/* * 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. */ #include #include #include #include using std::string; using boost::shared_ptr; using apache::thrift::transport::TMemoryBuffer; using apache::thrift::transport::TBufferedTransport; using apache::thrift::transport::TFramedTransport; using apache::thrift::transport::test::TShortReadTransport; // Shamelessly copied from ZlibTransport. TODO: refactor. unsigned int dist[][5000] = { { 1<<15 }, { 5,13,9,1,8,9,11,13,18,48,24,13,21,13,5,11,35,2,4,20,17,72,27,14,15,4,7,26, 12,1,14,9,2,16,29,41,7,24,4,27,14,4,1,4,25,3,6,34,10,8,50,2,14,13,55,29,3, 43,53,49,14,4,10,32,27,48,1,3,1,11,5,17,16,51,17,30,15,11,9,2,2,11,52,12,2, 13,94,1,19,1,38,2,8,43,8,33,7,30,8,17,22,2,15,14,12,34,2,12,6,37,29,74,3, 165,16,11,17,5,14,3,10,7,37,11,24,7,1,3,12,37,8,9,34,17,12,8,21,13,37,1,4, 30,14,78,4,15,2,40,37,17,12,36,82,14,4,1,4,7,17,11,16,88,77,2,3,15,3,34,11, 5,79,22,34,8,4,4,40,22,24,28,9,13,3,34,27,9,16,39,16,39,13,2,4,3,41,26,10,4, 33,4,7,12,5,6,3,10,30,8,21,16,58,19,9,0,47,7,13,11,19,15,7,53,57,2,13,28,22, 3,16,9,25,33,12,40,7,12,64,7,14,24,44,9,2,14,11,2,58,1,26,30,11,9,5,24,7,9, 94,2,10,21,5,5,4,5,6,179,9,18,2,7,13,31,41,17,4,36,3,21,6,26,8,15,18,44,27, 11,9,25,7,0,14,2,12,20,23,13,2,163,9,5,15,65,2,14,6,8,98,11,15,14,34,2,3,10, 22,9,92,7,10,32,67,13,3,4,35,8,2,1,5,0,26,381,7,27,8,2,16,93,4,19,5,8,25,9, 31,14,4,21,5,3,9,22,56,4,18,3,11,18,6,4,3,40,12,16,110,8,35,14,1,18,40,9,12, 14,3,11,7,57,13,18,116,53,19,22,7,16,11,5,8,21,16,1,75,21,20,1,28,2,6,1,7, 19,38,5,6,9,9,4,1,7,55,36,62,5,4,4,24,15,1,12,35,48,20,5,17,1,5,26,15,4,54, 13,5,5,15,5,19,32,29,31,7,6,40,7,80,11,18,8,128,48,6,12,84,13,4,7,2,13,9,16, 17,3,254,1,4,181,8,44,7,6,24,27,9,23,14,34,16,22,25,10,3,3,4,4,12,2,12,6,7, 13,58,13,6,11,19,53,11,66,18,19,10,4,13,2,5,49,58,1,67,7,21,64,14,11,14,8,3, 26,33,91,31,20,7,9,42,39,4,3,55,11,10,0,7,4,75,8,12,0,27,3,8,9,0,12,12,23, 28,23,20,4,13,30,2,22,20,19,30,6,22,2,6,4,24,7,19,55,86,5,33,2,161,6,7,1,62, 13,3,72,12,12,9,7,12,10,5,10,29,1,5,22,13,13,5,2,12,3,7,14,18,2,3,46,21,17, 15,19,3,27,5,16,45,31,10,8,17,18,18,3,7,24,6,55,9,3,6,12,10,12,8,91,9,4,4,4, 27,29,16,5,7,22,43,28,11,14,8,11,28,109,55,71,40,3,8,22,26,15,44,3,25,29,5, 3,32,17,12,3,29,27,25,15,11,8,40,39,38,17,3,9,11,2,32,11,6,20,48,75,27,3,7, 54,12,95,12,7,24,23,2,13,8,15,16,5,12,4,17,7,19,88,2,6,13,115,45,12,21,2,86, 74,9,7,5,16,32,16,2,21,18,6,34,5,18,260,7,12,16,44,19,92,31,7,8,2,9,0,0,15, 8,38,4,8,20,18,2,83,3,3,4,9,5,3,10,3,5,29,15,7,11,8,48,17,23,2,17,4,11,22, 21,64,8,8,4,19,95,0,17,28,9,11,20,71,5,11,18,12,13,45,49,4,1,33,32,23,13,5, 52,2,2,16,3,4,7,12,2,1,12,6,24,1,22,155,21,3,45,4,12,44,26,5,40,36,9,9,8,20, 35,31,3,2,32,50,10,8,37,2,75,35,22,15,192,8,11,23,1,4,29,6,8,8,5,12,18,32,4, 7,12,2,0,0,9,5,48,11,35,3,1,123,6,29,8,11,8,23,51,16,6,63,12,2,5,4,14,2,15, 7,14,3,2,7,17,32,8,8,10,1,23,62,2,49,6,49,47,23,3,20,7,11,39,10,24,6,15,5,5, 