def test_btcprivkey(self):
self.assertEqual([format(PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq").uncompressed.address, "BTC"),
format(PrivateKey("5Jete5oFNjjk3aUMkKuxgAXsp7ZyhgJbYNiNjHLvq5xzXkiqw7R").uncompressed.address, "BTC"),
format(PrivateKey("5KDT58ksNsVKjYShG4Ls5ZtredybSxzmKec8juj7CojZj6LPRF7").uncompressed.address, "BTC"),
],
["1G7qw8FiVfHEFrSt3tDi6YgfAdrDrEM44Z",
"12c7KAAZfpREaQZuvjC5EhpoN6si9vekqK",
"1Gu5191CVHmaoU3Zz3prept87jjnpFDrXL",
])
def test_create_account(self):
bts = Hive(node=self.nodelist.get_nodes(),
nobroadcast=True,
unsigned=True,
data_refresh_time_seconds=900,
keys={
"active": wif,
"owner": wif,
"memo": wif
},
num_retries=10)
core_unit = "STM"
name = ''.join(
random.choice(string.ascii_lowercase) for _ in range(12))
key1 = PrivateKey()
key2 = PrivateKey()
key3 = PrivateKey()
key4 = PrivateKey()
key5 = PrivateKey()
bts.txbuffer.clear()
tx = bts.create_account(
name,
creator="test", # 1.2.7
owner_key=format(key1.pubkey, core_unit),
active_key=format(key2.pubkey, core_unit),
posting_key=format(key3.pubkey, core_unit),
memo_key=format(key4.pubkey, core_unit),
additional_owner_keys=[format(key5.pubkey, core_unit)],
additional_active_keys=[format(key5.pubkey, core_unit)],
additional_posting_keys=[format(key5.pubkey, core_unit)],
additional_owner_accounts=["test1"], # 1.2.0
additional_active_accounts=["test2"],
additional_posting_accounts=["test3"],
storekeys=False,
)
self.assertEqual(tx["operations"][0][0], "account_create")
op = tx["operations"][0][1]
role = "active"
self.assertIn(format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn(format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn("test2", [x[0] for x in op[role]["account_auths"]])
role = "posting"
self.assertIn(format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn(format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn("test3", [x[0] for x in op[role]["account_auths"]])
role = "owner"
self.assertIn(format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn(format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn("test1", [x[0] for x in op[role]["account_auths"]])
self.assertEqual(op["creator"], "test")
def test_Privatekey_derive(self):
p1 = PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq")
p2 = PrivateKey("5Jete5oFNjjk3aUMkKuxgAXsp7ZyhgJbYNiNjHLvq5xzXkiqw7R")
self.assertEqual([format(p1.child(p2.get_secret()), "STM"),
format(p2.child(p1.get_secret()), "STM"),
format(p1.derive_private_key(0), "STM"),
format(p2.derive_private_key(56), "STM")],
["STMZiwJpC7MUmc9gn3vii3XS36nUceYEfKvFC1NLSrjB7ZRQJ7gt",
"STM24hzNSDZYgm9C85yxJqyk32DwjXg8pCgkGVzB77hvP2XxGDdvr",
"STM2e99iqVQUFij7Dk2nWVNC1dL8M86q37Nj4KwPHKBu1Yy49HkwA",
"STMgqaH9RdvUtVk7NFnx4BZJRrNS7Lj35qaueAeYJ3tKEqPaLwa4"])
def decrypt(self, memo):
""" Decrypt a memo
:param str memo: encrypted memo message
:returns: encrypted memo
:rtype: str
"""
if not memo:
return None
# We first try to decode assuming we received the memo
if isinstance(
memo,
dict) and "to" in memo and "from" in memo and "memo" in memo:
memo_to = Account(memo["to"], hive_instance=self.hive)
memo_from = Account(memo["from"], hive_instance=self.hive)
message = memo["memo"]
else:
memo_to = self.to_account
memo_from = self.from_account
message = memo
if isinstance(memo, dict) and "nonce" in memo:
nonce = memo.get("nonce")
else:
nonce = ""
try:
memo_wif = self.hive.wallet.getPrivateKeyForPublicKey(
memo_to["memo_key"])
pubkey = memo_from["memo_key"]
except MissingKeyError:
try:
# if that failed, we assume that we have sent the memo
memo_wif = self.hive.wallet.getPrivateKeyForPublicKey(
memo_from["memo_key"])
pubkey = memo_to["memo_key"]
except MissingKeyError:
# if all fails, raise exception
raise MissingKeyError(
"Non of the required memo keys are installed!"
