Ejemplo n.º 1
0
 def make_unsigned_transaction(self, amount, fee, all_inputs, outputs,
                               changes):
     "make unsigned transaction"
     dust = dust_threshold(self.network)
     coins = {}
     tx_inputs = []
     amounts = {}
     try:
         for player in all_inputs:
             inputs_coins = self.get_coins(all_inputs[player])
             # if there is no coins on input it terminates the process
             if inputs_coins:
                 coins[player] = inputs_coins
             else:
                 return None
     except:
         return None
     for player, pubkey_utxos in coins.items():
         amounts[player] = 0
         for pubkey, utxos in pubkey_utxos.items():
             for utxo in utxos:
                 utxo['type'] = 'p2pkh'
                 utxo['address'] = Address.from_pubkey(pubkey)
                 utxo['pubkeys'] = [pubkey]
                 utxo['x_pubkeys'] = [pubkey]
                 utxo['prevout_hash'] = utxo['tx_hash']
                 utxo['prevout_n'] = utxo['tx_pos']
                 utxo['signatures'] = [None]
                 utxo['num_sig'] = 1
                 tx_inputs.append(utxo)
                 amounts[player] += utxo['value']
     tx_inputs.sort(key=lambda x: x['prevout_hash'] + str(x["tx_pos"]))
     tx_outputs = [(TYPE_ADDRESS, Address.from_string(output), int(amount))
                   for output in outputs]
     transaction = Transaction.from_io(tx_inputs, tx_outputs)
     tx_changes = [
         (TYPE_ADDRESS, Address.from_string(changes[player]),
          int(amounts[player] - amount - fee)) for player in sorted(changes)
         if Address.is_valid(changes[player]) and int(amounts[player] -
                                                      amount - fee) >= dust
     ]
     transaction.add_outputs(tx_changes)
     return transaction
Ejemplo n.º 2
0
 def dust_threshold(self):
     return dust_threshold(self.network)
Ejemplo n.º 3
0
    def _make_protocol_thread(self, scale, coins):
        def get_coin_for_shuffling(scale, coins):
            if not getattr(self.wallet, "is_coin_shuffled", None):
                raise RuntimeWarning('Wallet lacks is_coin_shuffled method!')
            unshuffled_coins = [coin for coin in coins
                                # Note: the 'is False' is intentional -- we are interested in coins that we know for SURE are not shuffled.
                                # is_coin_shuffled() also returns None in cases where the tx isn't in the history (a rare occurrence)
                                if self.wallet.is_coin_shuffled(coin) is False]
            upper_amount = min(scale*10 + self.FEE, self.UPPER_BOUND)
            lower_amount = scale + self.FEE
            unshuffled_coins_on_scale = [coin for coin in unshuffled_coins
                                         # exclude coins out of range and 'done' coins still in history
                                         # also exclude coinbase coins (see issue #64)
                                         if coin['value'] < upper_amount and coin['value'] >= lower_amount and get_name(coin) not in self.done_utxos and not coin['coinbase']]
            unshuffled_coins_on_scale.sort(key=lambda x: (x['value'], -x['height']))  # sort by value, preferring older coins on tied value
            if unshuffled_coins_on_scale:
                return unshuffled_coins_on_scale[-1]  # take the largest,oldest on the scale
            return None
        # /
        coin = get_coin_for_shuffling(scale, coins)
        if not coin:
            return
        try:
            private_key = self.wallet.export_private_key(coin['address'], self.get_password())
        except InvalidPassword:
            # This shouldn't normally happen but can if the user JUST changed their password in the GUI thread
            # and we didn't yet get informed of the new password.  In which case we give up for now and 10 seconds later
            # (the next 'period' time), this coin will be picked up again.
            raise RuntimeWarning('Invalid Password caught when trying to export a private key -- if this keeps happening tell the devs!')
