func TestVolumeInfo(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() router := mux.NewRouter() app.SetRoutes(router) // Setup the server ts := httptest.NewServer(router) defer ts.Close() // Setup database err := setupSampleDbWithTopology(app, 1, // clusters 10, // nodes_per_cluster 10, // devices_per_node, 5*TB, // disksize) ) tests.Assert(t, err == nil) // Create a volume req := &VolumeCreateRequest{} req.Size = 100 req.Durability.Type = DURABILITY_STRING_EC v := NewVolumeEntryFromRequest(req) tests.Assert(t, v != nil) err = v.Create(app.db, app.executor, app.allocator) tests.Assert(t, err == nil) // Now that we have some data in the database, we can // make a request for the clutser list r, err := http.Get(ts.URL + "/volumes/" + v.Info.Id) tests.Assert(t, r.StatusCode == http.StatusOK) tests.Assert(t, err == nil) tests.Assert(t, r.Header.Get("Content-Type") == "application/json; charset=UTF-8") // Read response var msg VolumeInfoResponse err = utils.GetJsonFromResponse(r, &msg) tests.Assert(t, err == nil) tests.Assert(t, msg.Id == v.Info.Id) tests.Assert(t, msg.Cluster == v.Info.Cluster) tests.Assert(t, msg.Name == v.Info.Name) tests.Assert(t, msg.Size == v.Info.Size) tests.Assert(t, reflect.DeepEqual(msg.Durability, v.Info.Durability)) tests.Assert(t, reflect.DeepEqual(msg.Snapshot, v.Info.Snapshot)) for _, brick := range msg.Bricks { tests.Assert(t, utils.SortedStringHas(v.Bricks, brick.Id)) } }
func TestNewClusterEntryFromId(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() // Create a cluster c := NewClusterEntryFromRequest() c.NodeAdd("node_abc") c.NodeAdd("node_def") c.VolumeAdd("vol_abc") // Save element in database err := app.db.Update(func(tx *bolt.Tx) error { return c.Save(tx) }) tests.Assert(t, err == nil) var cluster *ClusterEntry err = app.db.View(func(tx *bolt.Tx) error { var err error cluster, err = NewClusterEntryFromId(tx, c.Info.Id) if err != nil { return err } return nil }) tests.Assert(t, err == nil) tests.Assert(t, cluster.Info.Id == c.Info.Id) tests.Assert(t, len(c.Info.Nodes) == 2) tests.Assert(t, len(c.Info.Volumes) == 1) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "node_abc")) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "node_def")) tests.Assert(t, utils.SortedStringHas(c.Info.Volumes, "vol_abc")) }
func TestNodeEntryAddDeleteDevices(t *testing.T) { n := NewNodeEntry() tests.Assert(t, len(n.Devices) == 0) n.DeviceAdd("123") tests.Assert(t, utils.SortedStringHas(n.Devices, "123")) tests.Assert(t, len(n.Devices) == 1) n.DeviceAdd("abc") tests.Assert(t, utils.SortedStringHas(n.Devices, "123")) tests.Assert(t, utils.SortedStringHas(n.Devices, "abc")) tests.Assert(t, len(n.Devices) == 2) n.DeviceDelete("123") tests.Assert(t, !utils.SortedStringHas(n.Devices, "123")) tests.Assert(t, utils.SortedStringHas(n.Devices, "abc")) tests.Assert(t, len(n.Devices) == 1) n.DeviceDelete("ccc") tests.Assert(t, !utils.SortedStringHas(n.Devices, "123")) tests.Assert(t, utils.SortedStringHas(n.Devices, "abc")) tests.Assert(t, len(n.Devices) == 1) }
func TestVolumeEntryAddDeleteDevices(t *testing.T) { v := NewVolumeEntry() tests.Assert(t, len(v.Bricks) == 0) v.BrickAdd("123") tests.Assert(t, utils.SortedStringHas(v.Bricks, "123")) tests.Assert(t, len(v.Bricks) == 1) v.BrickAdd("abc") tests.Assert(t, utils.SortedStringHas(v.Bricks, "123")) tests.Assert(t, utils.SortedStringHas(v.Bricks, "abc")) tests.Assert(t, len(v.Bricks) == 2) v.BrickDelete("123") tests.Assert(t, !utils.SortedStringHas(v.Bricks, "123")) tests.Assert(t, utils.SortedStringHas(v.Bricks, "abc")) tests.Assert(t, len(v.Bricks) == 1) v.BrickDelete("ccc") tests.Assert(t, !utils.SortedStringHas(v.Bricks, "123")) tests.Assert(t, utils.SortedStringHas(v.Bricks, "abc")) tests.Assert(t, len(v.Bricks) == 1) }
