/* Copyright 2015 The Kubernetes Authors. 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. */ package route import ( "net" "testing" "time" "k8s.io/apimachinery/pkg/types" "k8s.io/kubernetes/pkg/api/v1" "k8s.io/kubernetes/pkg/client/clientset_generated/clientset/fake" "k8s.io/kubernetes/pkg/client/testing/core" "k8s.io/kubernetes/pkg/cloudprovider" fakecloud "k8s.io/kubernetes/pkg/cloudprovider/providers/fake" ) func TestIsResponsibleForRoute(t *testing.T) { myClusterName := "my-awesome-cluster" myClusterRoute := "my-awesome-cluster-12345678-90ab-cdef-1234-567890abcdef" testCases := []struct { clusterCIDR string routeName string routeCIDR string expectedResponsible bool }{ // Routes that belong to this cluster {"10.244.0.0/16", myClusterRoute, "10.244.0.0/24", true}, {"10.244.0.0/16", myClusterRoute, "10.244.10.0/24", true}, {"10.244.0.0/16", myClusterRoute, "10.244.255.0/24", true}, {"10.244.0.0/14", myClusterRoute, "10.244.0.0/24", true}, {"10.244.0.0/14", myClusterRoute, "10.247.255.0/24", true}, // Routes that match our naming/tagging scheme, but are outside our cidr {"10.244.0.0/16", myClusterRoute, "10.224.0.0/24", false}, {"10.244.0.0/16", myClusterRoute, "10.0.10.0/24", false}, {"10.244.0.0/16", myClusterRoute, "10.255.255.0/24", false}, {"10.244.0.0/14", myClusterRoute, "10.248.0.0/24", false}, {"10.244.0.0/14", myClusterRoute, "10.243.255.0/24", false}, } for i, testCase := range testCases { _, cidr, err := net.ParseCIDR(testCase.clusterCIDR) if err != nil { t.Errorf("%d. Error in test case: unparsable cidr %q", i, testCase.clusterCIDR) } rc := New(nil, nil, myClusterName, cidr) route := &cloudprovider.Route{ Name: testCase.routeName, TargetNode: types.NodeName("doesnt-matter-for-this-test"), DestinationCIDR: testCase.routeCIDR, } if resp := rc.isResponsibleForRoute(route); resp != testCase.expectedResponsible { t.Errorf("%d. isResponsibleForRoute() = %t; want %t", i, resp, testCase.expectedResponsible) } } } func TestReconcile(t *testing.T) { cluster := "my-k8s" node1 := v1.Node{ObjectMeta: v1.ObjectMeta{Name: "node-1", UID: "01"}, Spec: v1.NodeSpec{PodCIDR: "10.120.0.0/24"}} node2 := v1.Node{ObjectMeta: v1.ObjectMeta{Name: "node-2", UID: "02"}, Spec: v1.NodeSpec{PodCIDR: "10.120.1.0/24"}} nodeNoCidr := v1.Node{ObjectMeta: v1.ObjectMeta{Name: "node-2", UID: "02"}, Spec: v1.NodeSpec{PodCIDR: ""}} testCases := []struct { nodes []v1.Node initialRoutes []*cloudprovider.Route expectedRoutes []*cloudprovider.Route expectedNetworkUnavailable []bool clientset *fake.Clientset }{ // 2 nodes, routes already there { nodes: []v1.Node{ node1, node2, }, initialRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-02", "node-2", "10.120.1.0/24"}, }, expectedRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-02", "node-2", "10.120.1.0/24"}, }, expectedNetworkUnavailable: []bool{true, true}, clientset: fake.NewSimpleClientset(&v1.NodeList{Items: []v1.Node{node1, node2}}), }, // 2 nodes, one route already there { nodes: []v1.Node{ node1, node2, }, initialRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, }, expectedRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-02", "node-2", "10.120.1.0/24"}, }, expectedNetworkUnavailable: []bool{true, true}, clientset: fake.NewSimpleClientset(&v1.NodeList{Items: []v1.Node{node1, node2}}), }, // 2 nodes, no routes yet { nodes: []v1.Node{ node1, node2, }, initialRoutes: []*cloudprovider.Route{}, expectedRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-02", "node-2", "10.120.1.0/24"}, }, expectedNetworkUnavailable: []bool{true, true}, clientset: fake.NewSimpleClientset(&v1.NodeList{Items: []v1.Node{node1, node2}}), }, // 2 nodes, a few too many routes { nodes: []v1.Node{ node1, node2, }, initialRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-02", "node-2", "10.120.1.0/24"}, {cluster + "-03", "node-3", "10.120.2.0/24"}, {cluster + "-04", "node-4", "10.120.3.0/24"}, }, expectedRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-02", "node-2", "10.120.1.0/24"}, }, expectedNetworkUnavailable: []bool{true, true}, clientset: fake.NewSimpleClientset(&v1.NodeList{Items: []v1.Node{node1, node2}}), }, // 2 nodes, 2 routes, but only 1 is right { nodes: []v1.Node{ node1, node2, }, initialRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-03", "node-3", "10.120.2.0/24"}, }, expectedRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, {cluster + "-02", "node-2", "10.120.1.0/24"}, }, expectedNetworkUnavailable: []bool{true, true}, clientset: fake.NewSimpleClientset(&v1.NodeList{Items: []v1.Node{node1, node2}}), }, // 2 nodes, one node without CIDR assigned. { nodes: []v1.Node{ node1, nodeNoCidr, }, initialRoutes: []*cloudprovider.Route{}, expectedRoutes: []*cloudprovider.Route{ {cluster + "-01", "node-1", "10.120.0.0/24"}, }, expectedNetworkUnavailable: []bool{true, false}, clientset: fake.NewSimpleClientset(&v1.NodeList{Items: []v1.Node{node1, nodeNoCidr}}), }, } for i, testCase := range testCases { cloud := &fakecloud.FakeCloud{RouteMap: make(map[string]*fakecloud.FakeRoute)} for _, route := range testCase.initialRoutes { fakeRoute := &fakecloud.FakeRoute{} fakeRoute.ClusterName = cluster fakeRoute.Route = *route cloud.RouteMap[route.Name] = fakeRoute } routes, ok := cloud.Routes() if !ok { t.Error("Error in test: fakecloud doesn't support Routes()") } _, cidr, _ := net.ParseCIDR("10.120.0.0/16") rc := New(routes, testCase.clientset, cluster, cidr) if err := rc.reconcile(testCase.nodes, testCase.initialRoutes); err != nil { t.Errorf("%d. Error from rc.reconcile(): %v", i, err) } for _, action := range testCase.clientset.Actions() { if action.GetVerb() == "update" && action.GetResource().Resource == "nodes" { node := action.(core.UpdateAction).GetObject().(*v1.Node) _, condition := v1.GetNodeCondition(&node.Status, v1.NodeNetworkUnavailable) if condition == nil { t.Errorf("%d. Missing NodeNetworkUnavailable condition for Node %v", i, node.Name) } else { check := func(index int) bool { return (condition.Status == v1.ConditionFalse) == testCase.expectedNetworkUnavailable[index] } index := -1 for j := range testCase.nodes { if testCase.nodes[j].Name == node.Name { index = j } } if index == -1 { // Something's wrong continue } if !check(index) { t.Errorf("%d. Invalid NodeNetworkUnavailable condition for Node %v, expected %v, got %v", i, node.Name, testCase.expectedNetworkUnavailable[index], (condition.Status == v1.ConditionFalse)) } } } } var finalRoutes []*cloudprovider.Route var err error timeoutChan := time.After(200 * time.Millisecond) tick := time.NewTicker(10 * time.Millisecond) defer tick.Stop() poll: for { select { case <-tick.C: if finalRoutes, err = routes.ListRoutes(cluster); err == nil && routeListEqual(finalRoutes, testCase.expectedRoutes) { break poll } case <-timeoutChan: t.Errorf("%d. rc.reconcile() = %v, routes:\n%v\nexpected: nil, routes:\n%v\n", i, err, flatten(finalRoutes), flatten(testCase.expectedRoutes)) break poll } } } } func routeListEqual(list1, list2 []*cloudprovider.Route) bool { if len(list1) != len(list2) { return false } routeMap1 := make(map[string]*cloudprovider.Route) for _, route1 := range list1 { routeMap1[route1.Name] = route1 } for _, route2 := range list2 { if route1, exists := routeMap1[route2.Name]; !exists || *route1 != *route2 { return false } } return true } func flatten(list []*cloudprovider.Route) []cloudprovider.Route { var structList []cloudprovider.Route for _, route := range list { structList = append(structList, *route) } return structList }