        utxo_name = get_name(coin)
        self.wallet.set_frozen_coin_state([utxo_name], True)
        self._coins_busy_shuffling.add(utxo_name)
        self.wallet.storage.put(COINS_FROZEN_BY_SHUFFLING, list(self._coins_busy_shuffling))
        inputs = {}
        sks = {}
        public_key = self.wallet.get_public_key(coin['address'])
        sk = regenerate_key(deserialize_privkey(private_key)[1])
        inputs[public_key] = [utxo_name]
        sks[public_key] = sk
        id_sk = generate_random_sk()
        id_pub = id_sk.GetPubKey(True).hex()

        output = None
        for address in self.wallet.get_unused_addresses():
            if address not in self.wallet._addresses_cashshuffle_reserved:
                output = address
                break
        while not output:
            address = self.wallet.create_new_address(for_change = False)
            if address not in self.wallet._addresses_cashshuffle_reserved:
                output = address
        # Reserve the output address so other threads don't use it
        self.wallet._addresses_cashshuffle_reserved.add(output)   # NB: only modify this when holding wallet locks
        # Check if we will really use the change address. We won't be receving to it if the change is below dust threshold (see #67)
        will_receive_change = coin['value'] - scale - self.FEE >= dust_threshold(Network.get_instance())
        if will_receive_change:
            change = self.wallet.cashshuffle_get_new_change_address(for_shufflethread=True)
            # We anticipate using the change address in the shuffle tx, so reserve this address
            self.wallet._addresses_cashshuffle_reserved.add(change)
        else:
            # We still have to specify a change address to the protocol even if it won't be used. :/
            # We'll just take whatever address. The leftover dust amount will go to fee.
            change = self.wallet.get_change_addresses()[0]
        self.print_error("Scale {} Coin {} OutAddr {} {} {} make_protocol_thread".format(scale, utxo_name, output.to_storage_string(), "Change" if will_receive_change else "FakeChange",change.to_storage_string()))
        #self.print_error("Reserved addresses:", self.wallet._addresses_cashshuffle_reserved)
        ctimeout = 12.5 if (Network.get_instance() and Network.get_instance().get_proxies()) else 5.0 # allow for 12.5 second connection timeouts if using a proxy server
        thr = ProtocolThread(host=self.host, port=self.port, ssl=self.ssl,
                             comm_timeout=self.timeout, ctimeout=ctimeout,  # comm timeout and connect timeout
                             coin=utxo_name,
                             amount=scale, fee=self.FEE, total_amount=coin['value'],
                             addr_new_addr=output, change_addr=change, fake_change=not will_receive_change,
                             sk=id_sk, sks=sks, inputs=inputs, pubk=id_pub,
                             logger=None)
        thr.logger = ChannelSendLambda(lambda msg: self.protocol_thread_callback(thr, msg))
        self.threads[scale] = thr
        coins.remove(coin)
        thr.start()
        return True
Ejemplo n.º 4
0
    def _make_protocol_thread(self, scale, coins, scale_lower_bound, scale_upper_bound):
        def get_coin_for_shuffling(scale, coins, scale_lower_bound, scale_upper_bound):
            upper_bound = min(scale_upper_bound, self.UPPER_BOUND)
            lower_bound = max(scale_lower_bound, self.LOWER_BOUND)
            unshuffled_coins_on_scale = [coin for coin in coins
                                         # exclude coins out of range and 'done' coins still in history
                                         # also exclude coinbase coins (see issue #64)
                                         if (coin['value'] < upper_bound
                                             and coin['value'] >= lower_bound) ]
            unshuffled_coins_on_scale.sort(key=lambda x: (x['value'], -x['height']))  # sort by value, preferring older coins on tied value
            if unshuffled_coins_on_scale:
                return unshuffled_coins_on_scale[-1]  # take the largest,oldest on the scale
            return None
        # /
        coin = get_coin_for_shuffling(scale, coins, scale_lower_bound, scale_upper_bound)
        if not coin:
            return
        try:
            private_key = self.wallet.export_private_key(coin['address'], self.get_password())
        except InvalidPassword:
            # This shouldn't normally happen but can if the user JUST changed their password in the GUI thread
            # and we didn't yet get informed of the new password.  In which case we give up for now and 10 seconds later
            # (the next 'period' time), this coin will be picked up again.
            raise RuntimeWarning('Invalid Password caught when trying to export a private key -- if this keeps happening tell the devs!')
