def __init__(self, model, config):
"""Create a deterministic wallet address manager given
a wallet <model> and a configuration <config>.
Note address manager configuration is in the key "hdwam".
"""
self.config = config
self.testnet = config.get('testnet', False)
self.model = model
self.addresses = []
# initialize the wallet manager if this is the first time
# this will generate a master key.
params = config.get('hdwam', None)
if params is None:
params = self.init_new_wallet()
# master key is stored in a separate config entry
self.master_key = config['hdw_master_key']
master = hashlib.sha512(self.master_key.decode('hex')).digest()
# initialize a BIP-0032 wallet
self.pycoin_wallet = Wallet(is_private=True,
is_test=self.testnet,
chain_code=master[32:],
secret_exponent_bytes=master[:32])
self.genesis_color_sets = params['genesis_color_sets']
self.color_set_states = params['color_set_states']
# import the genesis addresses
for i, color_desc_list in enumerate(self.genesis_color_sets):
addr = self.get_genesis_address(i)
addr.color_set = ColorSet(self.model, color_desc_list)
self.addresses.append(addr)
# now import the specific color addresses
for color_set_st in self.color_set_states:
color_desc_list = color_set_st['color_set']
max_index = color_set_st['max_index']
color_set = ColorSet(self.model, color_desc_list)
params = {
'testnet': self.testnet,
'pycoin_wallet': self.pycoin_wallet,
'color_set': color_set
}
for index in xrange(max_index + 1):
params['index'] = index
self.addresses.append(BIP0032AddressRecord(**params))
# import the one-off addresses from the config
for addr_params in config.get('addresses', []):
addr_params['testnet'] = self.testnet
addr_params['model'] = model
try:
address = LooseAddressRecord(**addr_params)
self.addresses.append(address)
except InvalidAddressError:
address_type = "Testnet" if self.testnet else "Bitcoin"
def private_key_iterator(pk):
try:
wallet = Wallet.from_wallet_key(pk)
return (w.secret_exponent for w in wallet.children(max_level=50, start_index=0))
except (encoding.EncodingError, TypeError):
try:
exp = encoding.wif_to_secret_exponent(pk)
return [exp]
except encoding.EncodingError:
sys.stderr.write('bad value: "%s"\n' % pk)
sys.exit(1)
def getnewaddress(self, seed=""):
if seed=="":
seed = os.urandom(64)
else:
seed = seed.encode("utf8")
entropy = bytearray(seed)
pycwallet = PycoinWallet.from_master_secret(bytes(entropy), is_test=False)
address = pycwallet.bitcoin_address()
secret_exponent = hex(pycwallet.secret_exponent)[2:].encode('utf8')
self.insertaddress(address, secret_exponent)
return address
def get_info_do(chain_path, source_key, entropy, testnet):
if(source_key == None and chain_path == None):
if(entropy == None):
return {'error': '"no_entropy"'}
else:
try: # Python 3
w = Wallet.from_master_secret(bytes(entropy, encoding='ascii'), is_test=testnet)
return {'result': wallet_to_json(w)}
except: # Python 2.7
w = Wallet.from_master_secret(bytes(entropy).encode('ascii'), is_test=testnet)
return {'result': wallet_to_json(w)}
elif(source_key == None):
return {'error': '"no_source_key"'}
else:
w = Wallet.from_wallet_key(source_key)
if(chain_path == None):
return {'result': wallet_to_json(w)}
else:
return {'result': wallet_to_json(w.subkey_for_path(chain_path))}