11,8,16,36,8,13,20,3,10,44,7,52,7,10,36,6,15,10,5,11,4,14,19,17,10,12,3,6, 23,4,13,94,70,7,36,7,38,7,28,8,4,15,3,19,4,33,39,21,109,4,80,6,40,4,432,4,4, 7,8,3,31,8,28,37,34,10,2,21,5,22,0,7,36,14,12,6,24,1,21,5,9,2,29,20,54,113, 13,31,39,27,6,0,27,4,5,2,43,7,8,57,8,62,7,9,12,22,90,30,6,19,7,10,20,6,5,58, 32,30,41,4,10,25,13,3,8,7,10,2,9,6,151,44,16,12,16,20,8,3,18,11,17,4,10,45, 15,8,56,38,52,25,40,14,4,17,15,8,2,19,7,8,26,30,2,3,180,8,26,17,38,35,5,16, 28,5,15,56,13,14,18,9,15,83,27,3,9,4,11,8,27,27,44,10,12,8,3,48,14,7,9,4,4, 8,4,5,9,122,8,14,12,19,17,21,4,29,63,21,17,10,12,18,47,10,10,53,4,18,16,4,8, 118,9,5,12,9,11,9,3,12,32,3,23,2,15,3,3,30,3,17,235,15,22,9,299,14,17,1,5, 16,8,3,7,3,13,2,7,6,4,8,66,2,13,6,15,16,47,3,36,5,7,10,24,1,9,9,8,13,16,26, 12,7,24,21,18,49,23,39,10,41,4,13,4,27,11,12,12,19,4,147,8,10,9,40,21,2,83, 10,5,6,11,25,9,50,57,40,12,12,21,1,3,24,23,9,3,9,13,2,3,12,57,8,11,13,15,26, 15,10,47,36,4,25,1,5,8,5,4,0,12,49,5,19,4,6,16,14,6,10,69,10,33,29,7,8,61, 12,4,0,3,7,6,3,16,29,27,38,4,21,0,24,3,2,1,19,16,22,2,8,138,11,7,7,3,12,22, 3,16,5,7,3,53,9,10,32,14,5,7,3,6,22,9,59,26,8,7,58,5,16,11,55,7,4,11,146,91, 8,13,18,14,6,8,8,31,26,22,6,11,30,11,30,15,18,31,3,48,17,7,6,4,9,2,25,3,35, 13,13,7,8,4,31,10,8,10,4,3,45,10,23,2,7,259,17,21,13,14,3,26,3,8,27,4,18,9, 66,7,12,5,8,17,4,23,55,41,51,2,32,26,66,4,21,14,12,65,16,22,17,5,14,2,29,24, 7,3,36,2,43,53,86,5,28,4,58,13,49,121,6,2,73,2,1,47,4,2,27,10,35,28,27,10, 17,10,56,7,10,14,28,20,24,40,7,4,7,3,10,11,32,6,6,3,15,11,54,573,2,3,6,2,3, 14,64,4,16,12,16,42,10,26,4,6,11,69,18,27,2,2,17,22,9,13,22,11,6,1,15,49,3, 14,1 }, { 11,11,11,15,47,1,3,1,23,5,8,18,3,23,15,21,1,7,19,10,26,1,17,11,31,21,41,18, 34,4,9,58,19,3,3,36,5,18,13,3,14,4,9,10,4,19,56,15,3,5,3,11,27,9,4,10,13,4, 11,6,9,2,18,3,10,19,11,4,53,4,2,2,3,4,58,16,3,0,5,30,2,11,93,10,2,14,10,6,2, 115,2,25,16,22,38,101,4,18,13,2,145,51,45,15,14,15,13,20,7,24,5,13,14,30,40, 10,4,107,12,24,14,39,12,6,13,20,7,7,11,5,18,18,45,22,6,39,3,2,1,51,9,11,4, 13,9,38,44,8,11,9,15,19,9,23,17,17,17,13,9,9,1,10,4,18,6,2,9,5,27,32,72,8, 37,9,4,10,30,17,20,15,17,66,10,4,73,35,37,6,4,16,117,45,13,4,75,5,24,65,10, 4,9,4,13,46,5,26,29,10,4,4,52,3,13,18,63,6,14,9,24,277,9,88,2,48,27,123,14, 61,7,5,10,8,7,90,3,10,3,3,48,17,13,10,18,33,2,19,36,6,21,1,16,12,5,6,2,16, 15,29,88,28,2,15,6,11,4,6,11,3,3,4,18,9,53,5,4,3,33,8,9,8,6,7,36,9,62,14,2, 1,10,1,16,7,32,7,23,20,11,10,23,2,1,0,9,16,40,2,81,5,22,8,5,4,37,51,37,10, 19,57,11,2,92,31,6,39,10,13,16,8,20,6,9,3,10,18,25,23,12,30,6,2,26,7,64,18, 6,30,12,13,27,7,10,5,3,33,24,99,4,23,4,1,27,7,27,49,8,20,16,3,4,13,9,22,67, 28,3,10,16,3,2,10,4,8,1,8,19,3,85,6,21,1,9,16,2,30,10,33,12,4,9,3,1,60,38,6, 24,32,3,14,3,40,8,34,115,5,9,27,5,96,3,40,6,15,5,8,22,112,5,5,25,17,58,2,7, 36,21,52,1,3,95,12,21,4,11,8,59,24,5,21,4,9,15,8,7,21,3,26,5,11,6,7,17,65, 14,11,10,2,17,5,12,22,4,4,2,21,8,112,3,34,63,35,2,25,1,2,15,65,23,0,3,5,15, 