lib/d/test/thrift_test_server.d - thrift - Git at Google

 /*
  * 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_server;

 import core.stdc.errno : errno;
 import core.stdc.signal : signal, sigfn_t, SIGINT, SIG_DFL, SIG_ERR;
 import core.thread : dur, Thread;
 import std.algorithm;
 import std.exception : enforce;
 import std.getopt;
 import std.parallelism : totalCPUs;
 import std.string;
 import std.stdio;
 import std.typetuple : TypeTuple, staticMap;
 import thrift.base;
 import thrift.codegen.processor;
 import thrift.protocol.base;
 import thrift.protocol.binary;
 import thrift.protocol.compact;
 import thrift.protocol.json;
 import thrift.server.base;
 import thrift.server.transport.socket;
 import thrift.server.transport.ssl;
 import thrift.transport.base;
 import thrift.transport.buffered;
 import thrift.transport.framed;
 import thrift.transport.http;
 import thrift.transport.ssl;
 import thrift.util.cancellation;
 import thrift.util.hashset;
 import test_utils;

 import thrift_test_common;
 import thrift.test.ThriftTest_types;
 import thrift.test.ThriftTest;

 class TestHandler : ThriftTest {
   this(bool trace) {
     trace_ = trace;
   }

   override void testVoid() {
     if (trace_) writeln("testVoid()");
   }

   override string testString(string thing) {
     if (trace_) writefln("testString(\"%s\")", thing);
     return thing;
   }

   override byte testByte(byte thing) {
     if (trace_) writefln("testByte(%s)", thing);
     return thing;
   }

   override int testI32(int thing) {
     if (trace_) writefln("testI32(%s)", thing);
     return thing;
   }

   override long testI64(long thing) {
     if (trace_) writefln("testI64(%s)", thing);
     return thing;
   }

   override double testDouble(double thing) {
     if (trace_) writefln("testDouble(%s)", thing);
     return thing;
   }

   override string testBinary(string thing) {
     if (trace_) writefln("testBinary(\"%s\")", thing);
     return thing;
   }

   override bool testBool(bool thing) {
     if (trace_) writefln("testBool(\"%s\")", thing);
     return thing;
   }

   override Xtruct testStruct(ref const(Xtruct) thing) {
     if (trace_) writefln("testStruct({\"%s\", %s, %s, %s})",
       thing.string_thing, thing.byte_thing, thing.i32_thing, thing.i64_thing);
     return thing;
   }

   override Xtruct2 testNest(ref const(Xtruct2) nest) {
     auto thing = nest.struct_thing;
     if (trace_) writefln("testNest({%s, {\"%s\", %s, %s, %s}, %s})",
       nest.byte_thing, thing.string_thing, thing.byte_thing, thing.i32_thing,
       thing.i64_thing, nest.i32_thing);
     return nest;
   }

   override int[int] testMap(int[int] thing) {
     if (trace_) writefln("testMap({%s})", thing);
     return thing;
   }

   override HashSet!int testSet(HashSet!int thing) {
     if (trace_) writefln("testSet({%s})",
       join(map!`to!string(a)`(thing[]), ", "));
     return thing;
   }

   override int[] testList(int[] thing) {
     if (trace_) writefln("testList(%s)", thing);
     return thing;
   }

   override Numberz testEnum(Numberz thing) {
     if (trace_) writefln("testEnum(%s)", thing);
     return thing;
   }

   override UserId testTypedef(UserId thing) {
     if (trace_) writefln("testTypedef(%s)", thing);
     return thing;
   }

   override string[string] testStringMap(string[string] thing) {
     if (trace_) writefln("testStringMap(%s)", thing);
     return thing;
   }

   override int[int][int] testMapMap(int hello) {
     if (trace_) writefln("testMapMap(%s)", hello);
     return testMapMapReturn;
   }

