def address_for_pay_to_script_wit(script, netcode=None):
if netcode is None:
netcode = get_current_netcode()
bech32_hrp = bech32_hrp_for_netcode(netcode)
address = segwit_addr.encode(bech32_hrp, 0,
iterbytes(hashlib.sha256(script).digest()))
return address
def address(self, netcode=None):
from pycoin_grs.networks import pay_to_script_prefix_for_netcode
from pycoin_grs.networks.default import get_current_netcode
if netcode is None:
netcode = get_current_netcode()
address_prefix = pay_to_script_prefix_for_netcode(netcode)
return encoding.hash160_sec_to_bitcoin_address(
self.hash160, address_prefix=address_prefix)
def provider_for_descriptor_and_netcode(descriptor, netcode=None):
if netcode is None:
netcode = get_current_netcode()
for cre, f in DESCRIPTOR_CRE_INIT_TUPLES:
m = cre.match(descriptor)
if m:
return f(m, netcode)
return None
def get_default_providers_for_netcode(netcode=None):
if netcode is None:
netcode = get_current_netcode()
if not hasattr(THREAD_LOCALS, "providers"):
THREAD_LOCALS.providers = {}
if netcode not in THREAD_LOCALS.providers:
THREAD_LOCALS.providers[netcode] = providers_for_netcode_from_env(netcode)
return THREAD_LOCALS.providers[netcode]
def address_for_pay_to_script(script, netcode=None):
if netcode is None:
netcode = get_current_netcode()
address_prefix = pay_to_script_prefix_for_netcode(netcode)
if address_prefix:
return encoding.hash160_sec_to_bitcoin_address(
encoding.hash160(script), address_prefix=address_prefix)
return None
def __init__(self, secret_exponent=None, public_pair=None, hash160=None,
prefer_uncompressed=None, is_compressed=None, is_pay_to_script=False, netcode=None):
"""
secret_exponent:
a long representing the secret exponent
public_pair:
a tuple of long integers on the ecdsa curve
hash160:
a hash160 value corresponding to a bitcoin address
Include at most one of secret_exponent, public_pair or hash160.
prefer_uncompressed:
whether or not to produce text outputs as compressed or uncompressed.
is_pay_to_script:
whether or not this key is for a pay-to-script style transaction
netcode:
the code for the network (as defined in pycoin_grs.networks)
Include at most one of secret_exponent, public_pair or hash160.
prefer_uncompressed, is_compressed (booleans) are optional.
"""
if is_compressed is None:
is_compressed = False if hash160 else True
if netcode is None:
netcode = get_current_netcode()
if [secret_exponent, public_pair, hash160].count(None) != 2:
raise ValueError("exactly one of secret_exponent, public_pair, hash160 must be passed.")
if prefer_uncompressed is None:
prefer_uncompressed = not is_compressed
self._prefer_uncompressed = prefer_uncompressed
self._secret_exponent = secret_exponent
self._public_pair = public_pair
self._hash160_uncompressed = None
self._hash160_compressed = None
if hash160:
if is_compressed:
self._hash160_compressed = hash160
else:
self._hash160_uncompressed = hash160
self._netcode = netcode
if self._public_pair is None and self._secret_exponent is not None:
if self._secret_exponent < 1 \
or self._secret_exponent >= ecdsa.generator_secp256k1.order():
raise InvalidSecretExponentError()
public_pair = ecdsa.public_pair_for_secret_exponent(
ecdsa.generator_secp256k1, self._secret_exponent)
self._public_pair = public_pair
if self._public_pair is not None \
and (None in self._public_pair or
not ecdsa.is_public_pair_valid(ecdsa.generator_secp256k1, self._public_pair)):
raise InvalidPublicPairError()
def address_f(netcode=netcode):
from pycoin_grs.networks import address_prefix_for_netcode
from pycoin_grs.networks.default import get_current_netcode
if netcode is None:
netcode = get_current_netcode()
address_prefix = address_prefix_for_netcode(netcode)
address = encoding.hash160_sec_to_bitcoin_address(
self.hash160, address_prefix=address_prefix)
return address
def __init__(self, netcode=None):
NETWORK_PATHS = {
"BTC": "BTC",
"XTN": "BTCTEST",
"DOGE": "DOGE",
"XDT": "DOGETEST",
}
if netcode is None:
netcode = get_current_netcode()
self.network_path = NETWORK_PATHS.get(netcode)
def address_f(netcode=netcode):
from pycoin_grs.networks import bech32_hrp_for_netcode
from pycoin_grs.networks.default import get_current_netcode
if netcode is None:
netcode = get_current_netcode()
bech32_hrp = bech32_hrp_for_netcode(netcode)
address = segwit_addr.encode(bech32_hrp, self.version,
