def opt_in(
algod_client: algod.AlgodClient,
user: Account,
nft_id: int,
):
nft_name = algod_client.asset_info(nft_id)['params']['name']
optin = ''
while not optin:
optin = str(
input(
f"Do you want to opt-in the {nft_name} (ID: {nft_id})? (Y/n) ")
)
print("")
if optin.lower() == 'y':
params = algod_client.suggested_params()
opt_in_txn = transaction.AssetOptInTxn(
sender=user.address,
sp=params,
index=nft_id,
)
return sign_send_wait(algod_client, user, opt_in_txn)
elif optin.lower() == 'n':
return
else:
optin = ''
def wait_for_confirmation(client: algod.AlgodClient,
transaction_id: str,
timeout: int = 100) -> Dict[str, str or int]:
"""
Check for when the transaction is confirmed by the network. Once confirmed, return
the transaction information.
:param client -> ``algod.AlgodClient``: an algorand client object.
:param transaction_id -> ``str``: id for the transaction.
"""
start_round = client.status()["last-round"] + 1
current_round = start_round
while current_round < start_round + timeout:
try:
pending_txn = client.pending_transaction_info(transaction_id)
except Exception:
return
if pending_txn.get("confirmed-round", 0) > 0:
return pending_txn
elif pending_txn["pool-error"]:
raise Exception('pool error: {}'.format(pending_txn["pool-error"]))
client.status_after_block(current_round)
current_round += 1
raise Exception(
'pending tx not found in timeout rounds, timeout value = : {}'.format(
timeout))
def sign_send_wait(algod_client: algod.AlgodClient, account: Account, txn):
"""Sign a transaction, submit it, and wait for its confirmation."""
signed_txn = sign(account, txn)
tx_id = signed_txn.transaction.get_txid()
algod_client.send_transactions([signed_txn])
wait_for_confirmation(algod_client, tx_id)
return algod_client.pending_transaction_info(tx_id)
def notify(algod_client: algod.AlgodClient, user: Account, seller: Account,
trade_gtxn: list):
params = algod_client.suggested_params()
note = {
'buy_order': 'AlgoRealm Special Card',
'asset_id': CARD_ID,
'algo_amount': trade_gtxn[2].transaction.amt / 10**6,
'algo_royalty': (trade_gtxn[3].amt + trade_gtxn[4].amt) / 10**6,
'last_valid_block': trade_gtxn[2].transaction.last_valid_round
}
bytes_note = msgpack.packb(note)
notification_txn = transaction.PaymentTxn(
sender=user.address,
sp=params,
receiver=seller.address,
amt=0,
note=bytes_note,
)
signed_txn = sign(user, notification_txn)
tx_id = signed_txn.transaction.get_txid()
print("āļø Sending buy order notification to the Seller...\n")
algod_client.send_transactions([signed_txn])
wait_for_confirmation(algod_client, tx_id)
print("\nš Buy order notification:\n"
"https://algoexplorer.io/tx/" + tx_id)
def check_from_algod(args):
global graceful_stop
token, addr = token_addr_from_args(args)
algod = AlgodClient(token, addr)
if args.genesis or args.algod:
gpath = args.genesis or os.path.join(args.algod, 'genesis.json')
getGenesisVars(gpath)
else:
process_genesis(algod.algod_request("GET", "/genesis"))
status = algod.status()
iloadstart = time.time()
indexer_headers = None
gtaddr = args.gtaddr
maxaddr = None
if args.shard:
minaddr, maxaddr = shard_bounds(args.shard)
if minaddr is not None:
gtaddr = algosdk.encoding.encode_address(minaddr)
if args.indexer_token:
indexer_headers = {'X-Indexer-API-Token': token}
lastlog = time.time()
i2a_checker = CheckContext(sys.stderr)
# for each account in indexer, get it from algod, and maybe re-get it from indexer at the round algod had
ia_queue = queue.Queue(maxsize=10)
threads = []
for i in range(args.threads):
t = threading.Thread(target=compare_thread, args=(ia_queue, i2a_checker, algod, args.indexer, indexer_headers))
t.start()
threads.append(t)
lastaddr = None
for indexer_account in indexerAccounts(args.indexer, addrlist=(args.accounts and args.accounts.split(',')), headers=indexer_headers, gtaddr=gtaddr):