"Need any of {}".format(
[memo_to["name"], memo_from["name"]]))
if not hasattr(self, 'chain_prefix'):
self.chain_prefix = self.hive.prefix
if message[0] == '#':
return BtsMemo.decode_memo(PrivateKey(memo_wif), message)
else:
return BtsMemo.decode_memo_bts(
PrivateKey(memo_wif),
PublicKey(pubkey, prefix=self.chain_prefix), nonce, message)
def test_btsprivkey(self):
self.assertEqual([format(PrivateKey("5HqUkGuo62BfcJU5vNhTXKJRXuUi9QSE6jp8C3uBJ2BVHtB8WSd").address, "BTS"),
format(PrivateKey("5JWcdkhL3w4RkVPcZMdJsjos22yB5cSkPExerktvKnRNZR5gx1S").address, "BTS"),
format(PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq").address, "BTS"),
format(PrivateKey("5Jete5oFNjjk3aUMkKuxgAXsp7ZyhgJbYNiNjHLvq5xzXkiqw7R").address, "BTS"),
format(PrivateKey("5KDT58ksNsVKjYShG4Ls5ZtredybSxzmKec8juj7CojZj6LPRF7").address, "BTS")
],
["BTSFN9r6VYzBK8EKtMewfNbfiGCr56pHDBFi",
"BTSdXrrTXimLb6TEt3nHnePwFmBT6Cck112",
"BTSJQUAt4gz4civ8gSs5srTK4r82F7HvpChk",
"BTSFPXXHXXGbyTBwdKoJaAPXRnhFNtTRS4EL",
"BTS3qXyZnjJneeAddgNDYNYXbF7ARZrRv5dr",
])
def test_shared_secrets_equal(self):
wifs = cycle([x[0] for x in test_shared_secrets])
for i in range(len(test_shared_secrets)):
sender_private_key = PrivateKey(next(wifs))
sender_public_key = sender_private_key.pubkey
receiver_private_key = PrivateKey(next(wifs))
receiver_public_key = receiver_private_key.pubkey
self.assertEqual(
get_shared_secret(sender_private_key, receiver_public_key),
get_shared_secret(receiver_private_key, sender_public_key))
def test_create_account(self):
bts = self.bts
name = ''.join(random.choice(string.ascii_lowercase) for _ in range(12))
key1 = PrivateKey()
key2 = PrivateKey()
key3 = PrivateKey()
key4 = PrivateKey()
key5 = PrivateKey()
tx = bts.create_account(
name,
creator="bhive",
owner_key=format(key1.pubkey, core_unit),
active_key=format(key2.pubkey, core_unit),
posting_key=format(key3.pubkey, core_unit),
memo_key=format(key4.pubkey, core_unit),
additional_owner_keys=[format(key5.pubkey, core_unit)],
additional_active_keys=[format(key5.pubkey, core_unit)],
additional_owner_accounts=["bhive1"], # 1.2.0
additional_active_accounts=["bhive1"],
storekeys=False
)
self.assertEqual(
tx["operations"][0][0],
"account_create"
)
op = tx["operations"][0][1]
role = "active"
self.assertIn(
format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn(
format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn(
"bhive1",
[x[0] for x in op[role]["account_auths"]])
role = "owner"
self.assertIn(
format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn(
format(key5.pubkey, core_unit),
[x[0] for x in op[role]["key_auths"]])
self.assertIn(
"bhive1",
[x[0] for x in op[role]["account_auths"]])
self.assertEqual(
op["creator"],
"bhive")
def test_encrypt(self):
for memo in test_cases:
enc = encode_memo(PrivateKey(memo["wif"]),
PublicKey(memo["to"], prefix="GPH"),
memo["nonce"],
memo["plain"],
prefix="GPH")
self.assertEqual(memo["message"], enc)
def encrypt_wif(self, wif):
""" Encrypt a wif key
"""
if self.locked():
raise AssertionError()