   override Insanity[Numberz][UserId] testInsanity(ref const(Insanity) argument) {
     if (trace_) writeln("testInsanity()");
     Insanity[Numberz][UserId] ret;
     Insanity[Numberz] m1;
     Insanity[Numberz] m2;
     Insanity tmp;
     tmp = cast(Insanity)argument;
     m1[Numberz.TWO] = tmp;
     m1[Numberz.THREE] = tmp;
     m2[Numberz.SIX] = Insanity();
     ret[1] = m1;
     ret[2] = m2;
     return ret;
   }

   override Xtruct testMulti(byte arg0, int arg1, long arg2, string[short] arg3,
     Numberz arg4, UserId arg5)
   {
     if (trace_) writeln("testMulti()");
     return Xtruct("Hello2", arg0, arg1, arg2);
   }

   override void testException(string arg) {
     if (trace_) writefln("testException(%s)", arg);
     if (arg == "Xception") {
       auto e = new Xception();
       e.errorCode = 1001;
       e.message = arg;
       throw e;
     } else if (arg == "TException") {
       throw new TException();
     } else if (arg == "ApplicationException") {
       throw new TException();
     }
   }

   override Xtruct testMultiException(string arg0, string arg1) {
     if (trace_) writefln("testMultiException(%s, %s)", arg0, arg1);

     if (arg0 == "Xception") {
       auto e = new Xception();
       e.errorCode = 1001;
       e.message = "This is an Xception";
       throw e;
     } else if (arg0 == "Xception2") {
       auto e = new Xception2();
       e.errorCode = 2002;
       e.struct_thing.string_thing = "This is an Xception2";
       throw e;
     } else {
       return Xtruct(arg1);
     }
   }

   override void testOneway(int sleepFor) {
     if (trace_) writefln("testOneway(%s): Sleeping...", sleepFor);
     Thread.sleep(dur!"seconds"(sleepFor));
     if (trace_) writefln("testOneway(%s): done sleeping!", sleepFor);
   }

 private:
   bool trace_;
 }

 shared(bool) gShutdown = false;

 nothrow @nogc extern(C) void handleSignal(int sig) {
   gShutdown = true;
 }

 // Runs a thread that waits for shutdown to be
 // signaled and then triggers cancellation,
 // causing the server to stop.  While we could
 // use a signalfd for this purpose, we are instead
 // opting for a busy waiting scheme for maximum
 // portability since signalfd is a linux thing.

 class ShutdownThread : Thread {
   this(TCancellationOrigin cancellation) {
     cancellation_ = cancellation;
     super(&run);
   }

 private:
   void run() {
     while (!gShutdown) {
       Thread.sleep(dur!("msecs")(25));
     }
     cancellation_.trigger();
   }

   TCancellationOrigin cancellation_;
 }

 void main(string[] args) {
   ushort port = 9090;
   ServerType serverType;
   ProtocolType protocolType;
   size_t numIOThreads = 1;
   TransportType transportType;
   bool ssl = false;
   bool trace = true;
   size_t taskPoolSize = totalCPUs;

   getopt(args, "port", &port, "protocol", &protocolType, "server-type",
     &serverType, "ssl", &ssl, "num-io-threads", &numIOThreads,
     "task-pool-size", &taskPoolSize, "trace", &trace,
     "transport", &transportType);

   if (serverType == ServerType.nonblocking ||
     serverType == ServerType.pooledNonblocking
   ) {
     enforce(transportType == TransportType.framed,
       "Need to use framed transport with non-blocking server.");
     enforce(!ssl, "The non-blocking server does not support SSL yet.");

     // Don't wrap the contents into another layer of framing.
     transportType = TransportType.raw;
   }

   version (ThriftTestTemplates) {
     // Only exercise the specialized template code paths if explicitly enabled
     // to reduce memory consumption on regular test suite runs – there should
     // not be much that can go wrong with that specifically anyway.
     alias TypeTuple!(TBufferedTransport, TFramedTransport, TServerHttpTransport)
       AvailableTransports;
     alias TypeTuple!(
       staticMap!(TBinaryProtocol, AvailableTransports),
       staticMap!(TCompactProtocol, AvailableTransports)
     ) AvailableProtocols;
   } else {
     alias TypeTuple!() AvailableTransports;
     alias TypeTuple!() AvailableProtocols;
   }