lastaddr = indexer_account['address']
if maxaddr is not None:
la = algosdk.encoding.decode_address(lastaddr)
if la > maxaddr:
break
ia_queue.put(indexer_account)
if graceful_stop:
break
now = time.time()
if (now - lastlog) > 5:
with i2a_checker.lock:
logger.info('%d match, %d neq, through about %s', i2a_checker.match, i2a_checker.neq, lastaddr)
lastlog = now
for t in threads:
ia_queue.put(None) # signal end
for t in threads:
t.join()
if graceful_stop:
logger.info('last addr %s', lastaddr)
return i2a_checker
def check_from_algod(args):
gpath = args.genesis or os.path.join(args.algod, 'genesis.json')
getGenesisVars(gpath)
token, addr = token_addr_from_args(args)
algod = AlgodClient(token, addr)
status = algod.status()
#logger.debug('status %r', status)
iloadstart = time.time()
if args.indexer:
i2a = indexerAccounts(args.indexer,
addrlist=(args.accounts
and args.accounts.split(',')))
i2a_checker = CheckContext(i2a, sys.stderr)
else:
logger.warn('no indexer, nothing to do')
return None, None
iloadtime = time.time() - iloadstart
logger.info('loaded %d accounts from indexer in %.1f seconds, %.1f a/s',
len(i2a), iloadtime,
len(i2a) / iloadtime)
aloadstart = time.time()
rawad = []
for address in i2a.keys():
niceaddr = algosdk.encoding.encode_address(address)
rawad.append(algod.account_info(niceaddr))
aloadtime = time.time() - aloadstart
logger.info('loaded %d accounts from algod in %.1f seconds, %.1f a/s',
len(rawad), aloadtime,
len(rawad) / aloadtime)
lastlog = time.time()
count = 0
for ad in rawad:
niceaddr = ad['address']
# fetch indexer account at round algod got it at
na = indexerAccounts(args.indexer,
blockround=ad['round'],
addrlist=[niceaddr])
i2a.update(na)
microalgos = ad['amount-without-pending-rewards']
address = algosdk.encoding.decode_address(niceaddr)
i2a_checker.check(address, niceaddr, microalgos, ad.get('assets'),
ad.get('created-assets'), ad.get('created-apps'),
ad.get('apps-local-state'))
count += 1
now = time.time()
if (now - lastlog) > 5:
logger.info('%d accounts checked, %d mismatches', count,
len(i2a_checker.mismatches))
lastlog = now
return i2a_checker
def claim_nft(
algod_client: algod.AlgodClient,
indexer_client: indexer.IndexerClient,
claimer: Account,
claim_arg: str,
new_majesty: str,
donation_amount: int,
nft_id: int,
):
params = algod_client.suggested_params()
claim_txn = transaction.ApplicationNoOpTxn(
sender=claimer.address,
sp=params,
index=ALGOREALM_APP_ID,
app_args=[claim_arg.encode(), new_majesty.encode()])
donation_txn = transaction.PaymentTxn(
sender=claimer.address,
sp=params,
receiver=REWARDS_POOL,
amt=donation_amount,
)
nft_transfer = transaction.AssetTransferTxn(
sender=ALGOREALM_LAW.address,
sp=params,
receiver=claimer.address,
amt=1,
index=nft_id,
revocation_target=current_owner(indexer_client, nft_id),
)
signed_group = group_and_sign(
[claimer, claimer, ALGOREALM_LAW],
[claim_txn, donation_txn, nft_transfer],
)
nft_name = algod_client.asset_info(nft_id)['params']['name']
print(f"Claiming the {nft_name} as {new_majesty}, "
f"donating {donation_amount / 10 ** 6} ALGO...\n")
try:
gtxn_id = algod_client.send_transactions(signed_group)
wait_for_confirmation(algod_client, gtxn_id)
except AlgodHTTPError:
quit("\nā¹ļø Were you too stingy? Only generous hearts will rule over "
"Algorand Realm!\nļø")
def sign_and_send(transaction: str, passphrase: str,
client: algod.AlgodClient) -> Dict[str, str or int]:
"""
sign and send a transaction to the algorand network. Return the transaction
info when the transaction is completed.
:param transaction -> ``algosdk.transaction.AssetTransferTxn``: the transaction object.
:param passphrase -> ``str``: the public key for the user involved in the transaction.