return format(
bip38.encrypt(PrivateKey(wif, prefix=self.prefix),
self.masterpassword), "encwif")
def encrypt(self, memo, bts_encrypt=False):
""" Encrypt a memo
:param str memo: clear text memo message
:returns: encrypted memo
:rtype: str
"""
if not memo:
return None
nonce = str(random.getrandbits(64))
memo_wif = self.hive.wallet.getPrivateKeyForPublicKey(
self.from_account["memo_key"])
if not memo_wif:
raise MissingKeyError("Memo key for %s missing!" %
self.from_account["name"])
if not hasattr(self, 'chain_prefix'):
self.chain_prefix = self.hive.prefix
if bts_encrypt:
enc = BtsMemo.encode_memo_bts(
PrivateKey(memo_wif),
PublicKey(self.to_account["memo_key"],
prefix=self.chain_prefix), nonce, memo)
return {
"message": enc,
"nonce": nonce,
"from": self.from_account["memo_key"],
"to": self.to_account["memo_key"]
}
else:
enc = BtsMemo.encode_memo(PrivateKey(memo_wif),
PublicKey(self.to_account["memo_key"],
prefix=self.chain_prefix),
nonce,
memo,
prefix=self.chain_prefix)
return {
"message": enc,
"from": self.from_account["memo_key"],
"to": self.to_account["memo_key"]
}
def test_wallet_keys(self):
hv = self.bts
hv.wallet.unlock("123")
priv_key = hv.wallet.getPrivateKeyForPublicKey(str(PrivateKey(self.posting_key, prefix=hv.prefix).pubkey))
self.assertEqual(str(priv_key), self.posting_key)
priv_key = hv.wallet.getKeyForAccount("bhive", "active")
self.assertEqual(str(priv_key), self.active_key)
priv_key = hv.wallet.getKeyForAccount("bhive1", "posting")
self.assertEqual(str(priv_key), self.posting_key1)
priv_key = hv.wallet.getPrivateKeyForPublicKey(str(PrivateKey(self.active_private_key_of_bhive4, prefix=hv.prefix).pubkey))
self.assertEqual(str(priv_key), self.active_private_key_of_bhive4)
priv_key = hv.wallet.getKeyForAccount("bhive4", "active")
self.assertEqual(str(priv_key), self.active_private_key_of_bhive4)
priv_key = hv.wallet.getPrivateKeyForPublicKey(str(PrivateKey(self.active_private_key_of_bhive5, prefix=hv.prefix).pubkey))
self.assertEqual(str(priv_key), self.active_private_key_of_bhive5)
priv_key = hv.wallet.getKeyForAccount("bhive5", "active")
self.assertEqual(str(priv_key), self.active_private_key_of_bhive5)
def doit(self, printWire=False, ops=None):
if ops is None:
ops = [Operation(self.op)]
tx = Signed_Transaction(ref_block_num=self.ref_block_num,
ref_block_prefix=self.ref_block_prefix,
expiration=self.expiration,
operations=ops)
tx = tx.sign([self.wif], chain=self.prefix)
tx.verify([PrivateKey(self.wif, prefix=u"STM").pubkey], self.prefix)
txWire = hexlify(py23_bytes(tx)).decode("ascii")
def _get_pub_from_wif(self, wif):
""" Get the pubkey as string, from the wif key as string
"""
# it could be either graphenebase or hive so we can't check
# the type directly
if isinstance(wif, PrivateKey):
wif = str(wif)
try:
return format(PrivateKey(wif).pubkey, self.prefix)
except:
raise InvalidWifError(
"Invalid Private Key Format. Please use WIF!")
def appendWif(self, wif):
""" Add a wif that should be used for signing of the transaction.
