fix tx signing
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7dc69bbc56
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419c778fa3
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@ -171,12 +171,6 @@ class BIP32_Account(Account):
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K, K_compressed, chain = CKD_prime(K, chain, i)
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return K_compressed.encode('hex')
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def get_private_key(self, sequence, master_k):
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chain = self.c
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k = master_k
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for i in sequence:
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k, chain = CKD(k, chain, i)
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return SecretToASecret(k, True)
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def get_private_keys(self, sequence_list, seed):
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return [ self.get_private_key( sequence, seed) for sequence in sequence_list]
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@ -448,6 +448,11 @@ def bip32_public_derivation(c, K, branch, sequence):
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return c.encode('hex'), K.encode('hex'), cK.encode('hex')
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def bip32_private_key(sequence, k, chain):
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for i in sequence:
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k, chain = CKD(k, chain, i)
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return SecretToASecret(k, True)
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@ -588,61 +593,53 @@ class Transaction:
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def sign(self, private_keys):
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import deserialize
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is_complete = True
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for i in range(len(self.inputs)):
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txin = self.inputs[i]
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tx_for_sig = self.serialize( self.inputs, self.outputs, for_sig = i )
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txin_pk = private_keys.get( txin.get('address') )
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if not txin_pk:
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continue
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redeem_script = txin.get('redeemScript')
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if redeem_script:
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# 1 parse the redeem script
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num, redeem_pubkeys = deserialize.parse_redeemScript(redeem_script)
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self.inputs[i]["pubkeys"] = redeem_pubkeys
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txin["pubkeys"] = redeem_pubkeys
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# build list of public/private keys
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keypairs = {}
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for sec in private_keys.values():
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for sec in txin_pk:
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compressed = is_compressed(sec)
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pkey = regenerate_key(sec)
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pubkey = GetPubKey(pkey.pubkey, compressed)
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keypairs[ pubkey.encode('hex') ] = sec
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print "keypairs", keypairs
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print redeem_script, redeem_pubkeys
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# list of already existing signatures
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signatures = txin.get("signatures",[])
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print_error("signatures",signatures)
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for pubkey in redeem_pubkeys:
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# here we have compressed key.. it won't work
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#public_key = ecdsa.VerifyingKey.from_string(pubkey[2:].decode('hex'), curve = SECP256k1)
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#for s in signatures:
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# try:
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# public_key.verify_digest( s.decode('hex')[:-1], Hash( tx_for_sig.decode('hex') ), sigdecode = ecdsa.util.sigdecode_der)
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# break
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# except ecdsa.keys.BadSignatureError:
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# continue
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#else:
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if 1:
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# check if we have a key corresponding to the redeem script
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if pubkey in keypairs.keys():
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# add signature
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sec = keypairs[pubkey]
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compressed = is_compressed(sec)
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pkey = regenerate_key(sec)
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secexp = pkey.secret
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private_key = ecdsa.SigningKey.from_secret_exponent( secexp, curve = SECP256k1 )
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public_key = private_key.get_verifying_key()
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sig = private_key.sign_digest( Hash( tx_for_sig.decode('hex') ), sigencode = ecdsa.util.sigencode_der )
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assert public_key.verify_digest( sig, Hash( tx_for_sig.decode('hex') ), sigdecode = ecdsa.util.sigdecode_der)
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signatures.append( sig.encode('hex') )
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# check if we have a key corresponding to the redeem script
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if pubkey in keypairs.keys():
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# add signature
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sec = keypairs[pubkey]
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compressed = is_compressed(sec)
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pkey = regenerate_key(sec)
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secexp = pkey.secret
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private_key = ecdsa.SigningKey.from_secret_exponent( secexp, curve = SECP256k1 )
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public_key = private_key.get_verifying_key()
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sig = private_key.sign_digest( Hash( tx_for_sig.decode('hex') ), sigencode = ecdsa.util.sigencode_der )
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assert public_key.verify_digest( sig, Hash( tx_for_sig.decode('hex') ), sigdecode = ecdsa.util.sigdecode_der)
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signatures.append( sig.encode('hex') )
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# for p2sh, pubkeysig is a tuple (may be incomplete)