func TestNodePeerDetachFailure(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() router := mux.NewRouter() app.SetRoutes(router) // Setup the server ts := httptest.NewServer(router) defer ts.Close() // Create a cluster. We do not want // any drives in the node so we can delete easily err := setupSampleDbWithTopology(app, 1, // clusters 4, // nodes_per_cluster 0, // devices_per_node, 50*GB, // disksize) ) tests.Assert(t, err == nil) // Setup the mock peer probe to fail peer_called := false peer_calls := 0 app.xo.MockPeerDetach = func(exec_host, newnode string) error { peer_calls++ peer_called = true return errors.New("Mock") } // Get a node id var nodeid string err = app.db.View(func(tx *bolt.Tx) error { clusterlist, err := ClusterList(tx) if err != nil { return err } cluster, err := NewClusterEntryFromId(tx, clusterlist[0]) if err != nil { return err } nodeid = cluster.Info.Nodes[0] return nil }) tests.Assert(t, err == nil) tests.Assert(t, nodeid != "") // Delete node req, err := http.NewRequest("DELETE", ts.URL+"/nodes/"+nodeid, nil) tests.Assert(t, err == nil) r, err := http.DefaultClient.Do(req) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusAccepted) location, err := r.Location() tests.Assert(t, err == nil) // Since we forced the MockPeerDetach above to fail, the request should fail for { r, err = http.Get(location.String()) tests.Assert(t, err == nil) if r.Header.Get("X-Pending") == "true" { tests.Assert(t, r.StatusCode == http.StatusOK) time.Sleep(time.Millisecond * 10) } else { tests.Assert(t, r.StatusCode == http.StatusInternalServerError) s, err := utils.GetStringFromResponse(r) tests.Assert(t, err == nil) tests.Assert(t, strings.TrimSpace(s) == "Mock") tests.Assert(t, peer_called == true) tests.Assert(t, peer_calls == 1) break } } // Check that the node is still in the db err = app.db.View(func(tx *bolt.Tx) error { clusters, err := ClusterList(tx) if err != nil { return err } cluster, err := NewClusterEntryFromId(tx, clusters[0]) if err != nil { return err } tests.Assert(t, utils.SortedStringHas(cluster.Info.Nodes, nodeid)) _, err = NewNodeEntryFromId(tx, nodeid) return err }) tests.Assert(t, err == nil) }
func TestNodeAddDelete(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() router := mux.NewRouter() app.SetRoutes(router) // Setup the server ts := httptest.NewServer(router) defer ts.Close() // ClusterCreate JSON Request request := []byte(`{ }`) // Post nothing r, err := http.Post(ts.URL+"/clusters", "application/json", bytes.NewBuffer(request)) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusCreated) tests.Assert(t, r.Header.Get("Content-Type") == "application/json; charset=UTF-8") // Read cluster information var clusterinfo ClusterInfoResponse err = utils.GetJsonFromResponse(r, &clusterinfo) tests.Assert(t, err == nil) // Create node on this cluster request = []byte(`{ "cluster" : "` + clusterinfo.Id + `", "hostnames" : { "storage" : [ "storage.hostname.com" ], "manage" : [ "manage.hostname.com" ] }, "zone" : 1 }`) // Create node r, err = http.Post(ts.URL+"/nodes", "application/json", bytes.NewBuffer(request)) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusAccepted) location, err := r.Location() tests.Assert(t, err == nil) // Query queue until finished var node NodeInfoResponse for { r, err = http.Get(location.String()) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusOK) if r.ContentLength <= 0 { time.Sleep(time.Millisecond * 10) continue } else { // Should have node information here tests.Assert(t, r.Header.Get("Content-Type") == "application/json; charset=UTF-8") err = utils.GetJsonFromResponse(r, &node) tests.Assert(t, err == nil) break } } tests.Assert(t, len(node.Id) > 0) tests.Assert(t, len(node.Hostnames.Manage) == 1) tests.Assert(t, len(node.Hostnames.Storage) == 