python-trezor/bitkeylib/client.py

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import os
2012-11-15 10:42:19 +00:00
import bitkey_pb2 as proto
from transport_pipe import PipeTransport
def show_message(message):
print "MESSAGE FROM DEVICE:", message
def show_input(input_text, message=None):
if message:
print "QUESTION FROM DEVICE:", message
return raw_input(input_text)
class BitkeyClient(object):
def __init__(self, path, message_func=show_message, input_func=show_input, debug=False):
self.master_public_key = None
self.path = path
self.connected = False
self.device = None
self.message_func = message_func
self.input_func = input_func
self.debug = debug
def open(self):
self.device = PipeTransport(self.path, False)
self.features = self.call(proto.Initialize())
self.UUID = self.call(proto.GetUUID())
def close(self):
if self.device:
self.device.close()
self.device = None
def _pprint(self, msg):
return "<%s>:\n%s" % (msg.__class__.__name__, msg)
def call(self, msg, tries=3):
if self.debug:
print '----------------------'
print "Sending", self._pprint(msg)
self.device.write(msg)
resp = self.device.read()
if isinstance(resp, proto.OtpRequest):
otp = self.input_func("OTP required: ", resp.message)
self.device.write(proto.OtpAck(otp=otp))
resp = self.device.read()
if isinstance(resp, proto.PinRequest):
pin = self.input_func("PIN required: ", resp.message)
self.device.write(proto.PinAck(pin=pin))
resp = self.device.read()
if isinstance(resp, proto.Failure):
self.message_func(resp.message)
if resp.code == 3:
if tries <= 1:
raise Exception("OTP is invalid, too many retries")
self.message_func("OTP is invalid, let's try again...")
elif resp.code == 4:
raise Exception("Action cancelled by user")
elif resp.code == 6:
if tries <= 1:
raise Exception("PIN is invalid, too many retries")
self.message_func("PIN is invalid, let's try again...")
return self.call(msg, tries-1)
if isinstance(resp, proto.Failure):
raise Exception(resp.code, resp.message)
if self.debug:
print "Received", self._pprint(resp)
return resp
def sign_tx(self, algo, inputs, outputs, fee):
'''
inputs: list of TxInput
outputs: list of TxOutput
'''
tx = proto.SignTx()
tx.algo = algo # Choose BIP32 or ELECTRUM way for deterministic keys
tx.random = os.urandom(256) # Provide additional entropy to the device
for addr, amount in outputs:
if addr in self.addresses:
addr_n = self.addresses.index(addr)
else:
addr_n = None
fee -= amount
output = tx.outputs.add()
output.address=addr
output.address_n.append(addr_n)
output.amount=amount
output.script_type=proto.PAYTOADDRESS
print "FEE", fee
#print inputs2, outputs2
tx.fee = fee
print "PBDATA", tx.SerializeToString().encode('hex')
#################
#################
#################
signatures = [('add550d6ba9ab7e01d37e17658f98b6e901208d241f24b08197b5e20dfa7f29f095ae01acbfa5c4281704a64053dcb80e9b089ecbe09f5871d67725803e36edd', '3045022100dced96eeb43836bc95676879eac303eabf39802e513f4379a517475c259da12502201fd36c90ecd91a32b2ca8fed2e1755a7f2a89c2d520eb0da10147802bc7ca217')]
s_inputs = []
for i in range(len(inputs)):
addr, v, p_hash, p_pos, p_scriptPubKey, _, _ = inputs[i]
pubkey = signatures[i][0].decode('hex')
sig = signatures[i][1].decode('hex')
s_inputs.append((addr, v, p_hash, p_pos, p_scriptPubKey, pubkey, sig))
return s_inputs
'''
s_inputs = []
for i in range(len(inputs)):
addr, v, p_hash, p_pos, p_scriptPubKey, _, _ = inputs[i]
private_key = ecdsa.SigningKey.from_string( self.get_private_key(addr, password), curve = SECP256k1 )
public_key = private_key.get_verifying_key()
pubkey = public_key.to_string()
tx = filter( raw_tx( inputs, outputs, for_sig = i ) )
sig = private_key.sign_digest( Hash( tx.decode('hex') ), sigencode = ecdsa.util.sigencode_der )
assert public_key.verify_digest( sig, Hash( tx.decode('hex') ), sigdecode = ecdsa.util.sigdecode_der)
s_inputs.append( (addr, v, p_hash, p_pos, p_scriptPubKey, pubkey, sig) )
return s_inputs
'''