return {'error': '"unexpected (chain_path: "' + chain_path + '"; source_key: "' + source_key + '")"'}
def private_key_iterator(pk):
try:
wallet = Wallet.from_wallet_key(pk)
return (w.secret_exponent for w in wallet.children(max_level=50, start_index=0))
except (encoding.EncodingError, TypeError):
try:
exp = encoding.wif_to_secret_exponent(pk)
return [exp]
except encoding.EncodingError:
sys.stderr.write('bad value: "%s"\n' % pk)
sys.exit(1)
def getnewaddress(self, seed=""):
if seed == "":
seed = os.urandom(64)
else:
seed = seed.encode("utf8")
entropy = bytearray(seed)
pycwallet = PycoinWallet.from_master_secret(bytes(entropy),
is_test=False)
address = pycwallet.bitcoin_address()
secret_exponent = hex(pycwallet.secret_exponent)[2:].encode('utf8')
self.insertaddress(address, secret_exponent)
return address
def get_new_address(wallet_num):
passphrase = sha256(b"%s" % random.randint(0, 2 ** 30)).hexdigest()
wallet = Wallet.from_master_secret(passphrase)
ret = dump_node(wallet)
children = []
# Now build up some random paths
# Just go five deep
path = "m"
for depth in range(5):
child_number = random.randint(0, 0x80000000)
path = "%s/%s" % (path, child_number)
prime = random.choice([True, False])
if prime:
path += "'"
children.append({"path": path, "child": dump_node(wallet.subkey_for_path(path[2:]))})
ret["children"] = children
return ret
def get_new_address(wallet_num):
passphrase = sha256(b"%s" % random.randint(0, 2**30)).hexdigest()
wallet = Wallet.from_master_secret(passphrase)
ret = dump_node(wallet)
children = []
# Now build up some random paths
# Just go five deep
path = "m"
for depth in range(5):
child_number = random.randint(0, 0x80000000)
path = "%s/%s" % (path, child_number)
prime = random.choice([True, False])
if prime:
path += "'"
children.append(
{"path": path,
"child": dump_node(wallet.subkey_for_path(path[2:]))})
ret['children'] = children
return ret
def main():
parser = argparse.ArgumentParser(description="Generate a private wallet key.")
parser.add_argument('-a', "--address", help='show as Bitcoin address', action='store_true')
parser.add_argument('-i', "--info", help='show metadata', action='store_true')
parser.add_argument('-j', "--json", help='output metadata as JSON', action='store_true')
parser.add_argument('-w', "--wif", help='show as Bitcoin WIF', action='store_true')
parser.add_argument('-f', "--wallet-key-file", help='initial wallet key', type=argparse.FileType('r'))
parser.add_argument('-k', "--wallet-key", help='initial wallet key')
parser.add_argument('-g', "--gpg", help='use gpg --gen-random to get additional entropy', action='store_true')
parser.add_argument('-u', "--dev-random", help='use /dev/random to get additional entropy', action='store_true')
parser.add_argument('-n', "--uncompressed", help='show in uncompressed form', action='store_true')
parser.add_argument('-p', help='generate wallet key from passphrase. NOT RECOMMENDED', metavar='passphrase')
parser.add_argument('-s', "--subkey", help='subkey path (example: 0p/2/1)')
parser.add_argument('-t', help='generate test key', action="store_true")
parser.add_argument('inputfile', help='source of entropy. stdin by default', type=argparse.FileType(mode='r+b'), nargs='?')
args = parser.parse_args()