26,27,9,5,48,11,15,4,9,5,33,20,15,1,18,19,11,24,40,10,21,74,6,6,32,30,40,5, 4,7,44,10,25,46,16,12,5,40,7,18,5,18,9,12,8,4,25,5,6,36,4,43,8,9,12,35,17,4, 8,9,11,27,5,10,17,40,8,12,4,18,9,18,12,20,25,39,42,1,24,13,22,15,7,112,35,3, 7,17,33,2,5,5,19,8,4,12,24,14,13,2,1,13,6,5,19,11,7,57,0,19,6,117,48,14,8, 10,51,17,12,14,2,5,8,9,15,4,48,53,13,22,4,25,12,11,19,45,5,2,6,54,22,9,15,9, 13,2,7,11,29,82,16,46,4,26,14,26,40,22,4,26,6,18,13,4,4,20,3,3,7,12,17,8,9, 23,6,20,7,25,23,19,5,15,6,23,15,11,19,11,3,17,59,8,18,41,4,54,23,44,75,13, 20,6,11,2,3,1,13,10,3,7,12,3,4,7,8,30,6,6,7,3,32,9,5,28,6,114,42,13,36,27, 59,6,93,13,74,8,69,140,3,1,17,48,105,6,11,5,15,1,10,10,14,8,53,0,8,24,60,2, 6,35,2,12,32,47,16,17,75,2,5,4,37,28,10,5,9,57,4,59,5,12,13,7,90,5,11,5,24, 22,13,30,1,2,10,9,6,19,3,18,47,2,5,7,9,35,15,3,6,1,21,14,14,18,14,9,12,8,73, 6,19,3,32,9,14,17,17,5,55,23,6,16,28,3,11,48,4,6,6,6,12,16,30,10,30,27,51, 18,29,2,3,15,1,76,0,16,33,4,27,3,62,4,10,2,4,8,15,9,41,26,22,2,4,20,4,49,0, 8,1,57,13,12,39,3,63,10,19,34,35,2,7,8,29,72,4,10,0,77,8,6,7,9,15,21,9,4,1, 20,23,1,9,18,9,15,36,4,7,6,15,5,7,7,40,2,9,22,2,3,20,4,12,34,13,6,18,15,1, 38,20,12,7,16,3,19,85,12,16,18,16,2,17,1,13,8,6,12,15,97,17,12,9,3,21,15,12, 23,44,81,26,30,2,5,17,6,6,0,22,42,19,6,19,41,14,36,7,3,56,7,9,3,2,6,9,69,3, 15,4,30,28,29,7,9,15,17,17,6,1,6,153,9,33,5,12,14,16,28,3,8,7,14,12,4,6,36, 9,24,13,13,4,2,9,15,19,9,53,7,13,4,150,17,9,2,6,12,7,3,5,58,19,58,28,8,14,3, 20,3,0,32,56,7,5,4,27,1,68,4,29,13,5,58,2,9,65,41,27,16,15,12,14,2,10,9,24, 3,2,9,2,2,3,14,32,10,22,3,13,11,4,6,39,17,0,10,5,5,10,35,16,19,14,1,8,63,19, 14,8,56,10,2,12,6,12,6,7,16,2,9,9,12,20,73,25,13,21,17,24,5,32,8,12,25,8,14, 16,5,23,3,7,6,3,11,24,6,30,4,21,13,28,4,6,29,15,5,17,6,26,8,15,8,3,7,7,50, 11,30,6,2,28,56,16,24,25,23,24,89,31,31,12,7,22,4,10,17,3,3,8,11,13,5,3,27, 1,12,1,14,8,10,29,2,5,2,2,20,10,0,31,10,21,1,48,3,5,43,4,5,18,13,5,18,25,34, 18,3,5,22,16,3,4,20,3,9,3,25,6,6,44,21,3,12,7,5,42,3,2,14,4,36,5,3,45,51,15, 9,11,28,9,7,6,6,12,26,5,14,10,11,42,55,13,21,4,28,6,7,23,27,11,1,41,36,0,32, 15,26,2,3,23,32,11,2,15,7,29,26,144,33,20,12,7,21,10,7,11,65,46,10,13,20,32, 4,4,5,19,2,19,15,49,41,1,75,10,11,25,1,2,45,11,8,27,18,10,60,28,29,12,30,19, 16,4,24,11,19,27,17,49,18,7,40,13,19,22,8,55,12,11,3,6,5,11,8,10,22,5,9,9, 25,7,17,7,64,1,24,2,12,17,44,4,12,27,21,11,10,7,47,5,9,13,12,38,27,21,7,29, 7,1,17,3,3,5,48,62,10,3,11,17,15,15,6,3,8,10,8,18,19,13,3,9,7,6,44,9,10,4, 43,8,6,6,14,20,38,24,2,4,5,5,7,5,9,39,8,44,40,9,19,7,3,15,25,2,37,18,15,9,5, 8,32,10,5,18,4,7,46,20,17,23,4,11,16,18,31,11,3,11,1,14,1,25,4,27,13,13,39, 14,6,6,35,6,16,13,11,122,21,15,20,24,10,5,152,15,39,5,20,16,9,14,7,53,6,3,8, 19,63,32,6,2,3,20,1,19,5,13,42,15,4,6,68,31,46,11,38,10,24,5,5,8,9,12,3,35, 46,26,16,2,8,4,74,16,44,4,5,1,16,4,14,23,16,69,15,42,31,14,7,7,6,97,14,40,1, 8,7,34,9,39,19,13,15,10,21,18,10,5,15,38,7,5,12,7,20,15,4,11,6,14,5,17,7,39, 