def test_decrypt_private_key(self):
master_key = MasterKey(crypted_key=decodehexstr("be4afa6923ad06790b0f8c3345131499cf2b149ca422bd11a7e67a76347c51a456a2d626f75da1ff809632fca7165d71"),
salt=decodehexstr("8cdcbd8a494b0eeb"),
derivation_method=MasterKey.DERIVMETHOD_EVP_SHA512,
derive_iterations=45193, other_derivation_parameters="")
#Decrypt the master crypted_key using the passphrase
plain_masterkey = decrypt_masterkey(master_key, "hello")
print "plain_masterkey:", hexstr(plain_masterkey)
assert hexstr(plain_masterkey) == "56722b42c4b9f8689fe9b38745fe75af92d0a50d6fd94b34de6b6d5e287bbed3"
#Decrypt a crypted_secret
public_key = decodehexstr("046a82d73af2cc093e3df7ae0185f045946970bcd5f0ef26f82d4f9a24e0d50f977c51e311e079e3183cfadd67d9b3f089fe7ba94a196c365fbd9e03b8c423787d")
crypted_secret = decodehexstr("ff914ab69f58af92ac56de85051441e729cc51e11608d563e2a266ce3b8c59f573ed6a1828ff98fadb345890b6ed2626")
crypter2 = Crypter()
crypter2.set_key(plain_masterkey, doublesha256(public_key))
secret = crypter2.decrypt(crypted_secret)
print "secret:", hexstr(secret)
assert hexstr(secret) == "1c7552a9b755d29d081efd71f7811cc8ab2c9f2c634f489e6b45700711c8a304"
#Test the secret
k = KEY()
k.set_secret(secret)
assert k.get_pubkey() == public_key
sig1 = k.sign("sign something")
k2 = KEY()
k2.set_pubkey(public_key)
assert k2.verify("sign something", sig1) == 1
from coinpy.model.wallet.masterkey import MasterKey
from coinpy.tools.bitcoin.sha256 import doublesha256
from coinpy.tools.crypto.ecdsa.ecdsa_ssl import KEY
master_key = MasterKey(crypted_key=decodehexstr("be4afa6923ad06790b0f8c3345131499cf2b149ca422bd11a7e67a76347c51a456a2d626f75da1ff809632fca7165d71"),
salt=decodehexstr("8cdcbd8a494b0eeb"),
derivation_method=MasterKey.DERIVMETHOD_EVP_SHA512,
derive_iterations=45193, other_derivation_parameters="")
#Decrypt the master crypted_key using the passphrase
plain_masterkey = decrypt_masterkey(master_key, "hello")
#Decrypt a crypted_secret
public_key = decodehexstr("046a82d73af2cc093e3df7ae0185f045946970bcd5f0ef26f82d4f9a24e0d50f977c51e311e079e3183cfadd67d9b3f089fe7ba94a196c365fbd9e03b8c423787d")
crypted_secret = decodehexstr("ff914ab69f58af92ac56de85051441e729cc51e11608d563e2a266ce3b8c59f573ed6a1828ff98fadb345890b6ed2626")
crypter2 = Crypter()
crypter2.set_key(plain_masterkey, doublesha256(public_key))
secret = crypter2.decrypt(crypted_secret)
print hexstr(secret)
#Test the secret
k = KEY()
k.set_secret(secret)
sig = signature1 = k.sign("sign something")
k2 = KEY()
k2.set_pubkey(public_key)
print k2.verify("sign something", sig)
#Create a new masterkey
m = new_masterkey("hello hello")
print m
print hexstr(decrypt_masterkey(m, "hello hello" ))
),
salt=decodehexstr("8cdcbd8a494b0eeb"),
derivation_method=MasterKey.DERIVMETHOD_EVP_SHA512,
derive_iterations=45193,
other_derivation_parameters="")
#Decrypt the master crypted_key using the passphrase
plain_masterkey = decrypt_masterkey(master_key, "hello")
#Decrypt a crypted_secret
public_key = decodehexstr(
"046a82d73af2cc093e3df7ae0185f045946970bcd5f0ef26f82d4f9a24e0d50f977c51e311e079e3183cfadd67d9b3f089fe7ba94a196c365fbd9e03b8c423787d"
)
crypted_secret = decodehexstr(
"ff914ab69f58af92ac56de85051441e729cc51e11608d563e2a266ce3b8c59f573ed6a1828ff98fadb345890b6ed2626"
)
crypter2 = Crypter()
crypter2.set_key(plain_masterkey, doublesha256(public_key))
secret = crypter2.decrypt(crypted_secret)
print hexstr(secret)
#Test the secret
k = KEY()
k.set_secret(secret)
sig = signature1 = k.sign("sign something")
k2 = KEY()
k2.set_pubkey(public_key)
print k2.verify("sign something", sig)
#Create a new masterkey
m = new_masterkey("hello hello")
print m
print hexstr(decrypt_masterkey(m, "hello hello"))
def test_decrypt_private_key(self):
master_key = MasterKey(crypted_key=decodehexstr(
"be4afa6923ad06790b0f8c3345131499cf2b149ca422bd11a7e67a76347c51a456a2d626f75da1ff809632fca7165d71"
),
salt=decodehexstr("8cdcbd8a494b0eeb"),
derivation_method=MasterKey.
DERIVMETHOD_EVP_SHA512,
derive_iterations=45193,
other_derivation_parameters="")
#Decrypt the master crypted_key using the passphrase
plain_masterkey = decrypt_masterkey(master_key, "hello")
print "plain_masterkey:", hexstr(plain_masterkey)
assert hexstr(
plain_masterkey
) == "56722b42c4b9f8689fe9b38745fe75af92d0a50d6fd94b34de6b6d5e287bbed3"
#Decrypt a crypted_secret
public_key = decodehexstr(
"046a82d73af2cc093e3df7ae0185f045946970bcd5f0ef26f82d4f9a24e0d50f977c51e311e079e3183cfadd67d9b3f089fe7ba94a196c365fbd9e03b8c423787d"
)
crypted_secret = decodehexstr(
"ff914ab69f58af92ac56de85051441e729cc51e11608d563e2a266ce3b8c59f573ed6a1828ff98fadb345890b6ed2626"
)
crypter2 = Crypter()
crypter2.set_key(plain_masterkey, doublesha256(public_key))
secret = crypter2.decrypt(crypted_secret)
print "secret:", hexstr(secret)
assert hexstr(
secret
) == "1c7552a9b755d29d081efd71f7811cc8ab2c9f2c634f489e6b45700711c8a304"
#Test the secret
k = KEY()
k.set_secret(secret)
assert k.get_pubkey() == public_key
sig1 = k.sign("sign something")
k2 = KEY()
k2.set_pubkey(public_key)
assert k2.verify("sign something", sig1) == 1
