=self.address("validator"),
home=self.data_dir,
node=self.node_rpc,
keyring_backend="test",
chain_id=self.chain_id,
**{k: v for k, v in options.items() if v is not None},
)
)
def gov_propose(self, proposer, kind, proposal, **kwargs):
kwargs.setdefault("gas_prices", DEFAULT_GAS_PRICE)
if kind == "software-upgrade":
return json.loads(
self.raw(
"tx",
"gov",
"submit-proposal",
kind,
proposal["name"],
"-y",
from_=proposer,
# content
title=proposal.get("title"),
description=proposal.get("description"),
upgrade_height=proposal.get("upgrade-height"),
upgrade_time=proposal.get("upgrade-time"),
upgrade_info=proposal.get("upgrade-info"),
deposit=proposal.get("deposit"),
# basic
home=self.data_dir,
**kwargs,
)
)
elif kind == "cancel-software-upgrade":
return json.loads(
self.raw(
"tx",
"gov",
"submit-proposal",
kind,
"-y",
from_=proposer,
# content
title=proposal.get("title"),
description=proposal.get("description"),
deposit=proposal.get("deposit"),
# basic
home=self.data_dir,
**kwargs,
)
)
else:
with tempfile.NamedTemporaryFile("w") as fp:
json.dump(proposal, fp)
fp.flush()
return json.loads(
self.raw(
"tx",
"gov",
"submit-proposal",
kind,
fp.name,
"-y",
from_=proposer,
# basic
home=self.data_dir,
**kwargs,
)
)
def gov_vote(self, voter, proposal_id, option, **kwargs):
kwargs.setdefault("gas_prices", DEFAULT_GAS_PRICE)
return json.loads(
self.raw(
"tx",
"gov",
"vote",
proposal_id,
option,
"-y",
from_=voter,
home=self.data_dir,
**kwargs,
)
)
def gov_deposit(self, depositor, proposal_id, amount):
return json.loads(
self.raw(
"tx",
"gov",
"deposit",
proposal_id,
amount,
"-y",
from_=depositor,
home=self.data_dir,
node=self.node_rpc,
keyring_backend="test",
chain_id=self.chain_id,
)
)
def query_proposals(self, depositor=None, limit=None, status=None, voter=None):
return json.loads(
self.raw(
"query",
"gov",
"proposals",
depositor=depositor,
count_total=limit,
status=status,
voter=voter,
output="json",
node=self.node_rpc,
)
)
def query_proposal(self, proposal_id):
return json.loads(
self.raw(
"query",
"gov",
"proposal",
proposal_id,
output="json",
node=self.node_rpc,
)
)
def query_tally(self, proposal_id):
return json.loads(
self.raw(
"query",
"gov",
"tally",
proposal_id,
output="json",
node=self.node_rpc,
)
)
def ibc_transfer(
self,
from_,
to,
amount,
channel, # src channel
target_version, # chain version number of target chain
i=0,
):
return json.loads(
self.raw(
"tx",
"ibc-transfer",
"transfer",
"transfer", # src port
channel,
to,
amount,
"-y",
# FIXME https://github.com/cosmos/cosmos-sdk/issues/8059
"--absolute-timeouts",
from_=from_,
home=self.data_dir,
node=self.node_rpc,
keyring_backend="test",
chain_id=self.chain_id,
packet_timeout_height=f"{target_version}-10000000000",
packet_timeout_timestamp=0,
)
)
def export(self):
return self.raw("export", home=self.data_dir)
def unsaferesetall(self):
return self.raw("unsafe-reset-all")
def build_evm_tx(self, raw_tx: str, **kwargs):
return json.loads(
self.raw(
"tx",
"evm",
"raw",
raw_tx,
"-y",
"--generate-only",
home=self.data_dir,
**kwargs,
)
)
def query_base_fee(self, **kwargs):
default_kwargs = {"home": self.data_dir}
return int(
json.loads(
self.raw(
"q",
"feemarket",
"base-fee",
**(default_kwargs | kwargs),
)
)["base_fee"]
)
def rollback(self):
self.raw("rollback", home=self.data_dir)
def migrate_keystore(self):
return self.raw("keys", "migrate", home=self.data_dir)