def do_send(self): if self.screen.is_pr: if self.payment_request.has_expired(): self.app.show_error(_('Payment request has expired')) return outputs = self.payment_request.get_outputs() else: address = str(self.screen.address) if not address: self.app.show_error( _('Recipient not specified.') + ' ' + _('Please scan a SmartCryptoTech address or a payment request' )) return if not bitcoin.is_address(address): self.app.show_error( _('Invalid SmartCryptoTech Address') + ':\n' + address) return try: amount = self.app.get_amount(self.screen.amount) except: self.app.show_error( _('Invalid amount') + ':\n' + self.screen.amount) return outputs = [TxOutput(bitcoin.TYPE_ADDRESS, address, amount)] message = self.screen.message amount = sum(map(lambda x: x[2], outputs)) if self.app.electrum_config.get('use_rbf'): from .dialogs.question import Question d = Question(_('Should this transaction be replaceable?'), lambda b: self._do_send(amount, message, outputs, b)) d.open() else: self._do_send(amount, message, outputs, False)
def place_text_on_clipboard(self, text): if is_address(text): try: self.wallet.check_address(text) except InternalAddressCorruption as e: self.parent.show_error(str(e)) raise self.parent.app.clipboard().setText(text)
def show_address_helper(self, wallet, address, keystore=None): if keystore is None: keystore = wallet.get_keystore() if not is_address(address): keystore.handler.show_error(_('Invalid SmartCryptoTech Address')) return False if not wallet.is_mine(address): keystore.handler.show_error(_('Address not in wallet.')) return False if type(keystore) != self.keystore_class: return False return True
def do_send(self): if not is_address(self.str_recipient): print(_('Invalid NewYorkCoin address')) return try: amount = int(Decimal(self.str_amount) * COIN) except Exception: print(_('Invalid Amount')) return try: fee = int(Decimal(self.str_fee) * COIN) except Exception: print(_('Invalid Fee')) return if self.wallet.has_password(): password = self.password_dialog() if not password: return else: password = None c = "" while c != "y": c = input("ok to send (y/n)?") if c == "n": return try: tx = self.wallet.mktx([TxOutput(TYPE_ADDRESS, self.str_recipient, amount)], password, self.config, fee) except Exception as e: print(str(e)) return if self.str_description: self.wallet.labels[tx.txid()] = self.str_description print(_("Please wait...")) try: self.network.run_from_another_thread(self.network.broadcast_transaction(tx)) except TxBroadcastError as e: msg = e.get_message_for_gui() print(msg) except BestEffortRequestFailed as e: msg = repr(e) print(msg) else: print(_('Payment sent.'))
def resolve(self): self.is_alias = False if self.hasFocus(): return if self.is_multiline(): # only supports single line entries atm return if self.is_pr: return key = str(self.toPlainText()) key = key.strip() # strip whitespaces if key == self.previous_payto: return self.previous_payto = key if not (('.' in key) and (not '<' in key) and (not ' ' in key)): return parts = key.split(sep=',') # assuming single line if parts and len(parts) > 0 and bitcoin.is_address(parts[0]): return try: data = self.win.contacts.resolve(key) except Exception as e: self.print_error(f'error resolving address/alias: {repr(e)}') return if not data: return self.is_alias = True address = data.get('address') name = data.get('name') new_url = key + ' <' + address + '>' self.setText(new_url) self.previous_payto = new_url #if self.win.config.get('openalias_autoadd') == 'checked': self.win.contacts[key] = ('openalias', name) self.win.contact_list.update() self.setFrozen(True) if data.get('type') == 'openalias': self.validated = data.get('validated') if self.validated: self.setGreen() else: self.setExpired() else: self.validated = None
def on_qr(self, data): from electrum_sct.bitcoin import base_decode, is_address data = data.strip() if is_address(data): self.set_URI(data) return if data.startswith('smartcryptotech:'): self.set_URI(data) return # try to decode transaction from electrum_sct.transaction import Transaction from electrum_sct.util import bh2u try: text = bh2u(base_decode(data, None, base=43)) tx = Transaction(text) tx.deserialize() except: tx = None if tx: self.tx_dialog(tx) return # show error self.show_error("Unable to decode QR data")
def parse_address(self, line): r = line.strip() m = re.match('^'+RE_ALIAS+'$', r) address = str(m.group(2) if m else r) assert bitcoin.is_address(address) return address