1) tests.Assert(t, node.Hostnames.Manage[0] == "manage.hostname.com") tests.Assert(t, node.Hostnames.Storage[0] == "storage.hostname.com") tests.Assert(t, node.Zone == 1) tests.Assert(t, node.ClusterId == clusterinfo.Id) tests.Assert(t, len(node.DevicesInfo) == 0) // Check Cluster has node r, err = http.Get(ts.URL + "/clusters/" + clusterinfo.Id) tests.Assert(t, r.StatusCode == http.StatusOK) tests.Assert(t, err == nil) tests.Assert(t, r.Header.Get("Content-Type") == "application/json; charset=UTF-8") err = utils.GetJsonFromResponse(r, &clusterinfo) tests.Assert(t, len(clusterinfo.Nodes) == 1) tests.Assert(t, clusterinfo.Nodes[0] == node.Id) // Check the data is in the database correctly var entry *NodeEntry err = app.db.View(func(tx *bolt.Tx) error { entry, err = NewNodeEntryFromId(tx, node.Id) return err }) tests.Assert(t, err == nil) tests.Assert(t, entry != nil) tests.Assert(t, entry.Info.Id == node.Id) tests.Assert(t, len(entry.Info.Hostnames.Manage) == 1) tests.Assert(t, len(entry.Info.Hostnames.Storage) == 1) tests.Assert(t, entry.Info.Hostnames.Manage[0] == node.Hostnames.Manage[0]) tests.Assert(t, entry.Info.Hostnames.Storage[0] == node.Hostnames.Storage[0]) tests.Assert(t, len(entry.Devices) == 0) // Add some devices to check if delete conflict works err = app.db.Update(func(tx *bolt.Tx) error { entry, err = NewNodeEntryFromId(tx, node.Id) if err != nil { return err } entry.DeviceAdd("123") entry.DeviceAdd("456") return entry.Save(tx) }) tests.Assert(t, err == nil) // Now delete node and check for conflict req, err := http.NewRequest("DELETE", ts.URL+"/nodes/"+node.Id, nil) tests.Assert(t, err == nil) r, err = http.DefaultClient.Do(req) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusConflict) // Check that nothing has changed in the db var cluster *ClusterEntry err = app.db.View(func(tx *bolt.Tx) error { entry, err = NewNodeEntryFromId(tx, node.Id) if err != nil { return err } cluster, err = NewClusterEntryFromId(tx, entry.Info.ClusterId) if err != nil { return err } return nil }) tests.Assert(t, err == nil) tests.Assert(t, utils.SortedStringHas(cluster.Info.Nodes, node.Id)) // Node delete the drives err = app.db.Update(func(tx *bolt.Tx) error { entry, err = NewNodeEntryFromId(tx, node.Id) if err != nil { return err } entry.DeviceDelete("123") entry.DeviceDelete("456") return entry.Save(tx) }) tests.Assert(t, err == nil) // Now delete node req, err = http.NewRequest("DELETE", ts.URL+"/nodes/"+node.Id, nil) tests.Assert(t, err == nil) r, err = http.DefaultClient.Do(req) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusAccepted) location, err = r.Location() tests.Assert(t, err == nil) // Wait for deletion for { r, err := http.Get(location.String()) tests.Assert(t, err == nil) if r.Header.Get("X-Pending") == "true" { tests.Assert(t, r.StatusCode == http.StatusOK) time.Sleep(time.Millisecond * 10) continue } else { tests.Assert(t, r.StatusCode == http.StatusNoContent) break } } // Check db to make sure key is removed err = app.db.View(func(tx *bolt.Tx) error { _, err = NewNodeEntryFromId(tx, node.Id) return err }) tests.Assert(t, err == ErrNotFound) // Check the cluster does not have this node id r, err = http.Get(ts.URL + "/clusters/" + clusterinfo.Id) tests.Assert(t, r.StatusCode == http.StatusOK) tests.Assert(t, err == nil) tests.Assert(t, r.Header.Get("Content-Type") == "application/json; charset=UTF-8") err = utils.GetJsonFromResponse(r, &clusterinfo) tests.Assert(t, len(clusterinfo.Nodes) == 0) }
func (n *NodeEntry) DeviceAdd(id string) { godbc.Require(!utils.SortedStringHas(n.Devices, id)) n.Devices = append(n.Devices, id) n.Devices.Sort() }
func (v *VolumeEntry) BrickAdd(id string) { godbc.Require(!utils.SortedStringHas(v.Bricks, id)) v.Bricks = append(v.Bricks, id) v.Bricks.Sort() }