:param string wif: One wif key to use for signing
a transaction.
"""
if wif:
try:
PrivateKey(wif, prefix=self.hive.prefix)
self.wifs.add(wif)
except:
raise InvalidWifError
def doit(self, printWire=False, ops=None):
ops = [Operation(ops)]
tx = Signed_Transaction(ref_block_num=self.ref_block_num,
ref_block_prefix=self.ref_block_prefix,
expiration=self.expiration,
operations=ops)
start = timer()
tx = tx.sign([self.wif], chain=self.prefix)
end1 = timer()
tx.verify([PrivateKey(self.wif, prefix=u"STM").pubkey], self.prefix)
end2 = timer()
return end2 - end1, end1 - start
def decrypt_wif(self, encwif):
""" decrypt a wif key
"""
try:
# Try to decode as wif
PrivateKey(encwif, prefix=self.prefix)
return encwif
except (ValueError, AssertionError):
pass
if self.locked():
raise AssertionError()
return format(bip38.decrypt(encwif, self.masterpassword), "wif")
def test_encrypt(self):
self.assertEqual([
format(
encrypt(
PrivateKey(
"5HqUkGuo62BfcJU5vNhTXKJRXuUi9QSE6jp8C3uBJ2BVHtB8WSd"),
"TestingOneTwoThree"), "encwif"),
format(
encrypt(
PrivateKey(
"5KN7MzqK5wt2TP1fQCYyHBtDrXdJuXbUzm4A9rKAteGu3Qi5CVR"),
"TestingOneTwoThree"), "encwif"),
format(
encrypt(
PrivateKey(
"5HtasZ6ofTHP6HCwTqTkLDuLQisYPah7aUnSKfC7h4hMUVw2gi5"),
"Satoshi"), "encwif")
], [
"6PRN5mjUTtud6fUXbJXezfn6oABoSr6GSLjMbrGXRZxSUcxThxsUW8epQi",
"6PRVWUbkzzsbcVac2qwfssoUJAN1Xhrg6bNk8J7Nzm5H7kxEbn2Nh2ZoGg",
"6PRNFFkZc2NZ6dJqFfhRoFNMR9Lnyj7dYGrzdgXXVMXcxoKTePPX1dWByq"
])
def test_sign_message(self, module):
if module == "cryptography":
if not ecda.CRYPTOGRAPHY_AVAILABLE:
return
ecda.SECP256K1_MODULE = "cryptography"
elif module == "secp256k1":
if not ecda.SECP256K1_AVAILABLE:
return
ecda.SECP256K1_MODULE = "secp256k1"
else:
ecda.SECP256K1_MODULE = module
pub_key = py23_bytes(repr(PrivateKey(wif).pubkey), "latin")
signature = ecda.sign_message("Foobar", wif)
pub_key_sig = ecda.verify_message("Foobar", signature)
self.assertEqual(hexlify(pub_key_sig), pub_key)
def test_encrypt_decrypt(self):
base58 = u'#HU6pdQ4Hh8cFrDVooekRPVZu4BdrhAe9RxrWrei2CwfAApAPdM4PT5mSV9cV3tTuWKotYQF6suyM4JHFBZz4pcwyezPzuZ2na7uwhRcLqFotsqxWRBpaXkNks2QCnYLS8'
text = u'#爱'
nonce = u'1462976530069648'
wif = str(PasswordKey("", "", role="", prefix="STM").get_private_key())
private_key = PrivateKey(wif=wif, prefix="STM")
public_key = private_key.pubkey
cypertext = encode_memo(private_key,
public_key,
nonce,
text,
prefix="STM")
self.assertEqual(cypertext, base58)
plaintext = decode_memo(private_key, cypertext)
self.assertEqual(plaintext, text)
def test_Privatekey(self):