:param client -> ``algod.AlgodClient``: an algorand client object.
"""
private_key = mnemonic.to_private_key(passphrase)
signed_transaction = transaction.sign(private_key)
transaction_id = signed_transaction.transaction.get_txid()
client.send_transaction(signed_transaction,
headers={'content-type': 'application/x-binary'})
transaction_info = wait_for_confirmation(client, transaction_id)
return transaction_info
def order_summary(algod_client: algod.AlgodClient, trade_gtxn: list):
current_round = algod_client.status()["last-round"]
last_valid_round = trade_gtxn[2].transaction.last_valid_round
remaning_rounds = last_valid_round - current_round
if remaning_rounds <= 0:
remaning_rounds = 'Buy order expired!'
return f"""
def wait_for_confirmation(client: algod.AlgodClient, txid: str):
"""
Utility function to wait until the transaction is confirmed before
proceeding.
"""
last_round = client.status().get("last-round")
txinfo = client.pending_transaction_info(txid)
while not txinfo.get("confirmed-round", -1) > 0:
print(f"Waiting for transaction {txid} confirmation.")
last_round += 1
client.status_after_block(last_round)
txinfo = client.pending_transaction_info(txid)
print(
f"Transaction {txid} confirmed in round {txinfo.get('confirmed-round')}."
)
return txinfo
def algod(self):
"return an open algosdk.v2client.algod.AlgodClient"
if self._algod is None:
if self.algorand_data:
token, addr = token_addr_from_algod(self.algorand_data)
else:
token = self.token
addr = self.addr
self._algod = AlgodClient(token, addr, headers=self.headers)
return self._algod
def claim_card(algod_client: algod.AlgodClient, claimer: Account):
params = algod_client.suggested_params()
proof_crown_ownership = proof_asa_amount_eq_txn(
algod_client=algod_client,
sender=claimer,
asa_id=CROWN_ID,
asa_amount=1,
)
proof_sceptre_ownership = proof_asa_amount_eq_txn(
algod_client=algod_client,
sender=claimer,
asa_id=SCEPTRE_ID,
asa_amount=1,
)
nft_card_xfer = transaction.AssetTransferTxn(
sender=CARD_CONTRACT.address,
sp=params,
receiver=claimer.address,
amt=1,
index=CARD_ID,
revocation_target=CARD_CONTRACT.address,
)
signed_group = group_and_sign(
[claimer, claimer, CARD_CONTRACT],
[proof_crown_ownership, proof_sceptre_ownership, nft_card_xfer],
)
try:
gtxn_id = algod_client.send_transactions(signed_group)
wait_for_confirmation(algod_client, gtxn_id)
except AlgodHTTPError:
quit("\nOnly the generous heart of the Great Majesty of Algorand "
"can break the spell!\n"
"Conquer both the š Crown of Entropy and the šŖ Sceptre "
"of Proof first!\n")
def add_network_params(
client: algod.AlgodClient,
tx_data: Dict[str, str or int]) -> Dict[str, str or int]:
"""
Adds network-related parameters to supplied transaction data.
:param client -> ``algod.AlgodClient``: an algorand client object.
:param tx_data -> ``Dict[str, str or int]``: data for the transaction.
"""
params = client.suggested_params()
tx_data["first"] = params.first
tx_data["last"] = params.last
tx_data["gh"] = params.gh
tx_data["gen"] = params.gen
tx_data["fee"] = round(convert_algos_to_microalgo(.01))
tx_data["flat_fee"] = True
return tx_data
def proof_asa_amount_eq_txn(
algod_client: algod.AlgodClient,
sender: Account,
asa_id: int,
asa_amount: int,
):
params = algod_client.suggested_params()
proof_txn = transaction.ApplicationNoOpTxn(
sender=sender.address,
sp=params,
index=ASA_STATE_OBSERVER_APP_ID,
app_args=["AsaAmountEq".encode(), asa_amount],
foreign_assets=[asa_id],
accounts=[sender.address],
)
return proof_txn
def restart(self):
"""
This method restart the application from the point when it tries to connect to a node to display wallets.
This method can also be used to do the first start.
This is done by deleting any existing WalletFrame and creating a new one.
This method also makes sure that new settings are refreshed into new rest endpoints.
