/* * 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. */ module thrift_test_client; import std.conv; import std.datetime; import std.exception : enforce; import std.getopt; import std.stdio; import std.string; import std.traits; import thrift.base; import thrift.codegen.client; import thrift.protocol.base; import thrift.protocol.binary; import thrift.protocol.compact; import thrift.protocol.json; import thrift.transport.base; import thrift.transport.buffered; import thrift.transport.framed; import thrift.transport.http; import thrift.transport.socket; import thrift.transport.ssl; import thrift.util.hashset; import thrift_test_common; import thrift.test.ThriftTest; import thrift.test.ThriftTest_types; enum TransportType { buffered, framed, http, raw } TProtocol createProtocol(T)(T trans, ProtocolType type) { final switch (type) { case ProtocolType.binary: return tBinaryProtocol(trans); case ProtocolType.compact: return tCompactProtocol(trans); case ProtocolType.json: return tJsonProtocol(trans); } } void main(string[] args) { string host = "localhost"; ushort port = 9090; uint numTests = 1; bool ssl; ProtocolType protocolType; TransportType transportType; bool trace; getopt(args, "numTests|n", &numTests, "protocol", &protocolType, "ssl", &ssl, "transport", &transportType, "trace", &trace, "port", &port, "host", (string _, string value) { auto parts = split(value, ":"); if (parts.length > 1) { // IPv6 addresses can contain colons, so take the last part for the // port. host = join(parts[0 .. $ - 1], ":"); port = to!ushort(parts[$ - 1]); } else { host = value; } } ); port = to!ushort(port); TSocket socket; if (ssl) { auto sslContext = new TSSLContext(); sslContext.ciphers = "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH"; sslContext.authenticate = true; sslContext.loadTrustedCertificates("../../../test/keys/CA.pem"); socket = new TSSLSocket(sslContext, host, port); } else { socket = new TSocket(host, port); } TProtocol protocol; final switch (transportType) { case TransportType.buffered: protocol = createProtocol(new TBufferedTransport(socket), protocolType); break; case TransportType.framed: protocol = createProtocol(new TFramedTransport(socket), protocolType); break; case TransportType.http: protocol = createProtocol( new TClientHttpTransport(socket, host, "/service"), protocolType); break; case TransportType.raw: protocol = createProtocol(socket, protocolType); break; } auto client = tClient!ThriftTest(protocol); ulong time_min; ulong time_max; ulong time_tot; StopWatch sw; foreach(test; 0 .. numTests) { sw.start(); protocol.transport.open(); if (trace) writefln("Test #%s, connect %s:%s", test + 1, host, port); if (trace) write("testVoid()"); client.testVoid(); if (trace) writeln(" = void"); if (trace) write("testString(\"Test\")"); string s = client.testString("Test"); if (trace) writefln(" = \"%s\"", s); enforce(s == "Test"); if (trace) write("testByte(1)"); byte u8 = client.testByte(1); if (trace) writefln(" = %s", u8); enforce(u8 == 1); if (trace) write("testI32(-1)"); int i32 = client.testI32(-1); if (trace) writefln(" = %s", i32); enforce(i32 == -1); if (trace) write("testI64(-34359738368)"); long i64 = client.testI64(-34359738368L); if (trace) writefln(" = %s", i64); enforce(i64 == -34359738368L); if (trace) write("testDouble(-5.2098523)"); double dub = client.testDouble(-5.2098523); if (trace) writefln(" = %s", dub); enforce(dub == -5.2098523); // TODO: add testBinary() call Xtruct out1; out1.string_thing = "Zero"; out1.byte_thing = 1; out1.i32_thing = -3; out1.i64_thing = -5; if (trace) writef("testStruct(%s)", out1); auto in1 = client.testStruct(out1); if (trace) writefln(" = %s", in1); enforce(in1 == out1); if (trace) write("testNest({1, {\"Zero\", 1, -3, -5}), 5}"); Xtruct2 out2; out2.byte_thing = 1; out2.struct_thing = out1; out2.i32_thing = 5; auto in2 = client.testNest(out2); in1 = in2.struct_thing; if (trace) writefln(" = {%s, {\"%s\", %s, %s, %s}, %s}", in2.byte_thing, in1.string_thing, in1.byte_thing, in1.i32_thing, in1.i64_thing, in2.i32_thing); enforce(in2 == out2); int[int] mapout; for (int i = 0; i < 5; ++i) { mapout[i] = i - 10; } if (trace) writef("testMap({%s})", mapout); auto mapin = client.testMap(mapout); if (trace) writefln(" = {%s}", mapin); enforce(mapin == mapout); auto setout = new HashSet!int; for (int i = -2; i < 3; ++i) { setout ~= i; } if (trace) writef("testSet(%s)", setout); auto setin = client.testSet(setout); if (trace) writefln(" = %s", setin); enforce(setin == setout); int[] listout; for (int i = -2; i < 3; ++i) { listout ~= i; } if (trace) writef("testList(%s)", listout); auto listin = client.testList(listout); if (trace) writefln(" = %s", listin); enforce(listin == listout); { if (trace) write("testEnum(ONE)"); auto ret = client.testEnum(Numberz.ONE); if (trace) writefln(" = %s", ret); enforce(ret == Numberz.ONE); if (trace) write("testEnum(TWO)"); ret = client.testEnum(Numberz.TWO); if (trace) writefln(" = %s", ret); enforce(ret == Numberz.TWO); if (trace) write("testEnum(THREE)"); ret = client.testEnum(Numberz.THREE); if (trace) writefln(" = %s", ret); enforce(ret == Numberz.THREE); if (trace) write("testEnum(FIVE)"); ret = client.testEnum(Numberz.FIVE); if (trace) writefln(" = %s", ret); enforce(ret == Numberz.FIVE); if (trace) write("testEnum(EIGHT)"); ret = client.testEnum(Numberz.EIGHT); if (trace) writefln(" = %s", ret); enforce(ret == Numberz.EIGHT); } if (trace) write("testTypedef(309858235082523)"); UserId uid = client.testTypedef(309858235082523L); if (trace) writefln(" = %s", uid); enforce(uid == 309858235082523L); if (trace) write("testMapMap(1)"); auto mm = client.testMapMap(1); if (trace) writefln(" = {%s}", mm); // Simply doing == doesn't seem to work for nested AAs. foreach (key, value; mm) { enforce(testMapMapReturn[key] == value); } foreach (key, value; testMapMapReturn) { enforce(mm[key] == value); } Insanity insane; insane.userMap[Numberz.FIVE] = 5000; Xtruct truck; truck.string_thing = "Truck"; truck.byte_thing = 8; truck.i32_thing = 8; truck.i64_thing = 8; insane.xtructs ~= truck; if (trace) write("testInsanity()"); auto whoa = client.testInsanity(insane); if (trace) writefln(" = %s", whoa); // Commented for now, this is cumbersome to write without opEqual getting // called on AA comparison. // enforce(whoa == testInsanityReturn); { try { if (trace) write("client.testException(\"Xception\") =>"); client.testException("Xception"); if (trace) writeln(" void\nFAILURE"); throw new Exception("testException failed."); } catch (Xception e) { if (trace) writefln(" {%s, \"%s\"}", e.errorCode, e.message); } try { if (trace) write("client.testException(\"TException\") =>"); client.testException("Xception"); if (trace) writeln(" void\nFAILURE"); throw new Exception("testException failed."); } catch (TException e) { if (trace) writefln(" {%s}", e.msg); } try { if (trace) write("client.testException(\"success\") =>"); client.testException("success"); if (trace) writeln(" void"); } catch (Exception e) { if (trace) writeln(" exception\nFAILURE"); throw new Exception("testException failed."); } } { try { if (trace) write("client.testMultiException(\"Xception\", \"test 1\") =>"); auto result = client.testMultiException("Xception", "test 1"); if (trace) writeln(" result\nFAILURE"); throw new Exception("testMultiException failed."); } catch (Xception e) { if (trace) writefln(" {%s, \"%s\"}", e.errorCode, e.message); } try { if (trace) write("client.testMultiException(\"Xception2\", \"test 2\") =>"); auto result = client.testMultiException("Xception2", "test 2"); if (trace) writeln(" result\nFAILURE"); throw new Exception("testMultiException failed."); } catch (Xception2 e) { if (trace) writefln(" {%s, {\"%s\"}}", e.errorCode, e.struct_thing.string_thing); } try { if (trace) writef("client.testMultiException(\"success\", \"test 3\") =>"); auto result = client.testMultiException("success", "test 3"); if (trace) writefln(" {{\"%s\"}}", result.string_thing); } catch (Exception e) { if (trace) writeln(" exception\nFAILURE"); throw new Exception("testMultiException failed."); } } // Do not run oneway test when doing multiple iterations, as it blocks the // server for three seconds. if (numTests == 1) { if (trace) writef("client.testOneway(3) =>"); auto onewayWatch = StopWatch(AutoStart.yes); client.testOneway(3); onewayWatch.stop(); if (onewayWatch.peek().msecs > 200) { if (trace) { writefln(" FAILURE - took %s ms", onewayWatch.peek().usecs / 1000.0); } throw new Exception("testOneway failed."); } else { if (trace) { writefln(" success - took %s ms", onewayWatch.peek().usecs / 1000.0); } } // Redo a simple test after the oneway to make sure we aren't "off by // one", which would be the case if the server treated oneway methods // like normal ones. if (trace) write("re-test testI32(-1)"); i32 = client.testI32(-1); if (trace) writefln(" = %s", i32); } // Time metering. sw.stop(); immutable tot = sw.peek().usecs; if (trace) writefln("Total time: %s us\n", tot); time_tot += tot; if (time_min == 0 || tot < time_min) { time_min = tot; } if (tot > time_max) { time_max = tot; } protocol.transport.close(); sw.reset(); } writeln("All tests done."); if (numTests > 1) { auto time_avg = time_tot / numTests; writefln("Min time: %s us", time_min); writefln("Max time: %s us", time_max); writefln("Avg time: %s us", time_avg); } }