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self.inputs[i]["signatures"] = signatures
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print_error("signatures",signatures)
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self.is_complete = len(signatures) == num
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txin["signatures"] = signatures
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print_error("signatures", signatures)
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is_complete = is_complete and (len(signatures) == num)
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else:
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sec = private_keys[txin['address']]
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@ -656,9 +653,10 @@ class Transaction:
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sig = private_key.sign_digest( Hash( tx_for_sig.decode('hex') ), sigencode = ecdsa.util.sigencode_der )
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assert public_key.verify_digest( sig, Hash( tx_for_sig.decode('hex') ), sigdecode = ecdsa.util.sigdecode_der)
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self.inputs[i]["pubkeysig"] = [(pubkey, sig)]
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self.is_complete = True
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txin["pubkeysig"] = [(pubkey, sig)]
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is_complete = is_complete = True
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self.is_complete = is_complete
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self.raw = self.serialize( self.inputs, self.outputs )
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@ -325,26 +325,26 @@ class Wallet:
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def get_private_key(self, address, password):
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out = []
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if address in self.imported_keys.keys():
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return pw_decode( self.imported_keys[address], password )
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out.append( pw_decode( self.imported_keys[address], password ) )
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else:
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account, sequence = self.get_address_index(address)
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m = re.match("m/0'/(\d+)'", account)
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if m:
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num = int(m.group(1))
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master_k = self.get_master_private_key("m/0'/", password)
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master_c, _, _ = self.master_public_keys["m/0'/"]
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master_k, master_c = CKD(master_k, master_c, num + BIP32_PRIME)
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return self.accounts[account].get_private_key(sequence, master_k)
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m2 = re.match("m/1'/(\d+) & m/2'/(\d+)", account)
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if m2:
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num = int(m2.group(1))
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master_k = self.get_master_private_key("m/1'/", password)
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master_c, master_K, _ = self.master_public_keys["m/1'/"]
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master_k, master_c = CKD(master_k.decode('hex'), master_c.decode('hex'), num)
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return self.accounts[account].get_private_key(sequence, master_k)
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return
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# assert address == self.accounts[account].get_address(*sequence)
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l = account.split("&")
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for s in l:
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s = s.strip()
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m = re.match("(m/\d+'/)(\d+)", s)
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if m:
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root = m.group(1)
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if root not in self.master_private_keys.keys(): continue
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num = int(m.group(2))
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master_k = self.get_master_private_key(root, password)
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master_c, _, _ = self.master_public_keys[root]
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pk = bip32_private_key( (num,) + sequence, master_k.decode('hex'), master_c.decode('hex'))
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out.append(pk)
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return out
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def get_private_keys(self, addresses, password):
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@ -915,7 +915,7 @@ class Wallet:
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tx = Transaction.from_io(inputs, outputs)
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pk_addresses = []
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private_keys = {}
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for i in range(len(tx.inputs)):
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txin = tx.inputs[i]
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address = txin['address']
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@ -924,15 +924,16 @@ class Wallet:
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continue
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account, sequence = self.get_address_index(address)
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txin['KeyID'] = (account, 'BIP32', sequence) # used by the server to find the key
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redeemScript = self.accounts[account].redeem_script(sequence)
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if redeemScript: txin['redeemScript'] = redeemScript
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pk_addresses.append(address)
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# get all private keys at once.
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if self.seed:
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private_keys = self.get_private_keys(pk_addresses, password)
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print "private keys", private_keys
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tx.sign(private_keys)
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redeemScript = self.accounts[account].redeem_script(sequence)
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if redeemScript:
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txin['redeemScript'] = redeemScript
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assert address == self.accounts[account].get_address(*sequence)
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private_keys[address] = self.get_private_key(address, password)
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print_error( "private keys", private_keys )
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tx.sign(private_keys)
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for address, x in outputs:
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if address not in self.addressbook and not self.is_mine(address):
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