   TProtocolFactory protocolFactory;
   final switch (protocolType) {
     case ProtocolType.binary:
       protocolFactory = new TBinaryProtocolFactory!AvailableTransports;
       break;
     case ProtocolType.compact:
       protocolFactory = new TCompactProtocolFactory!AvailableTransports;
       break;
     case ProtocolType.json:
       protocolFactory = new TJsonProtocolFactory!AvailableTransports;
       break;
   }

   auto processor = new TServiceProcessor!(ThriftTest, AvailableProtocols)(
     new TestHandler(trace));

   TServerSocket serverSocket;
   if (ssl) {
     auto sslContext = new TSSLContext();
     sslContext.serverSide = true;
     sslContext.loadCertificate("../../../test/keys/server.crt");
     sslContext.loadPrivateKey("../../../test/keys/server.key");
     sslContext.ciphers = "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH";
     serverSocket = new TSSLServerSocket(port, sslContext);
   } else {
     serverSocket = new TServerSocket(port);
   }

   auto transportFactory = createTransportFactory(transportType);

   auto server = createServer(serverType, numIOThreads, taskPoolSize,
     processor, serverSocket, transportFactory, protocolFactory);

   // Set up SIGINT signal handling
   sigfn_t oldHandler = signal(SIGINT, &handleSignal);
   enforce(oldHandler != SIG_ERR,
     "Could not replace the SIGINT signal handler: errno {0}".format(errno()));

   // Set up a server cancellation trigger
   auto cancel = new TCancellationOrigin();

   // Set up a listener for the shutdown condition - this will
   // wake up when the signal occurs and trigger cancellation.
   auto shutdown = new ShutdownThread(cancel);
   shutdown.start();

   // Serve from this thread; the signal will stop the server
   // and control will return here
   writefln("Starting %s/%s %s ThriftTest server %son port %s...", protocolType,
     transportType, serverType, ssl ? "(using SSL) ": "", port);
   server.serve(cancel);
   shutdown.join();
   signal(SIGINT, SIG_DFL);

   writeln("done.");
 }
	/*
	* 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_server;

	import core.stdc.errno : errno;
	import core.stdc.signal : signal, sigfn_t, SIGINT, SIG_DFL, SIG_ERR;
	import core.thread : dur, Thread;
	import std.algorithm;
	import std.exception : enforce;
	import std.getopt;
	import std.parallelism : totalCPUs;
	import std.string;
	import std.stdio;
	import std.typetuple : TypeTuple, staticMap;
	import thrift.base;
	import thrift.codegen.processor;
	import thrift.protocol.base;
	import thrift.protocol.binary;
	import thrift.protocol.compact;
	import thrift.protocol.json;
	import thrift.server.base;
	import thrift.server.transport.socket;
	import thrift.server.transport.ssl;
	import thrift.transport.base;
	import thrift.transport.buffered;
	import thrift.transport.framed;
	import thrift.transport.http;
	import thrift.transport.ssl;
	import thrift.util.cancellation;
	import thrift.util.hashset;
	import test_utils;

	import thrift_test_common;
	import thrift.test.ThriftTest_types;
	import thrift.test.ThriftTest;

	class TestHandler : ThriftTest {
	this(bool trace) {
	trace_ = trace;
	}

	override void testVoid() {
	if (trace_) writeln("testVoid()");
	}

	override string testString(string thing) {
	if (trace_) writefln("testString(\"%s\")", thing);
	return thing;
	}

	override byte testByte(byte thing) {
	if (trace_) writefln("testByte(%s)", thing);
	return thing;
	}

	override int testI32(int thing) {
	if (trace_) writefln("testI32(%s)", thing);
	return thing;
	}

	override long testI64(long thing) {
	if (trace_) writefln("testI64(%s)", thing);
	return thing;
	}

	override double testDouble(double thing) {
	if (trace_) writefln("testDouble(%s)", thing);
	return thing;
	}

	override string testBinary(string thing) {
	if (trace_) writefln("testBinary(\"%s\")", thing);
	return thing;
	}

