/** * Copyright (C) 2009-2017 Lightbend Inc. */ package akka.cluster.ddata import akka.actor.Address import akka.cluster.UniqueAddress import akka.cluster.ddata.Replicator.Changed import org.scalatest.{ Matchers, WordSpec } class ORMultiMapSpec extends WordSpec with Matchers { val node1 = UniqueAddress(Address("akka.tcp", "Sys", "localhost", 2551), 1) val node2 = UniqueAddress(node1.address.copy(port = Some(2552)), 2) "A ORMultiMap" must { "be able to add entries" in { val m = ORMultiMap().addBinding(node1, "a", "A").addBinding(node1, "b", "B") m.entries should be(Map("a" → Set("A"), "b" → Set("B"))) val m2 = m.addBinding(node1, "a", "C") m2.entries should be(Map("a" → Set("A", "C"), "b" → Set("B"))) } "be able to remove entry" in { val m = ORMultiMap().addBinding(node1, "a", "A").addBinding(node1, "b", "B").removeBinding(node1, "a", "A") m.entries should be(Map("b" → Set("B"))) } "be able to replace an entry" in { val m = ORMultiMap().addBinding(node1, "a", "A").replaceBinding(node1, "a", "A", "B") m.entries should be(Map("a" → Set("B"))) } "be able to have its entries correctly merged with another ORMultiMap with other entries" in { val m1 = ORMultiMap().addBinding(node1, "a", "A").addBinding(node1, "b", "B") val m2 = ORMultiMap().addBinding(node2, "c", "C") // merge both ways val expectedMerge = Map( "a" → Set("A"), "b" → Set("B"), "c" → Set("C")) val merged1 = m1 merge m2 merged1.entries should be(expectedMerge) val merged2 = m2 merge m1 merged2.entries should be(expectedMerge) } "be able to have its entries correctly merged with another ORMultiMap with overlapping entries" in { val m1 = ORMultiMap() .addBinding(node1, "a", "A1") .addBinding(node1, "b", "B1") .removeBinding(node1, "a", "A1") .addBinding(node1, "d", "D1") val m2 = ORMultiMap() .addBinding(node2, "c", "C2") .addBinding(node2, "a", "A2") .addBinding(node2, "b", "B2") .removeBinding(node2, "b", "B2") .addBinding(node2, "d", "D2") // merge both ways val expectedMerged = Map( "a" → Set("A2"), "b" → Set("B1"), "c" → Set("C2"), "d" → Set("D1", "D2")) val merged1 = m1 merge m2 merged1.entries should be(expectedMerged) val merged2 = m2 merge m1 merged2.entries should be(expectedMerged) val merged3 = m1 mergeDelta m2.delta.get merged3.entries should be(expectedMerged) val merged4 = m2 mergeDelta m1.delta.get merged4.entries should be(expectedMerged) } } "be able to get all bindings for an entry and then reduce them upon putting them back" in { val m = ORMultiMap().addBinding(node1, "a", "A1").addBinding(node1, "a", "A2").addBinding(node1, "b", "B1") val Some(a) = m.get("a") a should be(Set("A1", "A2")) val m2 = m.put(node1, "a", a - "A1") val expectedMerged = Map( "a" → Set("A2"), "b" → Set("B1")) m2.entries should be(expectedMerged) } "return the value for an existing key and the default for a non-existing one when using getOrElse" in { val m = ORMultiMap().addBinding(node1, "a", "A") m.getOrElse("a", Set("B")) shouldBe Set("A") m.getOrElse("b", Set("B")) shouldBe Set("B") } "remove all bindings for a given key" in { val m = ORMultiMap().addBinding(node1, "a", "A1").addBinding(node1, "a", "A2").addBinding(node1, "b", "B1") val m2 = m.remove(node1, "a") m2.entries should be(Map("b" → Set("B1"))) } "not have usual anomalies for remove+addBinding scenario and delta-deltas" in { val m1 = ORMultiMap.emptyWithValueDeltas[String, String].put(node1, "a", Set("A")).put(node1, "b", Set("B")) val m2 = ORMultiMap.emptyWithValueDeltas[String, String].put(node2, "c", Set("C")) val merged1 = m1 merge m2 val m3 = merged1.resetDelta.remove(node1, "b") val m4 = merged1.resetDelta.addBinding(node1, "b", "B2") val merged2 = m3 merge m4 merged2.entries("a") should be(Set("A")) merged2.entries("b") should be(Set("B2")) merged2.entries("c") should be(Set("C")) val merged3 = m3 mergeDelta m4.delta.get merged3.entries("a") should be(Set("A")) merged3.entries("b") should be(Set("B2")) merged3.entries("c") should be(Set("C")) } "not have usual anomalies for remove+addBinding scenario and delta-deltas 2" in { // the new delta-delta ORMultiMap is free from this anomaly val m1 = ORMultiMap.emptyWithValueDeltas[String, String].put(node1, "a", Set("A")).put(node1, "b", Set("B")) val m2 = ORMultiMap.emptyWithValueDeltas[String, String].put(node2, "c", Set("C")) // m1 - node1 gets the update from m2 val merged1 = m1 merge m2 // m2 - node2 gets the update from m1 val merged2 = m2 merge m1 // no race condition val m3 = merged1.resetDelta.remove(node1, "b") // let's imagine that m3 (node1) update gets propagated here (full state or delta - doesn't matter) // and is in flight, but in the meantime, an element is being added somewhere else (m4 - node2) // and the update is propagated before the update from node1 is merged val m4 = merged2.resetDelta.addBinding(node2, "b", "B2") // and later merged on node1 val merged3 = m3 merge m4 // and the other way round... val merged4 = m4 merge m3 // result - the element "B" is kept on both sides... merged3.entries("a") should be(Set("A")) merged3.entries("b") should be(Set("B2")) merged3.entries("c") should be(Set("C")) merged4.entries("a") should be(Set("A")) merged4.entries("b") should be(Set("B2")) merged4.entries("c") should be(Set("C")) // but if the timing was slightly different, so that the update from node1 // would get merged just before update on node2: val merged5 = (m2 merge m3).resetDelta.addBinding(node2, "b", "B2") // the update propagated ... and merged on node1: val merged6 = m3 merge merged5 // then the outcome would be the same... merged5.entries("a") should be(Set("A")) merged5.entries("b") should be(Set("B2")) merged5.entries("c") should be(Set("C")) merged6.entries("a") should be(Set("A")) merged6.entries("b") should be(Set("B2")) merged6.entries("c") should be(Set("C")) } "have unapply extractor" in { val m1 = ORMultiMap.empty.put(node1, "a", Set(1L, 2L)).put(node2, "b", Set(3L)) val m2: ORMultiMap[String, Long] = m1 val ORMultiMap(entries1) = m1 val entries2: Map[String, Set[Long]] = entries1 Changed(ORMultiMapKey[String, Long]("key"))(m1) match { case c @ Changed(ORMultiMapKey("key")) ⇒ val ORMultiMap(entries3) = c.dataValue val entries4: Map[String, Set[Long]] = entries3 entries4 should be(Map("a" → Set(1L, 2L), "b" → Set(3L))) } } }