"""
# This will be enabled in the future when it can be called. (i.e.: there exists at least one wallet)
self.menuAction_NewTransaction.setEnabled(False)
if self.queuedWidget.count() >= 1:
self.queuedWidget.clear_queue()
endpoints = SettingsWindow.calculate_rest_endpoints()
# TODO: Check that those settings actually point to an online daemon.
if "kmd" in endpoints:
self.kmd_client = KMDClient(
endpoints["kmd"]["token"],
endpoints["kmd"]["address"]
)
if "algod" in endpoints:
self.algod_client = AlgodClient(
endpoints["algod"]["token"],
endpoints["algod"]["address"]
)
if "indexer" in endpoints:
self.indexer_client = IndexerClient(
endpoints["indexer"]["token"],
endpoints["indexer"]["address"]
)
if self.kmd_client:
try:
self.kmd_client.versions()
except Exception:
QtWidgets.QMessageBox.critical(self, "kmd settings", "Please check kmd settings.\n"
"Kmd daemon could be offline.")
else:
self.queuedWidget.add_widget(
WalletsFrame(self, self.kmd_client, self.algod_client, self.indexer_client)
)
else:
QtWidgets.QMessageBox.critical(self, "kmd settings", "kmd settings not found.")
def sell_card(algod_client: algod.AlgodClient, user: Account):
trade_gtxn = transaction.retrieve_from_file('trade_raw.gtxn')
signed_crown_proof = trade_gtxn[0].sign(user.private_key)
signed_sceptre_proof = trade_gtxn[1].sign(user.private_key)
signed_royalty_1 = trade_gtxn[3].sign(user.private_key)
signed_royalty_2 = trade_gtxn[4].sign(user.private_key)
trade_gtxn[0] = signed_crown_proof
trade_gtxn[1] = signed_sceptre_proof
trade_gtxn[3] = signed_royalty_1
trade_gtxn[4] = signed_royalty_2
print(f"š¤ Selling the AlgoRealm Special Card for "
f"{trade_gtxn[2].transaction.amt / 10 ** 6} ALGO:\n")
try:
gtxn_id = algod_client.send_transactions(trade_gtxn)
except AlgodHTTPError:
quit("You must hold the š Crown and the šŖ Scepter to sell the Card!\n")
else:
return wait_for_confirmation(algod_client, gtxn_id)
def card_order(
algod_client: algod.AlgodClient,
buyer: Account,
seller: Account,
price: int,
):
params = algod_client.suggested_params()
proof_crown_ownership = proof_asa_amount_eq_txn(
algod_client=algod_client,
sender=seller,
asa_id=CROWN_ID,
asa_amount=1,
)
proof_sceptre_ownership = proof_asa_amount_eq_txn(
algod_client=algod_client,
sender=seller,
asa_id=SCEPTRE_ID,
asa_amount=1,
)
nft_card_payment = transaction.PaymentTxn(
sender=buyer.address,
sp=params,
receiver=seller.address,
amt=price,
)
royalty_amount = math.ceil(price * ROYALTY_PERC / 100)
royalty_1_payment = transaction.PaymentTxn(
sender=seller.address,
sp=params,
receiver=ROYALTY_COLLECTOR_1.address,
amt=royalty_amount,
)
royalty_2_payment = transaction.PaymentTxn(
sender=seller.address,
sp=params,
receiver=ROYALTY_COLLECTOR_2.address,
amt=royalty_amount,
)
nft_card_xfer = transaction.AssetTransferTxn(
sender=CARD_CONTRACT.address,
sp=params,
receiver=buyer.address,
amt=1,
index=CARD_ID,
revocation_target=seller.address,
)
trade_gtxn = [
proof_crown_ownership, proof_sceptre_ownership, nft_card_payment,
royalty_1_payment, royalty_2_payment, nft_card_xfer
]
transaction.assign_group_id(trade_gtxn)
signed_nft_card_payment = trade_gtxn[2].sign(buyer.private_key)
trade_gtxn[2] = signed_nft_card_payment
trade_gtxn[5] = transaction.LogicSigTransaction(trade_gtxn[5],
CARD_CONTRACT.lsig)
transaction.write_to_file(trade_gtxn, 'trade_raw.gtxn', overwrite=True)
print(
"š Partially signed trade group transaction saved as: 'trade.gtxn'\n")
return trade_gtxn