func TestVolumeEntryCreateOnClustersRequested(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() // Create 50TB of storage err := setupSampleDbWithTopology(app, 10, // clusters 10, // nodes_per_cluster 10, // devices_per_node, 5*TB, // disksize) ) tests.Assert(t, err == nil) // Get a cluster list var clusters sort.StringSlice err = app.db.View(func(tx *bolt.Tx) error { var err error clusters, err = ClusterList(tx) return err }) tests.Assert(t, err == nil) clusters.Sort() // Create a 1TB volume v := createSampleVolumeEntry(1024) // Set the clusters to the first two cluster ids v.Info.Clusters = []string{clusters[0]} // Create volume err = v.Create(app.db, app.executor, app.allocator) tests.Assert(t, err == nil) // Check database volume does not exist var info *VolumeInfoResponse err = app.db.View(func(tx *bolt.Tx) error { entry, err := NewVolumeEntryFromId(tx, v.Info.Id) if err != nil { return err } info, err = entry.NewInfoResponse(tx) if err != nil { return err } return nil }) tests.Assert(t, err == nil) tests.Assert(t, info.Cluster == clusters[0]) // Create a new volume on either of three clusters clusterset := clusters[2:5] v = createSampleVolumeEntry(1024) v.Info.Clusters = clusterset err = v.Create(app.db, app.executor, app.allocator) tests.Assert(t, err == nil) // Check database volume exists err = app.db.View(func(tx *bolt.Tx) error { entry, err := NewVolumeEntryFromId(tx, v.Info.Id) if err != nil { return err } info, err = entry.NewInfoResponse(tx) if err != nil { return err } return nil }) tests.Assert(t, err == nil) tests.Assert(t, utils.SortedStringHas(clusterset, info.Cluster)) }
func TestVolumeEntryCreateBrickDivision(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() // Create 50TB of storage err := setupSampleDbWithTopology(app, 1, // clusters 10, // nodes_per_cluster 10, // devices_per_node, 500*GB, // disksize) ) tests.Assert(t, err == nil) // Create a volume who will be broken down to // Shouldn't be able to break it down enough to allocate volume v := createSampleVolumeEntry(2000) err = v.Create(app.db, app.executor, app.allocator) tests.Assert(t, err == nil) // Check database volume does not exist var info *VolumeInfoResponse var nodelist sort.StringSlice err = app.db.View(func(tx *bolt.Tx) error { entry, err := NewVolumeEntryFromId(tx, v.Info.Id) if err != nil { return err } info, err = entry.NewInfoResponse(tx) if err != nil { return err } cluster, err := NewClusterEntryFromId(tx, v.Info.Cluster) if err != nil { return err } nodelist = make(sort.StringSlice, len(cluster.Info.Nodes)) for i, id := range cluster.Info.Nodes { node, err := NewNodeEntryFromId(tx, id) if err != nil { return err } nodelist[i] = node.StorageHostName() } nodelist.Sort() return nil }) tests.Assert(t, err == nil) // Will need 3 splits for a total of 8 bricks + replicas tests.Assert(t, len(info.Bricks) == 16) for b := 1; b < 16; b++ { tests.Assert(t, info.Bricks[0].Size == info.Bricks[b].Size, b) } tests.Assert(t, info.Cluster == v.Info.Cluster) // Check mount information host := strings.Split(info.Mount.GlusterFS.MountPoint, ":")[0] tests.Assert(t, utils.SortedStringHas(nodelist, host), host, nodelist) volfileServers := strings.Split(info.Mount.GlusterFS.Options["backupvolfile-servers"], ",") for index, node := range volfileServers { tests.Assert(t, node != host, index, node, host) } }