self.hash256)
return address
def __init__(self, api_key="", netcode=None):
NETWORK_PATHS = {
"BTC": "main",
"XTN": "test3"
}
if netcode is None:
netcode = get_current_netcode()
self.network_path = NETWORK_PATHS.get(netcode)
self.api_key = api_key
def address_f(netcode=netcode):
from pycoin_grs.networks import bech32_hrp_for_netcode
from pycoin_grs.networks.default import get_current_netcode
if netcode is None:
netcode = get_current_netcode()
bech32_hrp = bech32_hrp_for_netcode(netcode)
if bech32_hrp:
return segwit_addr.encode(bech32_hrp, self.version,
iterbytes(self.hash160))
return None
def addresses_f(self, netcode=None):
from pycoin_grs.networks import address_prefix_for_netcode
from pycoin_grs.networks.default import get_current_netcode
if netcode is None:
netcode = get_current_netcode()
address_prefix = address_prefix_for_netcode(netcode)
addresses = [
encoding.hash160_sec_to_bitcoin_address(
h1, address_prefix=address_prefix) for h1 in self.hash160s()
]
return addresses
def dump_block(block, netcode=None):
if netcode is None:
netcode = get_current_netcode()
blob = stream_to_bytes(block.stream)
print("%d bytes block hash %s" % (len(blob), block.id()))
print("version %d" % block.version)
print("prior block hash %s" % b2h_rev(block.previous_block_hash))
print("merkle root %s" % b2h(block.merkle_root))
print("timestamp %s" % datetime.datetime.utcfromtimestamp(block.timestamp).isoformat())
print("difficulty %d" % block.difficulty)
print("nonce %s" % block.nonce)
print("%d transaction%s" % (len(block.txs), "s" if len(block.txs) != 1 else ""))
for idx, tx in enumerate(block.txs):
print("Tx #%d:" % idx)
dump_tx(tx, netcode=netcode, verbose_signature=False, disassembly_level=0, do_trace=False, use_pdb=False)
def create_parser():
codes = network_codes()
parser = argparse.ArgumentParser(
description='Crypto coin utility ku ("key utility") to show'
' information about Bitcoin or other cryptocoin data structures.',
epilog=('Known networks codes:\n ' + ', '.join(
['%s (%s)' % (i, full_network_name_for_netcode(i))
for i in codes])))
parser.add_argument('-w',
"--wallet",
help='show just Bitcoin wallet key',
action='store_true')
parser.add_argument('-W',
"--wif",
help='show just Bitcoin WIF',
action='store_true')
parser.add_argument('-a',
"--address",
help='show just Bitcoin address',
action='store_true')
parser.add_argument('-u',
"--uncompressed",
help='show output in uncompressed form',
action='store_true')
parser.add_argument('-P',
"--public",
help='only show public version of wallet keys',
action='store_true')
parser.add_argument('-j',
"--json",
help='output as JSON',
action='store_true')
parser.add_argument('-s',
"--subkey",
help='subkey path (example: 0H/2/15-20)')
parser.add_argument('-n',
"--network",
help='specify network',
default=get_current_netcode(),
choices=codes)
parser.add_argument("--override-network",
help='override detected network type',
default=None,
choices=codes)
parser.add_argument(
'item',
nargs="+",
help='a BIP0032 wallet key string;'
' a WIF;'
' a bitcoin address;'
' an SEC (ie. a 66 hex chars starting with 02, 03 or a 130 hex chars starting with 04);'
' the literal string "create" to create a new wallet key using strong entropy sources;'
' P:wallet passphrase (NOT RECOMMENDED);'
' H:wallet passphrase in hex (NOT RECOMMENDED);'
' E:electrum value (either a master public, master private, or initial data);'
' secret_exponent (in decimal or hex);'
' x,y where x,y form a public pair (y is a number or one of the strings "even" or "odd");'
' hash160 (as 40 hex characters)')
return parser
def __init__(self, base_url="https://insight.bitpay.com", netcode=None):
if netcode is None:
netcode = get_current_netcode()
while base_url[-1] == '/':
base_url = base_url[:-1]
self.base_url = base_url
def create_parser():
codes = network_codes()
EPILOG = (
'Files are binary by default unless they end with the suffix ".hex". '
+ 'Known networks codes:\n ' + ', '.join(
['%s (%s)' % (i, full_network_name_for_netcode(i))
for i in codes]))
parser = argparse.ArgumentParser(
description="Manipulate bitcoin (or alt coin) transactions.",
epilog=EPILOG)
parser.add_argument(
'-t',
"--transaction-version",
type=range_int(0, 255, "version"),
help='Transaction version, either 1 (default) or 3 (not yet supported).'
