def balances(address):
result = {"BTC": get_btc_balance(address)}
balances = api("get_balances", {"filters": [("address", "==", address)]})
for balance in balances:
asset = balance["asset"]
balance = D(value_out(balance["quantity"], asset))
result[asset] = balance
return result
def wallet():
wallet = {"addresses": {}, "assets": {}}
def add_total(address, asset, quantity):
if quantity:
if address not in wallet["addresses"]:
wallet["addresses"][address] = {}
if asset not in wallet["assets"]:
wallet["assets"][asset] = 0
if asset not in wallet["addresses"][address]:
wallet["addresses"][address][asset] = 0
wallet["addresses"][address][asset] += quantity
wallet["assets"][asset] += quantity
for bunch in get_btc_balances():
address, btc_balance = bunch
add_total(address, "BTC", btc_balance)
balances = api("get_balances", {"filters": [("address", "==", address)]})
for balance in balances:
asset = balance["asset"]
balance = D(value_out(balance["quantity"], asset))
add_total(address, asset, balance)
return wallet
def asset(asset_name):
supply = api("get_supply", {"asset": asset_name})
asset_id = api("get_assets", {"filters": [("asset_name", "==", asset_name)]})[0]["asset_id"]
asset_info = {"asset": asset_name, "supply": D(value_out(supply, asset_name)), "asset_id": asset_id}
if asset_name in ["XCP", "BTC"]:
asset_info.update({"owner": None, "divisible": True, "locked": False, "description": "", "issuer": None})
else:
issuances = api(
"get_issuances",
{"filters": [("asset", "==", asset_name)], "status": "valid", "order_by": "tx_index", "order_dir": "DESC"},
)
if not issuances:
raise WalletError("Asset not found")
locked = False
for issuance in issuances:
if issuance["locked"]:
locked = True
issuance = issuances[0]
asset_info.update(
{
"owner": issuance["issuer"],
"divisible": bool(issuance["divisible"]),
"locked": locked,
"description": issuance["description"],
"issuer": issuance["issuer"],
}
)
asset_info["balance"] = 0
asset_info["addresses"] = {}
for bunch in get_btc_balances():
address, btc_balance = bunch
if asset_name == "BTC":
balance = btc_balance
else:
balances = api("get_balances", {"filters": [("address", "==", address), ("asset", "==", asset_name)]})
if balances:
balance = balances[0]
balance = D(value_out(balance["quantity"], asset_name))
else:
balance = 0
if balance:
asset_info["balance"] += balance
asset_info["addresses"][address] = balance
addresses = list(asset_info["addresses"].keys())
if asset_name != "BTC":
all_sends = api(
"get_sends",
{
"filters": [("source", "IN", addresses), ("destination", "IN", addresses)],
"filterop": "OR",
"status": "valid",
},
)
sends = []
for send in all_sends:
if send["asset"] == asset_name:
if send["source"] in addresses and send["destination"] in addresses:
tx_type = "in-wallet"
elif send["source"] in addresses:
tx_type = "send"
elif send["destination"] in addresses:
tx_type = "receive"
send["type"] = tx_type
send["quantity"] = D(value_out(send["quantity"], asset_name))
sends.append(send)
asset_info["sends"] = sends
return asset_info
def prepare_args(args, action):
# Convert.
args.fee_per_kb = int(args.fee_per_kb * config.UNIT)
args.regular_dust_size = int(args.regular_dust_size * config.UNIT)
args.multisig_dust_size = int(args.multisig_dust_size * config.UNIT)
args.op_return_value = int(args.op_return_value * config.UNIT)
# common
if args.fee:
args.fee = util.value_in(args.fee, config.BTC)
# send
if action == 'send':
args.quantity = util.value_in(args.quantity, args.asset)
# order
if action == 'order':
fee_required, fee_fraction_provided = D(args.fee_fraction_required), D(args.fee_fraction_provided)
give_quantity, get_quantity = D(args.give_quantity), D(args.get_quantity)
# Fee argument is either fee_required or fee_provided, as necessary.
if args.give_asset == config.BTC:
args.fee_required = 0
fee_fraction_provided = util.value_in(fee_fraction_provided, 'fraction')
args.fee_provided = round(D(fee_fraction_provided) * D(give_quantity) * D(config.UNIT))
print('Fee provided: {} {}'.format(util.value_out(args.fee_provided, config.BTC), config.BTC))
elif args.get_asset == config.BTC:
args.fee_provided = 0
fee_fraction_required = util.value_in(args.fee_fraction_required, 'fraction')
args.fee_required = round(D(fee_fraction_required) * D(get_quantity) * D(config.UNIT))
print('Fee required: {} {}'.format(util.value_out(args.fee_required, config.BTC), config.BTC))
else:
args.fee_required = 0
args.fee_provided = 0
args.give_quantity = util.value_in(give_quantity, args.give_asset)
args.get_quantity = util.value_in(get_quantity, args.get_asset)
# issuance
if action == 'issuance':
args.quantity = util.value_in(args.quantity, None, divisible=args.divisible)
# broadcast
if action == 'broadcast':
args.value = util.value_in(args.value, 'value')
args.fee_fraction = util.value_in(args.fee_fraction, 'fraction')
args.timestamp = int(time.time())
# bet
if action == 'bet':
args.deadline = calendar.timegm(dateutil.parser.parse(args.deadline).utctimetuple())
args.wager = util.value_in(args.wager, config.XCP)
args.counterwager = util.value_in(args.counterwager, config.XCP)
args.target_value = util.value_in(args.target_value, 'value')
args.leverage = util.value_in(args.leverage, 'leverage')
args.bet_type = BET_TYPE_ID[args.bet_type]
# dividend
if action == 'dividend':
args.quantity_per_unit = util.value_in(args.quantity_per_unit, config.XCP)
# burn
if action == 'burn':
args.quantity = util.value_in(args.quantity, config.BTC)
# execute
if action == 'execute':
args.value = util.value_in(args.value, 'XCP')
args.startgas = util.value_in(args.startgas, 'XCP')
# destroy
if action == 'destroy':
args.quantity = util.value_in(args.quantity, args.asset, 'input')
# RPS
if action == 'rps':
def generate_move_random_hash(move):
move = int(move).to_bytes(2, byteorder='big')
random_bin = os.urandom(16)
move_random_hash_bin = dhash(random_bin + move)
return binascii.hexlify(random_bin).decode('utf8'), binascii.hexlify(move_random_hash_bin).decode('utf8')
args.wager = util.value_in(args.wager, 'XCP')
random, move_random_hash = generate_move_random_hash(args.move)
setattr(args, 'move_random_hash', move_random_hash)
print('random: {}'.format(random))
print('move_random_hash: {}'.format(move_random_hash))
return args
