func (t *txnBufState) effect() (toPut []datastore.PropertyMap, toPutKeys, toDel []*datastore.Key) { // TODO(riannucci): preallocate return slices // need to pull all items out of the in-memory datastore. Fortunately we have // kindless queries, and we disabled all the special entities, so just // run a kindless query without any filters and it will return all data // currently in bufDS :). fq, err := datastore.NewQuery("").Finalize() impossible(err) err = t.bufDS.Run(fq, func(key *datastore.Key, data datastore.PropertyMap, _ datastore.CursorCB) error { toPutKeys = append(toPutKeys, key) toPut = append(toPut, data) return nil }) memoryCorruption(err) for keyStr, size := range t.entState.keyToSize { if size == 0 { k, err := serialize.ReadKey(bytes.NewBufferString(keyStr), serialize.WithoutContext, t.aid, t.ns) memoryCorruption(err) toDel = append(toDel, k) } } return }
func nq(kindMaybe ...string) *ds.Query { kind := "Foo" if len(kindMaybe) == 1 { kind = kindMaybe[0] } return ds.NewQuery(kind) }
func TestNewDatastore(t *testing.T) { t.Parallel() Convey("Can get and use a NewDatastore", t, func() { ds, err := NewDatastore("aid", "ns") So(err, ShouldBeNil) k := ds.MakeKey("Something", 1) So(k.AppID(), ShouldEqual, "aid") So(k.Namespace(), ShouldEqual, "ns") type Model struct { ID int64 `gae:"$id"` Value []int64 } So(ds.Put(&Model{ID: 1, Value: []int64{20, 30}}), ShouldBeNil) vals := []dsS.PropertyMap{} So(ds.GetAll(dsS.NewQuery("Model").Project("Value"), &vals), ShouldBeNil) So(len(vals), ShouldEqual, 2) So(vals[0]["Value"][0].Value(), ShouldEqual, 20) So(vals[1]["Value"][0].Value(), ShouldEqual, 30) }) }
func TestBasicDatastore(t *testing.T) { t.Parallel() Convey("basic", t, func() { inst, err := aetest.NewInstance(&aetest.Options{ StronglyConsistentDatastore: true, }) So(err, ShouldBeNil) defer inst.Close() req, err := inst.NewRequest("GET", "/", nil) So(err, ShouldBeNil) ctx := Use(context.Background(), req) ds := datastore.Get(ctx) mc := memcache.Get(ctx) inf := info.Get(ctx) Convey("logging allows you to tweak the level", func() { // You have to visually confirm that this actually happens in the stdout // of the test... yeah I know. logging.Debugf(ctx, "SHOULD NOT SEE") logging.Infof(ctx, "SHOULD SEE") ctx = logging.SetLevel(ctx, logging.Debug) logging.Debugf(ctx, "SHOULD SEE") logging.Infof(ctx, "SHOULD SEE (2)") }) Convey("Can probe/change Namespace", func() { So(inf.GetNamespace(), ShouldEqual, "") ctx, err = inf.Namespace("wat") So(err, ShouldBeNil) inf = info.Get(ctx) So(inf.GetNamespace(), ShouldEqual, "wat") ds = datastore.Get(ctx) So(ds.MakeKey("Hello", "world").Namespace(), ShouldEqual, "wat") }) Convey("Can get non-transactional context", func() { ctx, err := inf.Namespace("foo") So(err, ShouldBeNil) ds = datastore.Get(ctx) inf = info.Get(ctx) ds.RunInTransaction(func(ctx context.Context) error { So(ds.MakeKey("Foo", "bar").Namespace(), ShouldEqual, "foo") So(ds.Put(&TestStruct{ValueI: []int64{100}}), ShouldBeNil) err = datastore.GetNoTxn(ctx).RunInTransaction(func(ctx context.Context) error { ds = datastore.Get(ctx) So(ds.MakeKey("Foo", "bar").Namespace(), ShouldEqual, "foo") So(ds.Put(&TestStruct{ValueI: []int64{100}}), ShouldBeNil) return nil }, nil) So(err, ShouldBeNil) return nil }, nil) }) Convey("Can Put/Get", func() { orig := TestStruct{ ValueI: []int64{1, 7, 946688461000000, 996688461000000}, ValueB: []bool{true, false}, ValueS: []string{"hello", "world"}, ValueF: []float64{1.0, 7.0, 946688461000000.0, 996688461000000.0}, ValueBS: [][]byte{ []byte("allo"), []byte("hello"), []byte("world"), []byte("zurple"), }, ValueK: []*datastore.Key{ ds.NewKey("Something", "Cool", 0, nil), ds.NewKey("Something", "", 