func TestVolumeEntryCreateFourBricks(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() // Create a cluster in the database err := setupSampleDbWithTopology(app, 1, // clusters 4, // nodes_per_cluster 4, // devices_per_node, 500*GB, // disksize) ) tests.Assert(t, err == nil) // Create a volume who will be broken down to v := createSampleVolumeEntry(250) err = v.Create(app.db, app.executor, app.allocator) tests.Assert(t, err == nil, err) // Check database var info *VolumeInfoResponse var nodelist sort.StringSlice err = app.db.View(func(tx *bolt.Tx) error { entry, err := NewVolumeEntryFromId(tx, v.Info.Id) if err != nil { return err } info, err = entry.NewInfoResponse(tx) if err != nil { return err } cluster, err := NewClusterEntryFromId(tx, v.Info.Cluster) if err != nil { return err } nodelist = make(sort.StringSlice, len(cluster.Info.Nodes)) for i, id := range cluster.Info.Nodes { node, err := NewNodeEntryFromId(tx, id) if err != nil { return err } nodelist[i] = node.StorageHostName() } nodelist.Sort() return nil }) tests.Assert(t, err == nil) // Check that it used only two bricks each with only two replicas tests.Assert(t, len(info.Bricks) == 4) tests.Assert(t, info.Bricks[0].Size == info.Bricks[1].Size) tests.Assert(t, info.Bricks[0].Size == info.Bricks[2].Size) tests.Assert(t, info.Bricks[0].Size == info.Bricks[3].Size) tests.Assert(t, info.Cluster == v.Info.Cluster) // Check information on the bricks for _, brick := range info.Bricks { tests.Assert(t, brick.DeviceId != "") tests.Assert(t, brick.NodeId != "") tests.Assert(t, brick.Path != "") } // Check mount information host := strings.Split(info.Mount.GlusterFS.MountPoint, ":")[0] tests.Assert(t, utils.SortedStringHas(nodelist, host), host, nodelist) volfileServers := strings.Split(info.Mount.GlusterFS.Options["backupvolfile-servers"], ",") for index, node := range volfileServers { tests.Assert(t, node != host, index, node, host) } }
func TestDeviceAddDelete(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() router := mux.NewRouter() app.SetRoutes(router) // Setup the server ts := httptest.NewServer(router) defer ts.Close() // Add Cluster then a Node on the cluster // node cluster := NewClusterEntryFromRequest() nodereq := &NodeAddRequest{ ClusterId: cluster.Info.Id, Hostnames: HostAddresses{ Manage: []string{"manage"}, Storage: []string{"storage"}, }, Zone: 99, } node := NewNodeEntryFromRequest(nodereq) cluster.NodeAdd(node.Info.Id) // Save information in the db err := app.db.Update(func(tx *bolt.Tx) error { err := cluster.Save(tx) if err != nil { return err } err = node.Save(tx) if err != nil { return err } return nil }) tests.Assert(t, err == nil) // Create a request to a device request := []byte(`{ "node" : "` + node.Info.Id + `", "name" : "/dev/fake1", "weight" : 10 }`) // Add device using POST r, err := http.Post(ts.URL+"/devices", "application/json", bytes.NewBuffer(request)) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusAccepted) location, err := r.Location() tests.Assert(t, err == nil) // Query queue until finished for { r, err = http.Get(location.String()) tests.Assert(t, err == nil) if r.Header.Get("X-Pending") == "true" { tests.Assert(t, r.StatusCode == http.StatusOK) time.Sleep(time.Millisecond * 10) } else { tests.Assert(t, r.StatusCode == http.StatusNoContent) break } } // Add a second device request = []byte(`{ "node" : "` + node.Info.Id + `", "name" : "/dev/fake2", "weight" : 20 }`) // Add device using POST r, err = http.Post(ts.URL+"/devices", "application/json", bytes.NewBuffer(request)) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusAccepted) location, err = r.Location() tests.Assert(t, err == nil) // Query queue until finished for { r, err = http.Get(location.String()) tests.Assert(t, err == nil) if r.Header.Get("X-Pending") == "true" { tests.Assert(t, r.StatusCode == http.StatusOK) time.Sleep(time.Millisecond * 10) } else { tests.Assert(t, r.StatusCode == http.StatusNoContent) break } } // Check db to make sure devices where added devicemap := make(map[string]*DeviceEntry) err = app.db.View(func(tx *bolt.Tx) error { node, err = NewNodeEntryFromId(tx, node.Info.Id) if err != nil { return err } for _, id := range