self.assertEqual([str(PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq")),
str(PrivateKey("5Jete5oFNjjk3aUMkKuxgAXsp7ZyhgJbYNiNjHLvq5xzXkiqw7R")),
str(PrivateKey("5KDT58ksNsVKjYShG4Ls5ZtredybSxzmKec8juj7CojZj6LPRF7")),
repr(PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq")),
repr(PrivateKey("5Jete5oFNjjk3aUMkKuxgAXsp7ZyhgJbYNiNjHLvq5xzXkiqw7R")),
repr(PrivateKey("5KDT58ksNsVKjYShG4Ls5ZtredybSxzmKec8juj7CojZj6LPRF7")),
],
["5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq",
"5Jete5oFNjjk3aUMkKuxgAXsp7ZyhgJbYNiNjHLvq5xzXkiqw7R",
"5KDT58ksNsVKjYShG4Ls5ZtredybSxzmKec8juj7CojZj6LPRF7",
'0e1bfc9024d1f55a7855dc690e45b2e089d2d825a4671a3c3c7e4ea4e74ec00e',
'6e5cc4653d46e690c709ed9e0570a2c75a286ad7c1bc69a648aae6855d919d3e',
'b84abd64d66ee1dd614230ebbe9d9c6d66d78d93927c395196666762e9ad69d8'
])
def test_calc_pub_key(self):
private_key = PrivateKey(key["private_key"])
public_key = private_key.pubkey
self.assertEqual(key["bts_address"], str(public_key.address))
def time_btsprivkey(self):
format(
PrivateKey(
"5HqUkGuo62BfcJU5vNhTXKJRXuUi9QSE6jp8C3uBJ2BVHtB8WSd").address,
"BTS")
def time_btcprivkey(self):
format(
PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq").
uncompressed.address, "BTC")
def time_Privatekey(self):
str(PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq"))
def test_shared_secret(self):
for s in test_shared_secrets:
priv = PrivateKey(s[0])
pub = PublicKey(s[1], prefix="GPH")
shared_secret = get_shared_secret(priv, pub)
self.assertEqual(s[2], shared_secret)
def test_decrypt(self):
for memo in test_cases:
dec = decode_memo(PrivateKey(memo["wif"]), memo["message"])
self.assertEqual(memo["plain"], dec)
def test_decrypt_bts(self):
for memo in test_cases:
dec = decode_memo_bts(PrivateKey(memo["wif"]),
PublicKey(memo["to"], prefix="GPH"),
memo["nonce"], memo["message_bts"])
self.assertEqual(memo["plain"], dec)
def test_Privatekey_pubkey(self):
self.assertEqual([format(PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq").pubkey, "STX"),
str(PrivateKey("5HvVz6XMx84aC5KaaBbwYrRLvWE46cH6zVnv4827SBPLorg76oq", prefix="STX").pubkey)],
["STX7W5qsanXHgRAZPijbrLMDwX6VmHqUdL2s8PZiYKD5h1R7JaqRJ",
"STX7W5qsanXHgRAZPijbrLMDwX6VmHqUdL2s8PZiYKD5h1R7JaqRJ"])
def test_public_from_private(self):
private_key = PrivateKey(key["private_key"])
public_key = private_key.get_public_key()
self.assertEqual(key["public_key"], str(public_key))
def test_to_wif(self):
private_key = PrivateKey(key["private_key"])
self.assertEqual(key["private_key_WIF_format"], str(private_key))