# args.inputfile doesn't like binary when "-" is passed in. Deal with this.
if args.inputfile == sys.stdin:
args.inputfile = sys.stdin.buffer
entropy = bytearray()
if args.gpg:
entropy.extend(gpg_entropy())
if args.dev_random:
entropy.extend(dev_random_entropy())
if args.inputfile:
entropy.extend(args.inputfile.read())
if args.p:
entropy.extend(args.p.encode("utf8"))
if len(entropy) == 0 and not args.wallet_key and not args.wallet_key_file:
parser.error("you must specify at least one source of entropy")
if args.wallet_key and len(entropy) > 0:
parser.error("don't specify both entropy and a wallet key")
if args.wallet_key_file:
wallet = Wallet.from_wallet_key(args.wallet_key_file.readline()[:-1])
elif args.wallet_key:
wallet = Wallet.from_wallet_key(args.wallet_key)
else:
wallet = Wallet.from_master_secret(bytes(entropy), is_test=args.t)
try:
if args.subkey:
wallet = wallet.subkey_for_path(args.subkey)
if args.json:
print("{")
print(' "wallet_key" : "%s",' % wallet.wallet_key(as_private=wallet.is_private))
if wallet.is_test:
print(' "network" : "test",')
else:
print(' "network" : "main",')
if wallet.is_private:
print(' "key" : "private",')
print(' "secret_exponent" : "%d",' % wallet.secret_exponent)
else:
print(' "key" : "public",')
print(' "public_pair_x": "%d",\n "public_pair_y" : "%d",' % wallet.public_pair)
print(' "tree_depth" : "%d",' % wallet.depth)
print(' "fingerprint" : "%s",' % b2h(wallet.fingerprint()))
print(' "parent_fingerprint" : "%s",' % b2h(wallet.parent_fingerprint))
if wallet.child_number >= 0x80000000:
wc = wallet.child_number - 0x80000000
child_index = "%dp (%d)" % (wc, wallet.child_number)
else:
child_index = "%d" % wallet.child_number
print(' "child_index": "%s",' % child_index)
print(' "chain_code": "%s",' % b2h(wallet.chain_code))
if wallet.is_private:
print(' "wif" : "%s",' % wallet.wif())
print(' "wif_uncompressed" : "%s",' % wallet.wif(compressed=False))
print(' "bitcoin_addr" : "%s",' % wallet.bitcoin_address())
print(' "bitcoin_addr_uncompressed": "%s"' % wallet.bitcoin_address(compressed=False))
print('}')
elif args.info:
print(wallet.wallet_key(as_private=wallet.is_private))
if wallet.is_test:
print("test network")
else:
print("main network")
if wallet.is_private:
print("private key")
print("secret exponent: %d" % wallet.secret_exponent)
else:
print("public key only")
print("public pair x: %d\npublic pair y: %d" % wallet.public_pair)
print("tree depth: %d" % wallet.depth)
print("fingerprint: %s" % b2h(wallet.fingerprint()))
print("parent f'print: %s" % b2h(wallet.parent_fingerprint))
if wallet.child_number >= 0x80000000:
wc = wallet.child_number - 0x80000000
child_index = "%dp (%d)" % (wc, wallet.child_number)
else:
child_index = "%d" % wallet.child_number
print("child index: %s" % child_index)
print("chain code: %s" % b2h(wallet.chain_code))
if wallet.is_private:
print("WIF: %s" % wallet.wif())
print(" uncompressed: %s" % wallet.wif(compressed=False))
print("Bitcoin address: %s" % wallet.bitcoin_address())
print(" uncompressed: %s" % wallet.bitcoin_address(compressed=False))
elif args.address:
print(wallet.bitcoin_address(compressed=not args.uncompressed))
elif args.wif:
print(wallet.wif(compressed=not args.uncompressed))
else:
print(wallet.wallet_key(as_private=wallet.is_private))
except PublicPrivateMismatchError as ex:
print(ex.args[0])
def wifPrivKeyToXpub(privKey): privWallet = Wallet.from_master_secret(privKey) return (privWallet.wallet_key(as_private=False), privWallet.wallet_key(as_private=True))
def genPrivateKeys(privKey, listOfPaths=[]):
privWallet = Wallet.from_wallet_key(privKey)
print '%5s | %s | %s' % ('path', 'wif', 'addr')
for path in listOfPaths:
print '%5s | %s | %s' % (path, privWallet.subkey_for_path(path).wif(), privWallet.subkey_for_path(path).bitcoin_address())
bitcoind = ServiceProxy(config["bitcoind_connection"])
# methodToCall = getattr(bitcoind, "getinfo")
# methodToCall()
chain_headers = leveldb.LevelDB('./chain_headers.db')
chain_data = leveldb.LevelDB('./chain_data.db')
LARGEST_POSSIBLE_SUBKEY = 2147483647
from pycoin.wallet import Wallet
print "Enter wallet passphrase:",
passphrase = raw_input()
my_prv = Wallet.from_master_secret(passphrase)
my_prv_key = my_prv.wallet_key(as_private=True)
my_pub_key = my_prv.wallet_key(as_private=False)
my_pub = Wallet.from_wallet_key(my_pub_key)
print "Master pub key", my_pub_key
try:
master_pub_key = chain_headers.Get("pub_key")
if master_pub_key != my_pub_key:
raise Exception("Error: db master pub key differs from input key.")
