def serialize(self): self.bytes_data += write_bit64(self.transaction['amount']) self.bytes_data += write_bit32(self.transaction.get('expiration', 0)) recipientId = hexlify(b58decode_check(self.transaction['recipientId'])) self.bytes_data += write_high(recipientId) return self.bytes_data
def to_bytes(self, skip_signature=True, skip_second_signature=True): """Convert the transaction to its byte representation Args: skip_signature (bool, optional): do you want to skip the signature skip_second_signature (bool, optional): do you want to skip the 2nd signature Returns: bytes: bytes representation of the transaction """ bytes_data = bytes() bytes_data += write_bit8(self.type) bytes_data += write_bit32(self.timestamp) bytes_data += write_high(self.senderPublicKey) if self.recipientId: bytes_data += b58decode_check(self.recipientId) else: bytes_data += pack('21x') if self.vendorField and len(self.vendorField) < 64: bytes_data += self.vendorField bytes_data += pack('{}x'.format(64 - len(self.vendorField))) else: bytes_data += pack('64x') bytes_data += write_bit64(self.amount) bytes_data += write_bit64(self.fee) bytes_data = self._handle_transaction_type(bytes_data) bytes_data = self._handle_signature(bytes_data, skip_signature, skip_second_signature) return bytes_data
def serialize(self): """Perform AIP11 compliant serialization Returns: bytes: bytes string """ network_config = get_network() bytes_data = bytes() bytes_data += write_bit8(0xff) bytes_data += write_low(self.transaction.get('version') or 0x01) bytes_data += write_bit8(self.transaction.get('network') or network_config['version']) bytes_data += write_low(self.transaction['type']) bytes_data += write_bit32(self.transaction['timestamp']) bytes_data += write_high(self.transaction['senderPublicKey']) bytes_data += write_bit64(self.transaction['fee']) if self.transaction.get('vendorField'): vendorFieldLength = len(self.transaction['vendorField']) bytes_data += write_bit8(vendorFieldLength) bytes_data += self.transaction['vendorField'] elif self.transaction.get('vendorFieldHex'): vendorField_hex_length = len(self.transaction['vendorFieldHex']) bytes_data += write_bit8(vendorField_hex_length / 2) bytes_data += self.transaction['vendorFieldHex'] else: bytes_data += write_bit8(0x00) bytes_data = self._handle_transaction_type(bytes_data) bytes_data = self._handle_signature(bytes_data) return hexlify(bytes_data).decode()
def serialize(self): self.bytes_data += write_bit64( self.transaction['recipientId']['amount']) self.bytes_data += write_low( self.transaction['recipientId']['timelocktype']) self.bytes_data += write_bit32( self.transaction['recipientId']['timelock']) recipientId = hexlify(b58decode_check(self.transaction['recipientId'])) self.bytes_data += write_high(recipientId) return self.bytes_data
def serialize(self): self.bytes_data += write_bit64(self.transaction['amount']) self.bytes_data += unhexlify( self.transaction['asset']['lock']['secretHash'].encode()) self.bytes_data += write_bit8( self.transaction['asset']['lock']['expiration']['type']) self.bytes_data += write_bit32( self.transaction['asset']['lock']['expiration']['value']) recipientId = hexlify(b58decode_check(self.transaction['recipientId'])) self.bytes_data += write_high(recipientId) return self.bytes_data
def serialize(self, skip_signature=True, skip_second_signature=True, skip_multi_signature=True, raw=False): """Perform AIP11 compliant serialization Returns: bytes: bytes string """ network_config = get_network() bytes_data = bytes() bytes_data += write_bit8(0xff) bytes_data += write_bit8(self.transaction.get('version') or 0x02) bytes_data += write_bit8( self.transaction.get('network') or network_config['version']) bytes_data += write_bit32(self.transaction.get('typeGroup') or 0x01) bytes_data += write_bit16(self.transaction.get('type')) bytes_data += write_bit64(self.transaction.get('nonce') or 0x01) bytes_data += write_high(self.transaction.get('senderPublicKey')) bytes_data += write_bit64(self.transaction.get('fee')) if self.transaction.get('vendorField'): vendorFieldLength = len(self.transaction.get('vendorField')) bytes_data += write_bit8(vendorFieldLength) bytes_data += self.transaction['vendorField'].encode() elif self.transaction.get('vendorFieldHex'): vendorField_hex_length = len(self.transaction['vendorFieldHex']) bytes_data += write_bit8(vendorField_hex_length / 2) bytes_data += self.transaction['vendorFieldHex'] else: bytes_data += write_bit8(0x00) bytes_data = self._handle_transaction_type(bytes_data) bytes_data = self._handle_signature(bytes_data, skip_signature, skip_second_signature, skip_multi_signature) return bytes_data if raw else hexlify(bytes_data).decode()