        utxo_name = CoinUtils.get_name(coin)
        self.wallet.set_frozen_coin_state([utxo_name], True)
        self._coins_busy_shuffling.add(utxo_name)
        self.wallet.storage.put(ConfKeys.PerWallet.COINS_FROZEN_BY_SHUFFLING, list(self._coins_busy_shuffling))
        inputs = {}
        sks = {}
        public_key = self.wallet.get_public_key(coin['address'])
        sk = regenerate_key(deserialize_privkey(private_key)[1])
        inputs[public_key] = [utxo_name]
        sks[public_key] = sk
        id_sk = self.generate_random_sk()
        id_pub = id_sk.GetPubKey(True).hex()

        output = self.wallet.cashshuffle_get_new_change_address(for_shufflethread=2)
        # Check if we will really use the change address. We definitely won't
        # be receving to it if the change is below dust threshold (see #67).
        # Furthermore, we may not receive change even if this check predicts we
        # will due to #68.
        may_receive_change = coin['value'] - scale - self.FEE >= dust_threshold(Network.get_instance())
        if may_receive_change:
            # We anticipate (maybe) using the change address in the shuffle tx,
            # so reserve this address. Note that due to "smallest player raises
            # shuffle amount" rules in version=200+ (#68) we WON'T necessarily
            # USE this change address. (In that case it will be freed up later
            # after shuffling anyway so no address leaking occurs).
            # We just reserve it if we think we MAY need it.
            change = self.wallet.cashshuffle_get_new_change_address(for_shufflethread=1)
        else:
            # We *definitely* won't receive any change no matter who
            # participates because we are very close to scale.
            # (The leftover dust amount will go to fee.)
            # We still have to specify a change address to the protocol even if
            # it definitely won't be used. :/
            # We'll just take a hard-coded address whose private key is the
            # number 1337 (we do it this way so we don't leak anything
            # identifying every time we shuffle).
            # Don't worry: It's 100% guaranteed we won't be using this address.
            change = self._dummy_address
        self.print_error("Scale {} Coin {} OutAddr {} {} {} make_protocol_thread".format(scale, utxo_name, output.to_storage_string(), "Change" if may_receive_change else "FakeChange", change.to_storage_string()))
        #self.print_error("Reserved addresses:", self.wallet._addresses_cashshuffle_reserved)
        ctimeout = 12.5 if (Network.get_instance() and Network.get_instance().get_proxies()) else 5.0 # allow for 12.5 second connection timeouts if using a proxy server
        thr = ProtocolThread(host=self.host, port=self.port, ssl=self.ssl,
                             comm_timeout=self.timeout, ctimeout=ctimeout,  # comm timeout and connect timeout
                             coin=utxo_name,
                             scale=scale, fee=self.FEE, coin_value=coin['value'],
                             addr_new_addr=output, change_addr=change,
                             sk=id_sk, sks=sks, inputs=inputs, pubk=id_pub,
                             logger=None, version=self.version, typ=self.type)
        thr.logger = ChannelSendLambda(lambda msg: self.protocol_thread_callback(thr, msg))
        cls = type(self)
        cls.latest_shuffle_settings = cls.ShuffleSettings(thr.type, Messages.TYPE_NAME_DICT[thr.type], thr.version, scale, coin['value'], self.FEE)
        self.threads[scale] = thr
        coins.remove(coin)
        thr.start()
        return True