except KeyError:
chain_headers.Put('pub_key', my_pub_key)
try:
master_pub_key = chain_data.Get("pub_key")
if master_pub_key != my_pub_key:
try:
#print "Would kill %s" % file_path
if os.path.isfile(file_path):
os.unlink(file_path)
except Exception, e:
pass
j2_env = Environment(loader=FileSystemLoader(path), trim_blocks=True )
tmpl = j2_env.get_template('qrlayout.tmpl')
tmpl_vars = { "outrows":[], "savedir": savepath, "funding_amount": funding_amount }
row = []
coins_to = [] ###LEFT OFF HERE append the tuples ... satoshis,btcaddy (i think, see spend.py around line 39)
for i in range(code_count):
w = Wallet.from_master_secret(bytes(bytearray(open("/dev/urandom", "rb").read(64))))
wif = w.wif()
btc_addr = w.bitcoin_address()
coins_to.append((int(s_per_b*funding_amount), btc_addr))
print "Generating for version %s ... %s .. %s" % (i, wif, w.bitcoin_address())
qr = QRCode(border=0, box_size=10)
qr.add_data(wif)
im = qr.make_image(fit=True)
im.save('%s/%s.png'%(savepath, btc_addr ))
row.append({ 'address' : btc_addr })
if (((i+1) % code_per_row) == 0) or (i+1 == code_count):
#print "NEW ROW ... (i+1 = %s, len(row) = %s, code_count = %s ... %s and %s)"%(i+1, len(row), code_count, (((i+1) % len(row)) == 0), (i+1 == code_count))
def main():
parser = argparse.ArgumentParser(
description="Generate a private wallet key.")
parser.add_argument('-a',
"--address",
help='show as Bitcoin address',
action='store_true')
parser.add_argument('-i',
"--info",
help='show metadata',
action='store_true')
parser.add_argument('-w',
"--wif",
help='show as Bitcoin WIF',
action='store_true')
parser.add_argument('-f',
"--wallet-key-file",
help='initial wallet key',
type=argparse.FileType('r'))
parser.add_argument('-k', "--wallet-key", help='initial wallet key')
parser.add_argument('-g',
"--gpg",
help='use gpg --gen-random to get additional entropy',
action='store_true')
parser.add_argument('-u',
"--dev-random",
help='use /dev/urandom to get additional entropy',
action='store_true')
parser.add_argument('-n',
"--uncompressed",
help='show in uncompressed form',
action='store_true')
parser.add_argument(
'-p',
help='generate wallet key from passphrase. NOT RECOMMENDED',
metavar='passphrase')
parser.add_argument('-s', "--subkey", help='subkey path (example: 0p/2/1)')
parser.add_argument('-t', help='generate test key', action="store_true")
parser.add_argument('inputfile',
help='source of entropy. stdin by default',
type=argparse.FileType(mode='r+b'),
nargs='?')