35,36,18,20,26,22,4,2,36,21,64,0,5,9,10,6,4,1,7,3,1,3,3,4,10,20,90,2,22,48, 16,23,2,33,40,1,21,21,17,20,8,8,12,4,83,14,48,4,21,3,9,27,5,11,40,15,9,3,16, 17,9,11,4,24,31,17,3,4,2,11,1,8,4,8,6,41,17,4,13,3,7,17,8,27,5,13,6,10,7,13, 12,18,13,60,18,3,8,1,12,125,2,7,16,2,11,2,4,7,26,5,9,14,14,16,8,14,7,14,6,9, 13,9,6,4,26,35,49,36,55,3,9,6,40,26,23,31,19,41,2,10,31,6,54,5,69,16,7,8,16, 1,5,7,4,22,7,7,5,4,48,11,13,3,98,4,11,19,4,2,14,7,34,7,10,3,2,12,7,6,2,5,118 }, }; uint8_t data[1<<15]; string data_str; void init_data() { static bool initted = false; if (initted) return; initted = true; // Repeatability. Kind of. std::srand(42); for (size_t i = 0; i < (sizeof(data)/sizeof(data[0])); ++i) { data[i] = (uint8_t)rand(); } data_str.assign((char*)data, sizeof(data)); } BOOST_AUTO_TEST_SUITE( TBufferBaseTest ) BOOST_AUTO_TEST_CASE( test_MemoryBuffer_Write_GetBuffer ) { init_data(); for (int d1 = 0; d1 < 3; d1++) { TMemoryBuffer buffer(16); int offset = 0; int index = 0; while (offset < 1<<15) { buffer.write(&data[offset], dist[d1][index]); offset += dist[d1][index]; index++; } string output = buffer.getBufferAsString(); BOOST_CHECK_EQUAL(data_str, output); } } BOOST_AUTO_TEST_CASE( test_MemoryBuffer_Write_Read ) { init_data(); for (int d1 = 0; d1 < 3; d1++) { for (int d2 = 0; d2 < 3; d2++) { TMemoryBuffer buffer(16); uint8_t data_out[1<<15]; int offset; int index; offset = 0; index = 0; while (offset < 1<<15) { buffer.write(&data[offset], dist[d1][index]); offset += dist[d1][index]; index++; } offset = 0; index = 0; while (offset < 1<<15) { unsigned int got = buffer.read(&data_out[offset], dist[d2][index]); BOOST_CHECK_EQUAL(got, dist[d2][index]); offset += dist[d2][index]; index++; } BOOST_CHECK(!memcmp(data, data_out, sizeof(data))); } } } BOOST_AUTO_TEST_CASE( test_MemoryBuffer_Write_ReadString ) { init_data(); for (int d1 = 0; d1 < 3; d1++) { for (int d2 = 0; d2 < 3; d2++) { TMemoryBuffer buffer(16); string output; int offset; int index; offset = 0; index = 0; while (offset < 1<<15) { buffer.write(&data[offset], dist[d1][index]); offset += dist[d1][index]; index++; } offset = 0; index = 0; while (offset < 1<<15) { unsigned int got = buffer.readAppendToString(output, dist[d2][index]); BOOST_CHECK_EQUAL(got, dist[d2][index]); offset += dist[d2][index]; index++; } BOOST_CHECK_EQUAL(output, data_str); } } } BOOST_AUTO_TEST_CASE( test_MemoryBuffer_Write_Read_Multi1 ) { init_data(); // Do shorter writes and reads so we don't align to power-of-two boundaries. for (int d1 = 0; d1 < 3; d1++) { for (int d2 = 0; d2 < 3; d2++) { TMemoryBuffer buffer(16); uint8_t data_out[1<<15]; int offset; int index; for (int iter = 0; iter < 6; iter++) { offset = 0; index = 0; while (offset < (1<<15)-42) { buffer.write(&data[offset], dist[d1][index]); offset += dist[d1][index]; index++; } offset = 0; index = 0; while (offset < (1<<15)-42) { buffer.read(&data_out[offset], dist[d2][index]); offset += dist[d2][index]; index++; } BOOST_CHECK(!memcmp(data, data_out, (1<<15)-42)); // Pull out the extra data. buffer.read(data_out, 42); } } } } BOOST_AUTO_TEST_CASE( test_MemoryBuffer_Write_Read_Multi2 ) { init_data(); // Do shorter writes and reads so we don't align to power-of-two boundaries. // Pull the buffer out of the loop so its state gets worked harder. TMemoryBuffer buffer(16); for (int d1 = 0; d1 < 3; d1++) { for (int d2 = 0; d2 < 3; d2++) { uint8_t data_out[1<<15]; int offset; int index; for (int iter = 0; iter < 6; iter++) { offset = 0; index = 0; while (offset < (1<<15)-42) { buffer.write(&data[offset], dist[d1][index]); offset += dist[d1][index]; index++; } offset = 0; index = 0; while (offset < (1<<15)-42) { buffer.read(&data_out[offset], dist[d2][index]); offset += dist[d2][index]; index++; } BOOST_CHECK(!memcmp(data, data_out, (1<<15)-42)); // Pull out the extra data. buffer.read(data_out, 42); } } } } BOOST_AUTO_TEST_CASE( test_MemoryBuffer_Write_Read_Incomplete ) { init_data(); // Do shorter writes and reads so we don't align to power-of-two boundaries. // Pull the buffer out of the loop so its state gets worked harder. for (int d1 = 0; d1 < 3; d1++) { for (int d2 = 0; d2 < 3; d2++) { TMemoryBuffer buffer(16); uint8_t data_out[1<<13]; int write_offset = 0; int write_index = 0; unsigned int to_write = (1<<14)-42; while (to_write > 0) { int write_amt = (std::min)(dist[d1][write_index], to_write); buffer.write(&data[write_offset], write_amt); write_offset += write_amt; write_index++; to_write -= write_amt; } int read_offset = 0; int read_index = 0; unsigned int to_read = (1<<13)-42; while (to_read > 0) { int read_amt = (std::min)(dist[d2][read_index], to_read); int got = buffer.read(&data_out[read_offset], read_amt); BOOST_CHECK_EQUAL(got, read_amt); read_offset += read_amt; read_index++; to_read -= read_amt; } BOOST_CHECK(!memcmp(data, data_out, (1<<13)-42)); int second_offset = write_offset; int second_index = write_index-1; unsigned int to_second = (1<<14)+42; while (to_second > 0) { int second_amt = (std::min)(dist[d1][second_index], to_second); //printf("%d\n", second_amt); buffer.write(&data[second_offset], second_amt); second_offset += second_amt; second_index++; to_second -= second_amt; } string output = buffer.getBufferAsString(); BOOST_CHECK_EQUAL(data_str.substr((1<<13)-42), output); } } } BOOST_AUTO_TEST_CASE( test_BufferedTransport_Write ) { init_data(); int sizes[] = { 12, 15, 16, 17, 20, 501, 512, 523, 2000, 2048, 2096, 1<<14, 1<<17, }; for (size_t i = 0; i < sizeof (sizes) / sizeof (sizes[0]); i++) { int size = sizes[i]; for (int d1 = 0; d1 < 3; d1++) { shared_ptr buffer(new TMemoryBuffer(16)); TBufferedTransport trans(buffer, size); int offset = 0; int index = 0; while (offset < 1<<15) { trans.write(&data[offset], dist[d1][index]); offset += dist[d1][index]; index++; } trans.flush(); string output = buffer->getBufferAsString(); BOOST_CHECK_EQUAL(data_str, output); } } } BOOST_AUTO_TEST_CASE( test_BufferedTransport_Read_Full ) { init_data(); int sizes[] = { 12, 15, 16, 17, 20, 501, 512, 523, 2000, 2048, 2096, 1<<14, 1<<17, }; for (size_t i = 0; i < sizeof (sizes) / sizeof (sizes[0]); i++) { int size = sizes[i]; for (int d1 = 0; d1 < 3; d1++) { shared_ptr buffer(new TMemoryBuffer(data, sizeof(data))); TBufferedTransport trans(buffer, size); uint8_t data_out[1<<15]; int offset = 0; int index = 0; while (offset < 1<<15) { // Note: this doesn't work with "read" because TBufferedTransport // doesn't try loop over reads, so we get short reads. We don't // check the return value, so that messes us up. trans.readAll(&data_out[offset], dist[d1][index]); offset += dist[d1][index]; index++; } BOOST_CHECK(!memcmp(data, data_out, sizeof(data))); } } } BOOST_AUTO_TEST_CASE( test_BufferedTransport_Read_Short ) { init_data(); int sizes[] = { 12, 15, 16, 17, 20, 501, 512, 523, 2000, 2048, 2096, 1<<14, 1<<17, }; for (size_t i = 0; i < sizeof (sizes) / sizeof (sizes[0]); i++) { int size = sizes[i]; for (int d1 = 0; d1 < 3; d1++) { shared_ptr buffer(new TMemoryBuffer(data, sizeof(data))); shared_ptr tshort(new TShortReadTransport(buffer, 0.125)); TBufferedTransport trans(buffer, size); uint8_t data_out[1<<15]; int offset = 0; int index = 0; while (offset < 1<<15) { // Note: this doesn't work with "read" because TBufferedTransport // doesn't try loop over reads, so we get short reads. We don't // check the return value, so that messes us up. trans.readAll(&data_out[offset], dist[d1][index]); offset += dist[d1][index]; index++; } BOOST_CHECK(!memcmp(data, data_out, sizeof(data))); } } } BOOST_AUTO_TEST_CASE( test_FramedTransport_Write ) { init_data(); int sizes[] = { 12, 15, 16, 17, 20, 501, 512, 523, 2000, 2048, 2096, 1<<14, 1<<17, }; for (size_t i = 0; i < sizeof (sizes) / sizeof (sizes[0]); i++) { int size = sizes[i]; for (int d1 = 0; d1 < 3; d1++) { shared_ptr buffer(new TMemoryBuffer(16)); TFramedTransport trans(buffer, size); int offset = 0; int index = 0; while (offset < 1<<15) { trans.write(&data[offset], dist[d1][index]); offset += dist[d1][index]; index++; } trans.flush(); int32_t frame_size = -1; buffer->read(reinterpret_cast(&frame_size), sizeof(frame_size)); frame_size = (int32_t)ntohl((uint32_t)frame_size); BOOST_CHECK_EQUAL(frame_size, 1<<15); BOOST_CHECK_EQUAL(data_str.size(), (unsigned int)frame_size); string output = buffer->getBufferAsString(); BOOST_CHECK_EQUAL(data_str, output); } } } BOOST_AUTO_TEST_CASE( test_FramedTransport_Read ) { init_data(); for (int d1 = 0; d1 < 3; d1++) { uint8_t data_out[1<<15]; shared_ptr buffer(new TMemoryBuffer()); TFramedTransport trans(buffer); int32_t length = sizeof(data); length = (int32_t)htonl((uint32_t)length); buffer->write(reinterpret_cast(&length), sizeof(length)); buffer->write(data, sizeof(data)); int