# # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # import _import_local_thrift # noqa from thrift.protocol import TCompactProtocol from thrift.transport import TTransport import unittest CLEAR = 0 FIELD_WRITE = 1 VALUE_WRITE = 2 CONTAINER_WRITE = 3 BOOL_WRITE = 4 FIELD_READ = 5 CONTAINER_READ = 6 VALUE_READ = 7 BOOL_READ = 8 def testNaked(type, data): buf = TTransport.TMemoryBuffer() transport = TTransport.TBufferedTransportFactory().getTransport(buf) protocol = TCompactProtocol.TCompactProtocol(transport) if type.capitalize() == 'Byte': protocol.state = VALUE_WRITE protocol.writeByte(data) elif type.capitalize() == 'I16': protocol.state = CONTAINER_WRITE protocol.writeI16(data) elif type.capitalize() == 'I32': protocol.state = CONTAINER_WRITE protocol.writeI32(data) elif type.capitalize() == 'I64': protocol.state = CONTAINER_WRITE protocol.writeI64(data) elif type.capitalize() == 'String': protocol.state = CONTAINER_WRITE protocol.writeString(data) elif type.capitalize() == 'Double': protocol.state = VALUE_WRITE protocol.writeDouble(data) elif type.capitalize() == 'Binary': protocol.state = FIELD_WRITE protocol.writeBinary(data) elif type.capitalize() == 'Bool': protocol.state = CONTAINER_WRITE protocol.writeBool(True) transport.flush() data_r = buf.getvalue() buf = TTransport.TMemoryBuffer(data_r) transport = TTransport.TBufferedTransportFactory().getTransport(buf) protocol = TCompactProtocol.TCompactProtocol(transport) if type.capitalize() == 'Byte': protocol.state = VALUE_READ return protocol.readByte() elif type.capitalize() == 'I16': protocol.state = CONTAINER_READ return protocol.readI16() elif type.capitalize() == 'I32': protocol.state = CONTAINER_READ return protocol.readI32() elif type.capitalize() == 'I64': protocol.state = CONTAINER_READ return protocol.readI64() elif type.capitalize() == 'String': protocol.state = VALUE_READ return protocol.readString() elif type.capitalize() == 'Double': protocol.state = VALUE_READ return protocol.readDouble() elif type.capitalize() == 'Binary': protocol.state = FIELD_READ return protocol.readBinary() elif type.capitalize() == 'Bool': protocol.state = CONTAINER_READ return protocol.readBool() def testField(type, data): TType = {"Bool": 2, "Byte": 3, "Binary": 5, "I16": 6, "I32": 8, "I64": 10, "Double": 11, "String": 12} buf = TTransport.TMemoryBuffer() transport = TTransport.TBufferedTransportFactory().getTransport(buf) protocol = TCompactProtocol.TCompactProtocol(transport) protocol.writeStructBegin('struct') protocol.writeFieldBegin("field", TType[type.capitalize()], 10) if type.capitalize() == 'Byte': protocol.writeByte(data) elif type.capitalize() == 'I16': protocol.writeI16(data) elif type.capitalize() == 'I32': protocol.writeI32(data) elif type.capitalize() == 'I64': protocol.writeI64(data) elif type.capitalize() == 'String': protocol.writeString(data) elif type.capitalize() == 'Double': protocol.writeDouble(data) elif type.capitalize() == 'Binary': protocol.writeBinary(data) elif type.capitalize() == 'Bool': protocol.writeBool(data) protocol.writeFieldEnd() protocol.writeStructEnd() transport.flush() data_r = buf.getvalue() buf = TTransport.TMemoryBuffer(data_r) transport = TTransport.TBufferedTransportFactory().getTransport(buf) protocol = TCompactProtocol.TCompactProtocol(transport) protocol.readStructBegin() protocol.readFieldBegin() if type.capitalize() == 'Byte': return protocol.readByte() elif type.capitalize() == 'I16': return protocol.readI16() elif type.capitalize() == 'I32': return protocol.readI32() elif type.capitalize() == 'I64': return protocol.readI32() elif type.capitalize() == 'String': return protocol.readString() elif type.capitalize() == 'Double': return protocol.readDouble() elif type.capitalize() == 'Binary': return protocol.readBinary() elif type.capitalize() == 'Bool': return protocol.readBool() protocol.readFieldEnd() protocol.readStructEnd() def testMessage(data): message = {} message['name'] = data[0] message['type'] = data[1] message['seqid'] = data[2] buf = TTransport.TMemoryBuffer() transport = TTransport.TBufferedTransportFactory().getTransport(buf) protocol = TCompactProtocol.TCompactProtocol(transport) protocol.writeMessageBegin(message['name'], message['type'], message['seqid']) protocol.writeMessageEnd() transport.flush() data_r = buf.getvalue() buf = TTransport.TMemoryBuffer(data_r) transport = TTransport.TBufferedTransportFactory().getTransport(buf) protocol = TCompactProtocol.TCompactProtocol(transport) result = protocol.readMessageBegin() protocol.readMessageEnd() return result class TestTCompactProtocol(unittest.TestCase): def __init__(self, *args, **kwargs): unittest.TestCase.__init__(self, *args, **kwargs) def test_TCompactProtocol_write_read(self): try: testNaked('Byte', 123) for i in range(0, 128): self.assertEqual(i, testField('Byte', i)) self.assertEqual(-i, testField('Byte', -i)) self.assertEqual(0, testNaked("I16", 0)) self.assertEqual(1, testNaked("I16", 1)) self.assertEqual(15000, testNaked("I16", 15000)) self.assertEqual(0x7fff, testNaked('I16', 0x7fff)) self.assertEqual(-1, testNaked('I16', -1)) self.assertEqual(-15000, testNaked('I16', -15000)) self.assertEqual(-0x7fff, testNaked('I16', -0x7fff)) self.assertEqual(32767, testNaked('I16', 32767)) self.assertEqual(0, testField('I16', 0)) self.assertEqual(1, testField('I16', 1)) self.assertEqual(7, testField('I16', 7)) self.assertEqual(150, testField('I16', 150)) self.assertEqual(15000, testField('I16', 15000)) self.assertEqual(0x7fff, testField('I16', 0x7fff)) self.assertEqual(-1, testField('I16', -1)) self.assertEqual(-7, testField('I16', -7)) self.assertEqual(-150, testField('I16', -150)) self.assertEqual(-15000, testField('I16', -15000)) self.assertEqual(-0xfff, testField('I16', -0xfff)) self.assertEqual(0, testNaked('I32', 0)) self.assertEqual(1, testNaked('I32', 1)) self.assertEqual(15000, testNaked('I32', 15000)) self.assertEqual(0xfff, testNaked('I32', 0xfff)) self.assertEqual(-1, testNaked('I32', -1)) self.assertEqual(-15000, testNaked('I32', -15000)) self.assertEqual(-0xfff, testNaked('I32', -0xfff)) self.assertEqual(2147483647, testNaked('I32', 2147483647)) self.assertEqual(-2147483647, testNaked('I32', -2147483647)) self.assertEqual(0, testField('I32', 0)) self.assertEqual(1, testField('I32', 1)) self.assertEqual(7, testField('I32', 7)) self.assertEqual(150, testField('I32', 150)) self.assertEqual(15000, testField('I32', 15000)) self.assertEqual(31337, testField('I32', 31337)) self.assertEqual(0xffff, testField('I32', 0xffff)) self.assertEqual(0xffffff, testField('I32', 0xffffff)) self.assertEqual(-1, testField('I32', -1)) self.assertEqual(-7, testField('I32', -7)) self.assertEqual(-150, testField('I32', -150)) self.assertEqual(-15000, testField('I32', -15000)) self.assertEqual(-0xffff, testField('I32', -0xffff)) self.assertEqual(-0xffffff, testField('I32', -0xffffff)) self.assertEqual(9223372036854775807, testNaked("I64", 9223372036854775807)) self.assertEqual(-9223372036854775807, testNaked('I64', -9223372036854775807)) self.assertEqual(-0, testNaked('I64', 0)) self.assertEqual(True, testNaked('Bool', True)) self.assertEqual(3.14159261, testNaked('Double', 3.14159261)) self.assertEqual("hello thrift", testNaked('String', "hello thrift")) self.assertEqual(True, testField('Bool', True)) self.assertEqual(3.14159261, testField('Double', 3.14159261)) self.assertEqual("hello thrift", testField('String', "hello thrift")) TMessage = {"T_CALL": 1, "T_REPLY": 2, "T_EXCEPTION": 3, "T_ONEWAY": 4} test_data = [("short message name", TMessage["T_CALL"], 0), ("1", TMessage["T_REPLY"], 12345), ("loooooooooooooooooooong", TMessage["T_EXCEPTION"], 1 << 16), ("one way push", TMessage["T_ONEWAY"], 12), ("JANKY", TMessage["T_CALL"], 0)] for dt in test_data: result = testMessage(dt) self.assertEqual(result[0], dt[0]) self.assertEqual(result[1], dt[1]) self.assertEqual(result[2], dt[2]) except Exception as e: print("Assertion fail") raise e if __name__ == "__main__": unittest.main()