node.Devices { device, err := NewDeviceEntryFromId(tx, id) if err != nil { return err } devicemap[device.Info.Name] = device } return nil }) tests.Assert(t, err == nil) val, ok := devicemap["/dev/fake1"] tests.Assert(t, ok) tests.Assert(t, val.Info.Name == "/dev/fake1") tests.Assert(t, val.Info.Weight == 10) tests.Assert(t, len(val.Bricks) == 0) val, ok = devicemap["/dev/fake2"] tests.Assert(t, ok) tests.Assert(t, val.Info.Name == "/dev/fake2") tests.Assert(t, val.Info.Weight == 20) tests.Assert(t, len(val.Bricks) == 0) // Add some bricks to check if delete conflicts works fakeid := devicemap["/dev/fake1"].Info.Id err = app.db.Update(func(tx *bolt.Tx) error { device, err := NewDeviceEntryFromId(tx, fakeid) if err != nil { return err } device.BrickAdd("123") device.BrickAdd("456") return device.Save(tx) }) tests.Assert(t, err == nil) // Now delete device and check for conflict req, err := http.NewRequest("DELETE", ts.URL+"/devices/"+fakeid, nil) tests.Assert(t, err == nil) r, err = http.DefaultClient.Do(req) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusConflict) // Check the db is still intact err = app.db.View(func(tx *bolt.Tx) error { device, err := NewDeviceEntryFromId(tx, fakeid) if err != nil { return err } node, err = NewNodeEntryFromId(tx, device.NodeId) if err != nil { return err } return nil }) tests.Assert(t, err == nil) tests.Assert(t, utils.SortedStringHas(node.Devices, fakeid)) // Node delete bricks from the device err = app.db.Update(func(tx *bolt.Tx) error { device, err := NewDeviceEntryFromId(tx, fakeid) if err != nil { return err } device.BrickDelete("123") device.BrickDelete("456") return device.Save(tx) }) tests.Assert(t, err == nil) // Delete device req, err = http.NewRequest("DELETE", ts.URL+"/devices/"+fakeid, nil) tests.Assert(t, err == nil) r, err = http.DefaultClient.Do(req) tests.Assert(t, err == nil) tests.Assert(t, r.StatusCode == http.StatusAccepted) location, err = r.Location() tests.Assert(t, err == nil) // Wait for deletion for { r, err := http.Get(location.String()) tests.Assert(t, err == nil) if r.Header.Get("X-Pending") == "true" { tests.Assert(t, r.StatusCode == http.StatusOK) time.Sleep(time.Millisecond * 10) continue } else { tests.Assert(t, r.StatusCode == http.StatusNoContent) break } } // Check db err = app.db.View(func(tx *bolt.Tx) error { _, err := NewDeviceEntryFromId(tx, fakeid) return err }) tests.Assert(t, err == ErrNotFound) // Check node does not have the device err = app.db.View(func(tx *bolt.Tx) error { node, err = NewNodeEntryFromId(tx, node.Info.Id) return err }) tests.Assert(t, err == nil) tests.Assert(t, !utils.SortedStringHas(node.Devices, fakeid)) }
func (d *DeviceEntry) BrickAdd(id string) { godbc.Require(!utils.SortedStringHas(d.Bricks, id)) d.Bricks = append(d.Bricks, id) d.Bricks.Sort() }
func TestClusterEntryAddDeleteElements(t *testing.T) { c := NewClusterEntry() c.NodeAdd("123") tests.Assert(t, len(c.Info.Nodes) == 1) tests.Assert(t, len(c.Info.Volumes) == 0) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "123")) c.NodeAdd("456") tests.Assert(t, len(c.Info.Nodes) == 2) tests.Assert(t, len(c.Info.Volumes) == 0) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "123")) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "456")) c.VolumeAdd("aabb") tests.Assert(t, len(c.Info.Nodes) == 2) tests.Assert(t, len(c.Info.Volumes) == 1) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "123")) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "456")) tests.Assert(t, utils.SortedStringHas(c.Info.Volumes, "aabb")) c.NodeDelete("aabb") tests.Assert(t, len(c.Info.Nodes) == 2) tests.Assert(t, len(c.Info.Volumes) == 1) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "123")) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "456")) tests.Assert(t, utils.SortedStringHas(c.Info.Volumes, "aabb")) c.NodeDelete("456") tests.Assert(t, len(c.Info.Nodes) == 