args = parser.parse_args()
# args.inputfile doesn't like binary when "-" is passed in. Deal with this.
if args.inputfile == sys.stdin:
args.inputfile = sys.stdin.buffer
entropy = bytearray()
if args.gpg:
entropy.extend(gpg_entropy())
if args.dev_random:
entropy.extend(dev_random_entropy())
if args.inputfile:
entropy.extend(args.inputfile.read())
if args.p:
entropy.extend(args.p.encode("utf8"))
if len(entropy) == 0 and not args.wallet_key and not args.wallet_key_file:
parser.error("you must specify at least one source of entropy")
if args.wallet_key and len(entropy) > 0:
parser.error("don't specify both entropy and a wallet key")
if args.wallet_key_file:
wallet = Wallet.from_wallet_key(args.wallet_key_file.readline()[:-1])
elif args.wallet_key:
wallet = Wallet.from_wallet_key(args.wallet_key)
else:
wallet = Wallet.from_master_secret(bytes(entropy), is_test=args.t)
try:
if args.subkey:
wallet = wallet.subkey_for_path(args.subkey)
if args.info:
print(wallet.wallet_key(as_private=wallet.is_private))
if wallet.is_test:
print("test network")
else:
print("main network")
if wallet.is_private:
print("private key")
print("secret exponent: %d" % wallet.secret_exponent)
else:
print("public key only")
print("public pair x: %d\npublic pair y: %d" %
wallet.public_pair)
print("tree depth: %d" % wallet.depth)
print("fingerprint: %s" % b2h(wallet.fingerprint()))
print("parent f'print: %s" % b2h(wallet.parent_fingerprint))
if wallet.child_number >= 0x80000000:
wc = wallet.child_number - 0x80000000
child_index = "%dp (%d)" % (wc, wallet.child_number)
else:
child_index = "%d" % wallet.child_number
print("child index: %s" % child_index)
print("chain code: %s" % b2h(wallet.chain_code))
if wallet.is_private:
print("WIF: %s" % wallet.wif())
print(" uncompressed: %s" % wallet.wif(compressed=False))
print("Bitcoin address: %s" % wallet.bitcoin_address())
print(" uncompressed: %s" %
wallet.bitcoin_address(compressed=False))
elif args.address:
print(wallet.bitcoin_address(compressed=not args.uncompressed))
elif args.wif:
print(wallet.wif(compressed=not args.uncompressed))
else:
print(wallet.wallet_key(as_private=wallet.is_private))
except PublicPrivateMismatchError as ex:
print(ex.args[0])
def main():
parser = argparse.ArgumentParser(description="Generate a private wallet key.")
parser.add_argument("-a", "--address", help="show as Bitcoin address", action="store_true")
parser.add_argument("-i", "--info", help="show metadata", action="store_true")
parser.add_argument("-j", "--json", help="output metadata as JSON", action="store_true")
parser.add_argument("-w", "--wif", help="show as Bitcoin WIF", action="store_true")
parser.add_argument("-f", "--wallet-key-file", help="initial wallet key", type=argparse.FileType("r"))
parser.add_argument("-k", "--wallet-key", help="initial wallet key")
parser.add_argument("-g", "--gpg", help="use gpg --gen-random to get additional entropy", action="store_true")
parser.add_argument("-u", "--dev-random", help="use /dev/random to get additional entropy", action="store_true")
parser.add_argument("-n", "--uncompressed", help="show in uncompressed form", action="store_true")
parser.add_argument("-p", help="generate wallet key from passphrase. NOT RECOMMENDED", metavar="passphrase")
parser.add_argument("-s", "--subkey", help="subkey path (example: 0p/2/1)")
parser.add_argument("-t", help="generate test key", action="store_true")
parser.add_argument(
"inputfile", help="source of entropy. stdin by default", type=argparse.FileType(mode="r+b"), nargs="?"