	override bool testBool(bool thing) {
	if (trace_) writefln("testBool(\"%s\")", thing);
	return thing;
	}

	override Xtruct testStruct(ref const(Xtruct) thing) {
	if (trace_) writefln("testStruct({\"%s\", %s, %s, %s})",
	thing.string_thing, thing.byte_thing, thing.i32_thing, thing.i64_thing);
	return thing;
	}

	override Xtruct2 testNest(ref const(Xtruct2) nest) {
	auto thing = nest.struct_thing;
	if (trace_) writefln("testNest({%s, {\"%s\", %s, %s, %s}, %s})",
	nest.byte_thing, thing.string_thing, thing.byte_thing, thing.i32_thing,
	thing.i64_thing, nest.i32_thing);
	return nest;
	}

	override int[int] testMap(int[int] thing) {
	if (trace_) writefln("testMap({%s})", thing);
	return thing;
	}

	override HashSet!int testSet(HashSet!int thing) {
	if (trace_) writefln("testSet({%s})",
	join(map!`to!string(a)`(thing[]), ", "));
	return thing;
	}

	override int[] testList(int[] thing) {
	if (trace_) writefln("testList(%s)", thing);
	return thing;
	}

	override Numberz testEnum(Numberz thing) {
	if (trace_) writefln("testEnum(%s)", thing);
	return thing;
	}

	override UserId testTypedef(UserId thing) {
	if (trace_) writefln("testTypedef(%s)", thing);
	return thing;
	}

	override string[string] testStringMap(string[string] thing) {
	if (trace_) writefln("testStringMap(%s)", thing);
	return thing;
	}

	override int[int][int] testMapMap(int hello) {
	if (trace_) writefln("testMapMap(%s)", hello);
	return testMapMapReturn;
	}

	override Insanity[Numberz][UserId] testInsanity(ref const(Insanity) argument) {
	if (trace_) writeln("testInsanity()");
	Insanity[Numberz][UserId] ret;
	Insanity[Numberz] m1;
	Insanity[Numberz] m2;
	Insanity tmp;
	tmp = cast(Insanity)argument;
	m1[Numberz.TWO] = tmp;
	m1[Numberz.THREE] = tmp;
	m2[Numberz.SIX] = Insanity();
	ret[1] = m1;
	ret[2] = m2;
	return ret;
	}

	override Xtruct testMulti(byte arg0, int arg1, long arg2, string[short] arg3,
	Numberz arg4, UserId arg5)
	{
	if (trace_) writeln("testMulti()");
	return Xtruct("Hello2", arg0, arg1, arg2);
	}

	override void testException(string arg) {
	if (trace_) writefln("testException(%s)", arg);
	if (arg == "Xception") {
	auto e = new Xception();
	e.errorCode = 1001;
	e.message = arg;
	throw e;
	} else if (arg == "TException") {
	throw new TException();
	} else if (arg == "ApplicationException") {
	throw new TException();
	}
	}

	override Xtruct testMultiException(string arg0, string arg1) {
	if (trace_) writefln("testMultiException(%s, %s)", arg0, arg1);

	if (arg0 == "Xception") {
	auto e = new Xception();
	e.errorCode = 1001;
	e.message = "This is an Xception";
	throw e;
	} else if (arg0 == "Xception2") {
	auto e = new Xception2();
	e.errorCode = 2002;
	e.struct_thing.string_thing = "This is an Xception2";
	throw e;
	} else {
	return Xtruct(arg1);
	}
	}

	override void testOneway(int sleepFor) {
	if (trace_) writefln("testOneway(%s): Sleeping...", sleepFor);
	Thread.sleep(dur!"seconds"(sleepFor));
	if (trace_) writefln("testOneway(%s): done sleeping!", sleepFor);
	}

	private:
	bool trace_;
	}

	shared(bool) gShutdown = false;

	nothrow @nogc extern(C) void handleSignal(int sig) {
	gShutdown = true;
	}

	// Runs a thread that waits for shutdown to be
	// signaled and then triggers cancellation,
	// causing the server to stop. While we could
	// use a signalfd for this purpose, we are instead
	// opting for a busy waiting scheme for maximum
	// portability since signalfd is a linux thing.