1) tests.Assert(t, len(c.Info.Volumes) == 1) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "123")) tests.Assert(t, !utils.SortedStringHas(c.Info.Nodes, "456")) tests.Assert(t, utils.SortedStringHas(c.Info.Volumes, "aabb")) c.NodeDelete("123") tests.Assert(t, len(c.Info.Nodes) == 0) tests.Assert(t, len(c.Info.Volumes) == 1) tests.Assert(t, !utils.SortedStringHas(c.Info.Nodes, "123")) tests.Assert(t, !utils.SortedStringHas(c.Info.Nodes, "456")) tests.Assert(t, utils.SortedStringHas(c.Info.Volumes, "aabb")) c.VolumeDelete("123") tests.Assert(t, len(c.Info.Nodes) == 0) tests.Assert(t, len(c.Info.Volumes) == 1) tests.Assert(t, !utils.SortedStringHas(c.Info.Nodes, "123")) tests.Assert(t, !utils.SortedStringHas(c.Info.Nodes, "456")) tests.Assert(t, utils.SortedStringHas(c.Info.Volumes, "aabb")) c.VolumeDelete("aabb") tests.Assert(t, len(c.Info.Nodes) == 0) tests.Assert(t, len(c.Info.Volumes) == 0) tests.Assert(t, !utils.SortedStringHas(c.Info.Nodes, "123")) tests.Assert(t, !utils.SortedStringHas(c.Info.Nodes, "456")) tests.Assert(t, !utils.SortedStringHas(c.Info.Volumes, "aabb")) }
func TestNewClusterEntrySaveDelete(t *testing.T) { tmpfile := tests.Tempfile() defer os.Remove(tmpfile) // Create the app app := NewTestApp(tmpfile) defer app.Close() // Create a cluster c := NewClusterEntryFromRequest() c.NodeAdd("node_abc") c.NodeAdd("node_def") c.VolumeAdd("vol_abc") // Save element in database err := app.db.Update(func(tx *bolt.Tx) error { return c.Save(tx) }) tests.Assert(t, err == nil) var cluster *ClusterEntry err = app.db.View(func(tx *bolt.Tx) error { var err error cluster, err = NewClusterEntryFromId(tx, c.Info.Id) if err != nil { return err } return nil }) tests.Assert(t, err == nil) tests.Assert(t, cluster.Info.Id == c.Info.Id) tests.Assert(t, len(c.Info.Nodes) == 2) tests.Assert(t, len(c.Info.Volumes) == 1) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "node_abc")) tests.Assert(t, utils.SortedStringHas(c.Info.Nodes, "node_def")) tests.Assert(t, utils.SortedStringHas(c.Info.Volumes, "vol_abc")) // Delete entry which has devices err = app.db.Update(func(tx *bolt.Tx) error { var err error cluster, err = NewClusterEntryFromId(tx, c.Info.Id) if err != nil { return err } err = cluster.Delete(tx) if err != nil { return err } return nil }) tests.Assert(t, err == ErrConflict) // Delete devices in cluster cluster.VolumeDelete("vol_abc") tests.Assert(t, len(cluster.Info.Volumes) == 0) tests.Assert(t, len(cluster.Info.Nodes) == 2) // Save cluster err = app.db.Update(func(tx *bolt.Tx) error { return cluster.Save(tx) }) tests.Assert(t, err == nil) // Try do delete a cluster which still has nodes err = app.db.Update(func(tx *bolt.Tx) error { var err error cluster, err = NewClusterEntryFromId(tx, c.Info.Id) if err != nil { return err } err = cluster.Delete(tx) if err != nil { return err } return nil }) tests.Assert(t, err == ErrConflict) // Delete cluster cluster.NodeDelete("node_abc") cluster.NodeDelete("node_def") tests.Assert(t, len(cluster.Info.Nodes) == 0) // Save cluster err = app.db.Update(func(tx *bolt.Tx) error { return cluster.Save(tx) }) tests.Assert(t, err == nil) // Now try to delete the cluster with no elements err = app.db.Update(func(tx *bolt.Tx) error { var err error cluster, err = NewClusterEntryFromId(tx, c.Info.Id) if err != nil { return err } err = cluster.Delete(tx) if err != nil { return err } return nil }) tests.Assert(t, err == nil) // Check cluster has been deleted and is not in db err = app.db.View(func(tx *bolt.Tx) error { var err error cluster, err = NewClusterEntryFromId(tx, c.Info.Id) if err != nil { return err } return nil }) tests.Assert(t, err == ErrNotFound) }