)
args = parser.parse_args()
# args.inputfile doesn't like binary when "-" is passed in. Deal with this.
if args.inputfile == sys.stdin:
args.inputfile = sys.stdin.buffer
entropy = bytearray()
if args.gpg:
entropy.extend(gpg_entropy())
if args.dev_random:
entropy.extend(dev_random_entropy())
if args.inputfile:
entropy.extend(args.inputfile.read())
if args.p:
entropy.extend(args.p.encode("utf8"))
if len(entropy) == 0 and not args.wallet_key and not args.wallet_key_file:
parser.error("you must specify at least one source of entropy")
if args.wallet_key and len(entropy) > 0:
parser.error("don't specify both entropy and a wallet key")
if args.wallet_key_file:
wallet = Wallet.from_wallet_key(args.wallet_key_file.readline()[:-1])
elif args.wallet_key:
wallet = Wallet.from_wallet_key(args.wallet_key)
else:
wallet = Wallet.from_master_secret(bytes(entropy), is_test=args.t)
try:
if args.subkey:
wallet = wallet.subkey_for_path(args.subkey)
if wallet.child_number >= 0x80000000:
wc = wallet.child_number - 0x80000000
child_index = "%dp (%d)" % (wc, wallet.child_number)
else:
child_index = "%d" % wallet.child_number
if args.json:
d = dict(
wallet_key=wallet.wallet_key(as_private=wallet.is_private),
public_pair_x=wallet.public_pair[0],
public_pair_y=wallet.public_pair[1],
tree_depth=wallet.depth,
fingerprint=b2h(wallet.fingerprint()),
parent_fingerprint=b2h(wallet.parent_fingerprint),
child_index=child_index,
chain_code=b2h(wallet.chain_code),
bitcoin_addr=wallet.bitcoin_address(),
bitcoin_addr_uncompressed=wallet.bitcoin_address(compressed=False),
network="test" if wallet.is_test else "main",
)
if wallet.is_private:
d.update(
dict(
key="private",
secret_exponent=wallet.secret_exponent,
WIF=wallet.wif(),
WIF_uncompressed=wallet.wif(compressed=False),
)
)
else:
d.update(dict(key="public"))
print(json.dumps(d, indent=3))
elif args.info:
print(wallet.wallet_key(as_private=wallet.is_private))
if wallet.is_test:
print("test network")
else:
print("main network")
if wallet.is_private:
print("private key")
print("secret exponent: %d" % wallet.secret_exponent)
else:
print("public key only")
print("public pair x: %d\npublic pair y: %d" % wallet.public_pair)
print("tree depth: %d" % wallet.depth)
print("fingerprint: %s" % b2h(wallet.fingerprint()))
print("parent f'print: %s" % b2h(wallet.parent_fingerprint))
print("child index: %s" % child_index)
print("chain code: %s" % b2h(wallet.chain_code))
if wallet.is_private:
print("WIF: %s" % wallet.wif())
print(" uncompressed: %s" % wallet.wif(compressed=False))
print("Bitcoin address: %s" % wallet.bitcoin_address())
print(" uncompressed: %s" % wallet.bitcoin_address(compressed=False))
elif args.address:
print(wallet.bitcoin_address(compressed=not args.uncompressed))
elif args.wif:
print(wallet.wif(compressed=not args.uncompressed))
else:
print(wallet.wallet_key(as_private=wallet.is_private))
except PublicPrivateMismatchError as ex:
print(ex.args[0])
def PublicMasterFromSecretString(secretString):
return Wallet.from_master_secret(secretString).public_copy().wallet_key()
def AddressFromPublicMasterAndSubkeyPath(publicMaster, subkeyPath):
return Wallet.from_wallet_key(publicMaster).subkey_for_path(subkeyPath).bitcoin_address()
def generate_random_wallet():
entropy = bytearray(devrandom_entropy())
return Wallet.from_master_secret(bytes(entropy), is_test=False)
from datetime import datetime
from django.conf import settings
from pycoin.wallet import Wallet
# The first derivation is for the month
# Not used anymore, is always month 0 (more practical)
SUBKEY_ALL_MONTHS = Wallet.from_wallet_key(settings.DONATIONS_WALLET_KEY).subkey_for_path('0')
def donationsOrgSubKey(org_id):
return SUBKEY_ALL_MONTHS.subkey_for_path('%d' % org_id)
def donationsOrgAddress(org_id):
return SUBKEY_ALL_MONTHS.subkey_for_path('%d' % org_id).bitcoin_address()
def PrivKeyFromSecretStringAndSubkeyPath(secretString, subkeyPath):
return Wallet.from_master_secret(secretString).subkey_for_path(
subkeyPath).bitcoin_address()
def AddressFromPublicMasterAndSubkeyPath(publicMaster, subkeyPath):
return Wallet.from_wallet_key(publicMaster).subkey_for_path(
subkeyPath).bitcoin_address()
def PublicMasterFromSecretString(secretString):
return Wallet.from_master_secret(secretString).public_copy().wallet_key()
short_name='p')
gflags.MarkFlagAsRequired('password')
gflags.DEFINE_integer('timeout', 15,
u"Timeout for communication with RPC server, or zero to disable")
gflags.RegisterValidator('timeout',
lambda timeout: 0 <= timeout,
message=u"Valid timeout setting must be a positive number of seconds, or zero.")