	class ShutdownThread : Thread {
	this(TCancellationOrigin cancellation) {
	cancellation_ = cancellation;
	super(&run);
	}

	private:
	void run() {
	while (!gShutdown) {
	Thread.sleep(dur!("msecs")(25));
	}
	cancellation_.trigger();
	}

	TCancellationOrigin cancellation_;
	}

	void main(string[] args) {
	ushort port = 9090;
	ServerType serverType;
	ProtocolType protocolType;
	size_t numIOThreads = 1;
	TransportType transportType;
	bool ssl = false;
	bool trace = true;
	size_t taskPoolSize = totalCPUs;

	getopt(args, "port", &port, "protocol", &protocolType, "server-type",
	&serverType, "ssl", &ssl, "num-io-threads", &numIOThreads,
	"task-pool-size", &taskPoolSize, "trace", &trace,
	"transport", &transportType);

	if (serverType == ServerType.nonblocking \|\|
	serverType == ServerType.pooledNonblocking
	) {
	enforce(transportType == TransportType.framed,
	"Need to use framed transport with non-blocking server.");
	enforce(!ssl, "The non-blocking server does not support SSL yet.");

	// Don't wrap the contents into another layer of framing.
	transportType = TransportType.raw;
	}

	version (ThriftTestTemplates) {
	// Only exercise the specialized template code paths if explicitly enabled
	// to reduce memory consumption on regular test suite runs – there should
	// not be much that can go wrong with that specifically anyway.
	alias TypeTuple!(TBufferedTransport, TFramedTransport, TServerHttpTransport)
	AvailableTransports;
	alias TypeTuple!(
	staticMap!(TBinaryProtocol, AvailableTransports),
	staticMap!(TCompactProtocol, AvailableTransports)
	) AvailableProtocols;
	} else {
	alias TypeTuple!() AvailableTransports;
	alias TypeTuple!() AvailableProtocols;
	}

	TProtocolFactory protocolFactory;
	final switch (protocolType) {
	case ProtocolType.binary:
	protocolFactory = new TBinaryProtocolFactory!AvailableTransports;
	break;
	case ProtocolType.compact:
	protocolFactory = new TCompactProtocolFactory!AvailableTransports;
	break;
	case ProtocolType.json:
	protocolFactory = new TJsonProtocolFactory!AvailableTransports;
	break;
	}

	auto processor = new TServiceProcessor!(ThriftTest, AvailableProtocols)(
	new TestHandler(trace));

	TServerSocket serverSocket;
	if (ssl) {
	auto sslContext = new TSSLContext();
	sslContext.serverSide = true;
	sslContext.loadCertificate("../../../test/keys/server.crt");
	sslContext.loadPrivateKey("../../../test/keys/server.key");
	sslContext.ciphers = "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH";
	serverSocket = new TSSLServerSocket(port, sslContext);
	} else {
	serverSocket = new TServerSocket(port);
	}

	auto transportFactory = createTransportFactory(transportType);

	auto server = createServer(serverType, numIOThreads, taskPoolSize,
	processor, serverSocket, transportFactory, protocolFactory);

	// Set up SIGINT signal handling
	sigfn_t oldHandler = signal(SIGINT, &handleSignal);
	enforce(oldHandler != SIG_ERR,
	"Could not replace the SIGINT signal handler: errno {0}".format(errno()));

	// Set up a server cancellation trigger
	auto cancel = new TCancellationOrigin();

	// Set up a listener for the shutdown condition - this will
	// wake up when the signal occurs and trigger cancellation.
	auto shutdown = new ShutdownThread(cancel);
	shutdown.start();

	// Serve from this thread; the signal will stop the server
	// and control will return here
	writefln("Starting %s/%s %s ThriftTest server %son port %s...", protocolType,
	transportType, serverType, ssl ? "(using SSL) ": "", port);
	server.serve(cancel);
	shutdown.join();
	signal(SIGINT, SIG_DFL);

	writeln("done.");
	}