)
parser.add_argument(
'-l',
"--lock-time",
type=parse_locktime,
help='Lock time; either a block'
'index, or a date/time (example: "2014-01-01T15:00:00"')
parser.add_argument(
'-n',
"--network",
default=get_current_netcode(),
choices=codes,
help='Define network code (BTC=Bitcoin mainnet, XTN=Bitcoin testnet).')
parser.add_argument(
'-a',
"--augment",
action='store_true',
help='augment tx by adding any missing spendable metadata by fetching'
' inputs from cache and/or web services')
parser.add_argument('-s',
"--verbose-signature",
action='store_true',
help='Display technical signature details.')
parser.add_argument(
"-i",
"--fetch-spendables",
metavar="address",
action="append",
help=
'Add all unspent spendables for the given bitcoin address. This information'
' is fetched from web services. With no outputs, incoming spendables will be printed.'
)
parser.add_argument(
'-f',
"--private-key-file",
metavar="path-to-private-keys",
action="append",
default=[],
help=
'file containing WIF or BIP0032 private keys. If file name ends with .gpg, '
'"gpg -d" will be invoked automatically. File is read one line at a time, and if '
'the file contains only one WIF per line, it will also be scanned for a bitcoin '
'address, and any addresses found will be assumed to be public keys for the given'
' private key.',
type=argparse.FileType('r'))
parser.add_argument('-g',
"--gpg-argument",
help='argument to pass to gpg (besides -d).',
default='')
parser.add_argument("--remove-tx-in",
metavar="tx_in_index_to_delete",
action="append",
type=int,
help='remove a tx_in')
parser.add_argument("--remove-tx-out",
metavar="tx_out_index_to_delete",
action="append",
type=int,
help='remove a tx_out')
parser.add_argument(
'-F',
"--fee",
help='fee, in satoshis, to pay on transaction, or '
'"standard" to auto-calculate. This is only useful if the "split pool" '
'is used; otherwise, the fee is automatically set to the unclaimed funds.',
default="standard",
metavar="transaction-fee",
type=parse_fee)
parser.add_argument(
'-C',
"--cache",
help='force the resultant transaction into the transaction cache.'
' Mostly for testing.',
action='store_true'),
parser.add_argument(
"--db",
type=Tx.from_hex,
help='force the transaction expressed by the given hex '
'into a RAM-based transaction cache. Mostly for testing.',
action="append"),
parser.add_argument(
'-u',
"--show-unspents",
action='store_true',
help='show TxOut items for this transaction in Spendable form.')
parser.add_argument(
'-b',
"--bitcoind-url",
help=
'URL to bitcoind instance to validate against (http://user:pass@host:port).'
)
parser.add_argument(
'-o',
"--output-file",
metavar="path-to-output-file",
type=argparse.FileType('wb'),
help='file to write transaction to. This supresses most other output.')
parser.add_argument('-d',
"--disassemble",
action='store_true',
help='Disassemble scripts.')
parser.add_argument("--pdb",
action="store_true",
help='Enter PDB debugger on each script instruction.')
parser.add_argument("--trace", action='store_true', help='Trace scripts.')
parser.add_argument(
'-p',
"--pay-to-script",
metavar="pay-to-script",
action="append",
help='a hex version of a script required for a pay-to-script'
'input (a bitcoin address that starts with 3)')
parser.add_argument('-P',
"--pay-to-script-file",
metavar="pay-to-script-file",
nargs=1,
type=argparse.FileType('r'),
help='a file containing hex scripts '
'(one per line) corresponding to pay-to-script inputs')
parser.add_argument(
"argument",
nargs="*",
help='generic argument: can be a hex transaction id '
'(exactly 64 characters) to be fetched from cache or a web service;'
' a transaction as a hex string; a path name to a transaction to be loaded;'
' a spendable 4-tuple of the form tx_id/tx_out_idx/script_hex/satoshi_count '
'to be added to TxIn list; an address/satoshi_count to be added to the TxOut '
'list; an address to be added to the TxOut list and placed in the "split'
' pool".')
return parser
def address(self, netcode=None):
from pycoin_grs.networks.default import get_current_netcode
if netcode is None:
netcode = get_current_netcode()
return self.info().get("address_f", lambda n: "(unknown)")(netcode)