offset = 0; int index = 0; while (offset < 1<<15) { // This should work with read because we have one huge frame. trans.read(&data_out[offset], dist[d1][index]); offset += dist[d1][index]; index++; } BOOST_CHECK(!memcmp(data, data_out, sizeof(data))); } } BOOST_AUTO_TEST_CASE( test_FramedTransport_Write_Read ) { init_data(); int sizes[] = { 12, 15, 16, 17, 20, 501, 512, 523, 2000, 2048, 2096, 1<<14, 1<<17, }; int probs[] = { 1, 2, 4, 8, 16, 32, }; for (size_t i = 0; i < sizeof (sizes) / sizeof (sizes[0]); i++) { int size = sizes[i]; for (size_t j = 0; j < sizeof (probs) / sizeof (probs[0]); j++) { int prob = probs[j]; for (int d1 = 0; d1 < 3; d1++) { shared_ptr buffer(new TMemoryBuffer(16)); TFramedTransport trans(buffer, size); uint8_t data_out[1<<15]; std::vector flush_sizes; int write_offset = 0; int write_index = 0; int flush_size = 0; while (write_offset < 1<<15) { trans.write(&data[write_offset], dist[d1][write_index]); write_offset += dist[d1][write_index]; flush_size += dist[d1][write_index]; write_index++; if (flush_size > 0 && rand()%prob == 0) { flush_sizes.push_back(flush_size); flush_size = 0; trans.flush(); } } if (flush_size != 0) { flush_sizes.push_back(flush_size); flush_size = 0; trans.flush(); } int read_offset = 0; int read_index = 0; for (unsigned int k = 0; k < flush_sizes.size(); k++) { int fsize = flush_sizes[k]; // We are exploiting an implementation detail of TFramedTransport. // The read buffer starts empty and it will never do more than one // readFrame per read, so we should always get exactly one frame. int got = trans.read(&data_out[read_offset], 1<<15); BOOST_CHECK_EQUAL(got, fsize); read_offset += got; read_index++; } BOOST_CHECK_EQUAL((unsigned int)read_offset, sizeof(data)); BOOST_CHECK(!memcmp(data, data_out, sizeof(data))); } } } } BOOST_AUTO_TEST_CASE( test_FramedTransport_Empty_Flush ) { init_data(); string output1("\x00\x00\x00\x01""a", 5); string output2("\x00\x00\x00\x01""a\x00\x00\x00\x02""bc", 11); shared_ptr buffer(new TMemoryBuffer()); TFramedTransport trans(buffer); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), ""); trans.flush(); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), ""); trans.flush(); trans.flush(); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), ""); trans.write((const uint8_t*)"a", 1); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), ""); trans.flush(); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), output1); trans.flush(); trans.flush(); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), output1); trans.write((const uint8_t*)"bc", 2); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), output1); trans.flush(); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), output2); trans.flush(); trans.flush(); BOOST_CHECK_EQUAL(buffer->getBufferAsString(), output2); } BOOST_AUTO_TEST_SUITE_END()