gflags.DEFINE_boolean('testnet', False,
u"Change bitcoin addresses to use testnet prefixes.")
gflags.DEFINE_string('rootkey', None,
u"BIP-32 root derivation key.")
gflags.RegisterValidator('rootkey',
lambda rootkey: rootkey is not None and Wallet.from_wallet_key(rootkey).is_private,
message=u"Must provide private root derivation key.")
gflags.MarkFlagAsRequired('rootkey')
gflags.DEFINE_boolean('debug', False,
u"Print extra debugging information to stderr")
gflags.DEFINE_string('foundation_database', u"sqlite:///foundation.sqlite",
u"Connection string for Freicoin Foundation database")
gflags.DEFINE_string('fee', u"0.0001",
u"Minimum relay fee, per kB")
def _validate_fee(fee):
try:
mpd(fee); return True
except:
def PrivKeyFromSecretStringAndSubkeyPath(secretString, subkeyPath):
return Wallet.from_master_secret(secretString).subkey_for_path(subkeyPath).bitcoin_address()
#!/usr/bin/python ## CONFIG from config import * logfilename = config['logFilename'] pubKey = config['siteHDPubKey'] orgName = config['orgName'] DEBUG = False ## IMPORTS from pycoin.wallet import Wallet pubWallet = Wallet.from_wallet_key(pubKey) from flask import Flask from flask import request, render_template app = Flask(__name__) import logging log_handler = logging.FileHandler(logfilename) log_handler.setLevel(logging.WARNING) app.logger.addHandler(log_handler) from Crypto.Hash import SHA256 import time # DEBUG STUFF FOR PAYMENTS """ ## Payment stuff, should only record public key
def donationsSubKey():
return Wallet.from_wallet_key(settings.DONATIONS_WALLET_KEY)
bitcoind = ServiceProxy(config["bitcoind_connection"])
# methodToCall = getattr(bitcoind, "getinfo")
# methodToCall()
chain_headers = leveldb.LevelDB('./chain_headers.db')
chain_data = leveldb.LevelDB('./chain_data.db')
LARGEST_POSSIBLE_SUBKEY = 2147483647
from pycoin.wallet import Wallet
print "Enter wallet passphrase:",
passphrase = raw_input()
my_prv = Wallet.from_master_secret(passphrase)
my_prv_key = my_prv.wallet_key(as_private=True)
my_pub_key = my_prv.wallet_key(as_private=False)
my_pub = Wallet.from_wallet_key(my_pub_key)
print "Master pub key", my_pub_key
try:
master_pub_key = chain_headers.Get("pub_key")
if master_pub_key != my_pub_key:
raise Exception("Error: db master pub key differs from input key.")
except KeyError:
chain_headers.Put('pub_key', my_pub_key)
try:
master_pub_key = chain_data.Get("pub_key")
if master_pub_key != my_pub_key:
def generate_random_wallet():
entropy = bytearray(devrandom_entropy())
return Wallet.from_master_secret(bytes(entropy), is_test=False)
