def totalsupply(conf: dict):
"""Query total supply of ICX
:param conf: totalsupply command configuration
"""
uri, version = uri_parser(conf['uri'])
icon_service = IconService(HTTPProvider(uri, version))
response = icon_service.get_total_supply(True)
if "error" in response:
print('Got an error response')
print(json.dumps(response, indent=4))
else:
print(f'Total supply of ICX in hex: {response["result"]}')
print(f'Total supply of ICX in decimal: {int(response["result"], 16)}')
return response
class Sync:
PREPS = TEST_ACCOUNTS[:4]
def __init__(self):
self.handlers = [
self._set_revision,
self._update_governance_score,
self._set_step_cost,
]
self.revision = 0
self.gs_version = "0.0.0"
self.key_wallet = KeyWallet.load(bytes.fromhex(TEST1_PRIVATE_KEY))
self.preps = []
for prep in self.PREPS:
self.preps.append(KeyWallet.load(prep))
uri, version = uri_parser("http://127.0.0.1:9000/api/v3")
self.icon_service = IconService(HTTPProvider(uri, version))
def apply(self):
# get status
response = self._get_revision()
self.revision = int(response.get("code", "0x0"), 16)
# start sync
for i, action in enumerate(sync_list):
print("")
type_: int = action.get("type", -1)
params = action.get("params", {})
self.handlers[type_](params)
@staticmethod
def archive():
root = "./"
with tarfile.open('mainnet.tar.gz', 'w:gz') as tar:
for dir in [".score", ".statedb"]:
for _, _, files in os.walk(os.path.join(root, dir)):
for f in files:
tar.add(os.path.join(root, dir, f), arcname=f)
def _is_network_proposal_enabled(self):
return self.revision >= Revision.DECENTRALIZATION.value and self.gs_version >= "1.0.0"
def _set_revision(self, params: dict):
revision = int(params.get('code'), 16)
print(f"## Set revision {revision}")
if self.revision > revision:
print(f"pass revision {revision}. {revision} < {self.revision}")
return
if not self._is_network_proposal_enabled():
# send setRevision TX
tx_hash = self._call_tx(key_wallet=self.key_wallet,
to=GOVERNANCE_ADDRESS,
method='setRevision',
params=params)
print(f"transaction hash: {tx_hash}")
else:
# register setRevision network proposal and approve it
register = self.preps[0]
np_id = self._register_proposal_tx(
key_wallet=register,
title=f"set revision {revision}",
desc=f"T-Bears set revision {revision}",
type=1,
value_dict=params)
for prep in self.preps:
if prep == register:
continue
tx_hash = self._vote_proposal_tx(key_wallet=prep,
id_=np_id,
vote=1)
debug_print(
f"{prep.get_address()} votes agree to {np_id}. transaction hash: {tx_hash}"
)
print(f"Network proposal ID: {np_id}")
self.revision = revision
if self.revision == Revision.IISS.value:
# make 4 P-Reps for network proposal
self._make_preps(self.preps)
if self.revision == Revision.DECENTRALIZATION.value:
response = self._call(to=SYSTEM_ADDRESS, method="getIISSInfo")
block_height = int(response.get("blockHeight"), 16)
next_calc = int(response.get("nextCalculation"), 16)
wait_time = (next_calc - block_height) * 2
print(f"Wait decentralization..... {wait_time} secs")
sleep(wait_time)
while True:
response = self._call(to=SYSTEM_ADDRESS, method="getIISSInfo")
print(response.get("nextPRepTerm"))
if response.get("nextPRepTerm", "0x0") != "0x0":
print(f"Decentralization is done.")
break
else:
sleep(1)
def _update_governance_score(self, params: dict):
version = params.get('version')
print(f"## Update governance SCORE to {version}")
path = os.path.join(DIR_PATH, f"data/governance_{version}.zip")
self._deploy_score(key_wallet=self.key_wallet,
score_address=GOVERNANCE_ADDRESS,
path=path)
self.gs_version = version
def _set_step_cost(self, params: dict):
step_type = params.get('stepType')
cost = params.get('cost')
print(f"## Set stepCost.{step_type} to {cost}")
if not self._is_network_proposal_enabled():
# send setStepCost TX
tx_hash = self._call_tx(key_wallet=self.key_wallet,
to=GOVERNANCE_ADDRESS,
method='setStepCost',
params=params)
print(f"transaction hash: {tx_hash}")
else:
# TODO send setStepCost network proposal and approve it
print(f"Network proposal : ID")
def _deploy_score(
self,
key_wallet: 'KeyWallet',
path: str,
score_address: str = SYSTEM_ADDRESS,
) -> dict:
# Generates an instance of transaction for deploying SCORE.
transaction = DeployTransactionBuilder() \
.from_(key_wallet.get_address()) \
.to(score_address) \
.step_limit(100_000_000_000) \
.nid(3) \
.nonce(100) \
.content_type("application/zip") \
.content(gen_deploy_data_content(path)) \
.build()
# Returns the signed transaction object having a signature
signed_transaction = SignedTransaction(transaction, key_wallet)
# send transaction
return self.icon_service.send_transaction(signed_transaction)
def _call(self,
to: str,
method: str,
params: dict = {}) -> Union[dict, str]:
call = CallBuilder() \
.from_(self.key_wallet.get_address()) \
.to(to) \
.method(method) \
.params(params) \
.build()
return self.icon_service.call(call)
def _tx(self,
key_wallet: 'KeyWallet',
to: str,
value: int = 0,
step_limit: int = DEFAULT_STEP_LIMIT,
nid: int = DEFAULT_NID,
nonce: int = 0) -> str:
transaction = TransactionBuilder() \
.from_(key_wallet.get_address()) \
.to(to) \
.value(value) \
.step_limit(step_limit) \
.nid(nid) \
.nonce(nonce) \
.build()
# Returns the signed transaction object having a signature
signed_transaction = SignedTransaction(transaction, key_wallet)
# Send transaction
return self.icon_service.send_transaction(signed_transaction)
def _call_tx(self,
key_wallet: 'KeyWallet',
to: str,
method: str,
params: dict = {},
value: int = 0,
step_limit: int = DEFAULT_STEP_LIMIT,
nid: int = DEFAULT_NID,
nonce: int = 0) -> str:
transaction = CallTransactionBuilder() \
.from_(key_wallet.get_address()) \
.to(to) \
.value(value) \
.step_limit(step_limit) \
.nid(nid) \
.nonce(nonce) \
.method(method) \
.params(params) \
.build()
# Returns the signed transaction object having a signature
signed_transaction = SignedTransaction(transaction, key_wallet)
# Send transaction
return self.icon_service.send_transaction(signed_transaction)
def _get_revision(self) -> dict:
try:
return self._call(to=GOVERNANCE_ADDRESS, method="getRevision")
except JSONRPCException:
return {"code": "0x0", "name": "0.0.0"}
def _register_proposal_tx(self,
key_wallet: 'KeyWallet',
title: str,
desc: str,
type: int,
value_dict: dict,
value: int = 0,
step_limit: int = DEFAULT_STEP_LIMIT,
nid: int = DEFAULT_NID,
nonce: int = 0) -> str:
params = {
"title": title,
"description": desc,
"type": hex(type),
"value": "0x" + bytes.hex(json.dumps(value_dict).encode())
}
return self._call_tx(key_wallet=key_wallet,
to=GOVERNANCE_ADDRESS,
method="registerProposal",
params=params,
value=value,
step_limit=step_limit,
nid=nid,
nonce=nonce)
def _vote_proposal_tx(self,
key_wallet: 'KeyWallet',
id_: str,
vote: int,
value: int = 0,
step_limit: int = DEFAULT_STEP_LIMIT,
nid: int = DEFAULT_NID,
nonce: int = 0) -> 'str':
params = {"id": id_, "vote": hex(vote)}
return self._call_tx(key_wallet=key_wallet,
to=GOVERNANCE_ADDRESS,
method="voteProposal",
params=params,
value=value,
step_limit=step_limit,
nid=nid,
nonce=nonce)
def _make_preps(self, preps: List[KeyWallet]):
print(f"#### make P-Reps")
delegate_value = self.icon_service.get_total_supply() * 2 // 1000
transfer_value = delegate_value + 3000 * ICX
for prep in preps:
# transfer ICX
tx_hash = self._tx(key_wallet=self.key_wallet,
to=prep.get_address(),
value=transfer_value)
debug_print(
f"transfer {transfer_value} to {prep.get_address()} tx_hash: {tx_hash}"
)
while True:
sleep(1)
balance = self.icon_service.get_balance(preps[0].get_address())
if balance >= transfer_value:
break
for prep in preps:
# register P-Rep
name = f"node{prep.get_address()}"
params = {
ConstantKeys.NAME: name,
ConstantKeys.COUNTRY: "KOR",
ConstantKeys.CITY: "Unknown",
ConstantKeys.EMAIL: f"{name}@example.com",
ConstantKeys.WEBSITE: f"https://{name}.example.com",
ConstantKeys.DETAILS: f"https://{name}.example.com/details",
ConstantKeys.P2P_ENDPOINT: f"{name}.example.com:7100",
}
tx_hash = self._call_tx(key_wallet=prep,
to=SYSTEM_ADDRESS,
value=2000 * ICX,
method="registerPRep",
params=params)
debug_print(f"register {prep.get_address()} tx_hash: {tx_hash}")
# stake
tx_hash = self._call_tx(key_wallet=prep,
to=SYSTEM_ADDRESS,
method="setStake",
params={"value": hex(delegate_value)})
debug_print(f"set stake {prep.get_address()} tx_hash: {tx_hash}")
# delegate
tx_hash = self._call_tx(key_wallet=prep,
to=SYSTEM_ADDRESS,
method="setDelegation",
params={
"delegations": [{
"address":
prep.get_address(),
"value":
hex(delegate_value)
}]
})
debug_print(f"delegate {prep.get_address()} tx_hash: {tx_hash}")
while True:
sleep(1)
response = self._call(to=SYSTEM_ADDRESS, method="getPReps")
if len(response.get("preps", 0)) > 0:
print(f"make 4 P-Reps")
for prep in preps:
address = prep.get_address()
resp = self._call(to=SYSTEM_ADDRESS,
method="getPRep",
params={"address": address})
print(
f" - {address}, delegated: {int(resp.get('delegated'), 16)//ICX:,} ICX"
)
print(self._call(to=SYSTEM_ADDRESS, method="getIISSInfo"))
break
def check_revision(self) -> int:
current_revision = int(self._get_revision().get("code"), 16)
latest_revision = self._get_latest_revision()
return current_revision - latest_revision
@staticmethod
def _get_latest_revision() -> int:
for cmd in reversed(sync_list):
if cmd.get("type") == SyncType.REVISION:
return int(cmd["params"]["code"], 16)
return 0
