/* * Copyright 2016 dorkbox, llc * * Licensed 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. * * Copyright (c) 2008, Nathan Sweet * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following * conditions are met: * * - Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided with the distribution. * - Neither the name of Esoteric Software nor the names of its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT * SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ package dorkboxTest.network.rmi import dorkbox.netUtil.IPv4 import dorkbox.netUtil.IPv6 import dorkbox.network.Client import dorkbox.network.Configuration import dorkbox.network.Server import dorkbox.network.connection.Connection import dorkboxTest.network.BaseTest import dorkboxTest.network.rmi.cows.MessageWithTestCow import dorkboxTest.network.rmi.cows.TestCow import dorkboxTest.network.rmi.cows.TestCowImpl import kotlinx.coroutines.runBlocking import org.junit.Assert import org.junit.Test class RmiSimpleTest : BaseTest() { @Test fun rmiIPv4NetworkGlobal() { rmiGlobal(isIpv4 = true, isIpv6 = false) } @Test fun rmiIPv6NetworkGlobal() { rmiGlobal(isIpv4 = true, isIpv6 = false) } @Test fun rmiBothIPv4ConnectNetworkGlobal() { rmiGlobal(isIpv4 = true, isIpv6 = true) } @Test fun rmiBothIPv6ConnectNetworkGlobal() { rmiGlobal(isIpv4 = true, isIpv6 = true, runIpv4Connect = true) } @Test fun rmiIpcNetworkGlobal() { rmiGlobal { enableIpc = true } } @Test fun rmiIPv4NetworkConnection() { rmi(isIpv4 = true, isIpv6 = false) } @Test fun rmiIPv6NetworkConnection() { rmi(isIpv4 = false, isIpv6 = true) } @Test fun rmiBothIPv4ConnectNetworkConnection() { rmi(isIpv4 = true, isIpv6 = true) } @Test fun rmiBothIPv6ConnectNetworkConnection() { rmi(isIpv4 = true, isIpv6 = true, runIpv4Connect = true) } @Test fun rmiIpcNetworkConnection() { rmi { enableIpc = true } } private fun doConnect(isIpv4: Boolean, isIpv6: Boolean, runIpv4Connect: Boolean, client: Client) { when { isIpv4 && isIpv6 && runIpv4Connect -> client.connect(IPv4.LOCALHOST) isIpv4 && isIpv6 && !runIpv4Connect -> client.connect(IPv6.LOCALHOST) isIpv4 -> client.connect(IPv4.LOCALHOST) isIpv6 -> client.connect(IPv6.LOCALHOST) else -> client.connect() } } // GLOBAL rmi stuff cannot CREATE or DELETE (only save/get) private fun rmiGlobal(isIpv4: Boolean = false, isIpv6: Boolean = false, runIpv4Connect: Boolean = true, config: Configuration.() -> Unit = {}) { run { val configuration = serverConfig() configuration.enableIPv4 = isIpv4 configuration.enableIPv6 = isIpv6 config(configuration) configuration.serialization.rmi.register(TestCow::class.java, TestCowImpl::class.java) configuration.serialization.register(MessageWithTestCow::class.java) configuration.serialization.register(UnsupportedOperationException::class.java) // for Client -> Server RMI configuration.serialization.rmi.register(TestCow::class.java, TestCowImpl::class.java) val server = Server(configuration) addEndPoint(server) server.bind() server.rmiGlobal.save(TestCowImpl(44), 44) server.onMessage { m -> server.logger.error("Received finish signal for test for: Client -> Server") val `object` = m.testCow val id = `object`.id() Assert.assertEquals(44, id) server.logger.error("Finished test for: Client -> Server") // normally this is in the 'connected', but we do it here, so that it's more linear and easier to debug server.logger.error("Running test for: Server -> Client") RmiCommonTest.runTests(this@onMessage, rmi.get(4), 4) server.logger.error("Done with test for: Server -> Client") } } run { val configuration = clientConfig() config(configuration) // configuration.serialization.registerRmi(TestCow::class.java, TestCowImpl::class.java) val client = Client(configuration) addEndPoint(client) client.onConnect { rmi.save(TestCowImpl(4), 4) client.logger.error("Running test for: Client -> Server") RmiCommonTest.runTests(this, rmi.getGlobal(44), 44) client.logger.error("Done with test for: Client -> Server") } client.onMessage { m -> client.logger.error("Received finish signal for test for: Client -> Server") val `object` = m.testCow val id = `object`.id() Assert.assertEquals(4, id) client.logger.error("Finished test for: Client -> Server") stopEndPoints(2000) } doConnect(isIpv4, isIpv6, runIpv4Connect, client) client.logger.error("Starting test for: Client -> Server") // this creates a GLOBAL object on the server (instead of a connection specific object) runBlocking { } } waitForThreads() } fun rmi(isIpv4: Boolean = false, isIpv6: Boolean = false, runIpv4Connect: Boolean = true, config: Configuration.() -> Unit = {}) { run { val configuration = serverConfig() configuration.enableIPv4 = isIpv4 configuration.enableIPv6 = isIpv6 config(configuration) configuration.serialization.rmi.register(TestCow::class.java, TestCowImpl::class.java) configuration.serialization.register(MessageWithTestCow::class.java) configuration.serialization.register(UnsupportedOperationException::class.java) val server = Server(configuration) addEndPoint(server) server.bind() server.onMessage { m -> server.logger.error("Received finish signal for test for: Client -> Server") val `object` = m.testCow val id = `object`.id() Assert.assertEquals(23, id) server.logger.error("Finished test for: Client -> Server") server.logger.error("Starting test for: Server -> Client") // NOTE: THIS IS BI-DIRECTIONAL! rmi.create(123) { server.logger.error("Running test for: Server -> Client") RmiCommonTest.runTests(this@onMessage, this, 123) server.logger.error("Done with test for: Server -> Client") } } } run { val configuration = clientConfig() config(configuration) // configuration.serialization.registerRmi(TestCow::class.java, TestCowImpl::class.java) val client = Client(configuration) addEndPoint(client) client.onConnect { rmi.create(23) { client.logger.error("Running test for: Client -> Server") RmiCommonTest.runTests(this@onConnect, this, 23) client.logger.error("Done with test for: Client -> Server") } } client.onMessage { m -> client.logger.error("Received finish signal for test for: Client -> Server") val `object` = m.testCow val id = `object`.id() Assert.assertEquals(123, id) client.logger.error("Finished test for: Client -> Server") stopEndPoints(2000) } doConnect(isIpv4, isIpv6, runIpv4Connect, client) } waitForThreads() } }