1, nil), ds.NewKey("Something", "Recursive", 0, ds.NewKey("Parent", "", 2, nil)), }, ValueBK: []blobstore.Key{"bellow", "hello"}, ValueGP: []datastore.GeoPoint{ {Lat: 120.7, Lng: 95.5}, }, } So(ds.Put(&orig), ShouldBeNil) ret := TestStruct{ID: orig.ID} So(ds.Get(&ret), ShouldBeNil) So(ret, ShouldResemble, orig) // can't be sure the indexes have caught up... so sleep time.Sleep(time.Second) Convey("Can query", func() { q := datastore.NewQuery("TestStruct") ds.Run(q, func(ts *TestStruct) { So(*ts, ShouldResemble, orig) }) count, err := ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 1) }) Convey("Can project", func() { q := datastore.NewQuery("TestStruct").Project("ValueS") rslts := []datastore.PropertyMap{} So(ds.GetAll(q, &rslts), ShouldBeNil) So(rslts, ShouldResemble, []datastore.PropertyMap{ { "$key": {mpNI(ds.KeyForObj(&orig))}, "ValueS": {mp("hello")}, }, { "$key": {mpNI(ds.KeyForObj(&orig))}, "ValueS": {mp("world")}, }, }) q = datastore.NewQuery("TestStruct").Project("ValueBS") rslts = []datastore.PropertyMap{} So(ds.GetAll(q, &rslts), ShouldBeNil) So(rslts, ShouldResemble, []datastore.PropertyMap{ { "$key": {mpNI(ds.KeyForObj(&orig))}, "ValueBS": {mp("allo")}, }, { "$key": {mpNI(ds.KeyForObj(&orig))}, "ValueBS": {mp("hello")}, }, { "$key": {mpNI(ds.KeyForObj(&orig))}, "ValueBS": {mp("world")}, }, { "$key": {mpNI(ds.KeyForObj(&orig))}, "ValueBS": {mp("zurple")}, }, }) count, err := ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 4) }) }) Convey("Can Put/Get (time)", func() { // time comparisons in Go are wonky, so this is pulled out pm := datastore.PropertyMap{ "$key": {mpNI(ds.NewKey("Something", "value", 0, nil))}, "Time": { mp(time.Date(1938, time.January, 1, 1, 1, 1, 1, time.UTC)), mp(time.Time{}), }, } So(ds.Put(&pm), ShouldBeNil) rslt := datastore.PropertyMap{} rslt.SetMeta("key", ds.KeyForObj(pm)) So(ds.Get(&rslt), ShouldBeNil) So(pm["Time"][0].Value(), ShouldResemble, rslt["Time"][0].Value()) q := datastore.NewQuery("Something").Project("Time") all := []datastore.PropertyMap{} So(ds.GetAll(q, &all), ShouldBeNil) So(len(all), ShouldEqual, 2) prop := all[0]["Time"][0] So(prop.Type(), ShouldEqual, datastore.PTInt) tval, err := prop.Project(datastore.PTTime) So(err, ShouldBeNil) So(tval, ShouldResemble, time.Time{}) tval, err = all[1]["Time"][0].Project(datastore.PTTime) So(err, ShouldBeNil) So(tval, ShouldResemble, pm["Time"][0].Value()) ent := datastore.PropertyMap{ "$key": {mpNI(ds.MakeKey("Something", "value"))}, } So(ds.Get(&ent), ShouldBeNil) So(ent["Time"], ShouldResemble, pm["Time"]) }) Convey("memcache: Set (nil) is the same as Set ([]byte{})", func() { So(mc.Set(mc.NewItem("bob")), ShouldBeNil) // normally would panic because Value is nil bob, err := mc.Get("bob") So(err, ShouldBeNil) So(bob.Value(), ShouldResemble, []byte{}) }) }) }
func TestQuerySupport(t *testing.T) { t.Parallel() Convey("Queries", t, func() { Convey("Good", func() { q := datastore.NewQuery("Foo").Ancestor(root) Convey("normal", func() { _, _, ds := mkds(dataSingleRoot) ds.Testable().AddIndexes(&datastore.IndexDefinition{ Kind: "Foo", Ancestor: true, SortBy: []datastore.IndexColumn{ {Property: "Value"}, }, }) So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) q = q.Lt("Value", 400000000000000000) vals := []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 8) count, err := ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 8) f := &Foo{ID: 1, Parent: root} So(ds.Get(f), ShouldBeNil) f.Value = append(f.Value, 100) So(ds.Put(f), ShouldBeNil) // Wowee, zowee, merged queries! vals2 := []*Foo{} So(ds.GetAll(q, &vals2), ShouldBeNil) So(len(vals2), ShouldEqual, 9) So(vals2[0], ShouldResemble, f) vals2 = []*Foo{} So(ds.GetAll(q.Limit(2).Offset(1), &vals2), ShouldBeNil) So(len(vals2), ShouldEqual, 2) So(vals2, ShouldResemble, vals[:2]) return nil }, nil), ShouldBeNil) }) Convey("keysOnly", func() { _, _, ds := mkds([]*Foo{ {ID: 2, Parent: root, Value: []int64{1, 2, 3, 4, 5, 6, 7}}, {ID: 3, Parent: root, Value: []int64{3, 4, 5, 6, 7, 8, 9}}, {ID: 4, Parent: root, Value: []int64{3, 5, 7, 9, 11, 100, 1}}, {ID: 5, Parent: root, Value: []int64{1, 70, 101}}, }) So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) q = q.Eq("Value", 1).KeysOnly(true) vals := []*datastore.Key{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 3) So(vals[2], ShouldResemble, ds.MakeKey("Parent", 1, "Foo", 5)) // can remove keys So(ds.Delete(ds.MakeKey("Parent", 1, "Foo", 2)), ShouldBeNil) vals = []*datastore.Key{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 2) // and add new ones So(ds.Put(&Foo{ID: 1, Parent: root, Value: []int64{1, 7, 100}}), ShouldBeNil) So(ds.Put(&Foo{ID: 7, Parent: root, Value: []int64{20, 1}}), ShouldBeNil) vals = []*datastore.Key{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 4) So(vals[0].IntID(), ShouldEqual, 1) So(vals[1].IntID(), ShouldEqual, 4) So(vals[2].IntID(), ShouldEqual, 5) So(vals[3].IntID(), ShouldEqual, 7) return nil }, nil), ShouldBeNil) }) Convey("project", func() { _, _, ds := mkds([]*Foo{ {ID: 2, Parent: root, Value: []int64{1, 2, 3, 4, 5, 6, 7}}, {ID: 3, Parent: root, Value: []int64{3, 4, 5, 6, 7, 8, 9}}, {ID: 4, Parent: root, Value: []int64{3, 5, 7, 9, 11, 100, 1}}, {ID: 5, Parent: root, Value: []int64{1, 70, 101}}, }) ds.Testable().AddIndexes(&datastore.IndexDefinition{ Kind: "Foo", Ancestor: true, SortBy: []datastore.IndexColumn{ {Property: "Value"}, }, }) So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) count, err := ds.Count(q.Project("Value")) So(err, ShouldBeNil) So(count, ShouldEqual, 24) q = q.Project("Value").Offset(4).Limit(10) vals := []datastore.PropertyMap{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 10) expect := []struct { id int64 val int64 }{ {2, 3}, {3, 3}, {4, 3}, {2, 4}, {3, 4}, {2, 5}, {3, 5}, {4, 5}, {2, 6}, {3, 6}, } for i, pm := range vals { So(datastore.GetMetaDefault(pm, "key", nil), ShouldResemble, ds.MakeKey("Parent", 1, "Foo", expect[i].id)) So(pm["Value"][0].Value(), ShouldEqual, expect[i].val) } // should remove 4 entries, but there are plenty more to fill So(ds.Delete(ds.MakeKey("Parent", 1, "Foo", 2)), ShouldBeNil) vals = []datastore.PropertyMap{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 10) expect = []struct { id int64 val int64 }{ // note (3, 3) and (4, 3) are correctly missing because deleting // 2 removed two entries which are hidden by the Offset(4). {3, 4}, {3, 5}, {4, 5}, {3, 6}, {3, 7}, {4, 7}, {3, 8}, {3, 9}, {4, 9}, {4, 11}, } for i, pm := range vals { So(datastore.GetMetaDefault(pm, "key", nil), ShouldResemble, ds.MakeKey("Parent", 1, "Foo", expect[i].id)) So(pm["Value"][0].Value(), ShouldEqual, expect[i].val) } So(ds.Put(&Foo{ID: 1, Parent: root, Value: []int64{3, 9}}), ShouldBeNil) vals = []datastore.PropertyMap{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 10) expect = []struct { id int64 val int64 }{ // 'invisible' {1, 3} entry bumps the {4, 3} into view. {4, 3}, {3, 4}, {3, 5}, {4, 5}, {3, 6}, {3, 7}, {4, 7}, {3, 8}, {1, 9}, {3, 9}, {4, 9}, } for i, pm := range vals { So(datastore.GetMetaDefault(pm, "key", nil), ShouldResemble, ds.MakeKey("Parent", 1, "Foo", expect[i].id)) So(pm["Value"][0].Value(), ShouldEqual, expect[i].val) } return nil }, nil), ShouldBeNil) }) Convey("project+distinct", func() { _, _, ds := mkds([]*Foo{ {ID: 2, Parent: root, Value: []int64{1, 2, 3, 4, 5, 6, 7}}, {ID: 3, Parent: root, Value: []int64{3, 4, 5, 6, 7, 8, 9}}, {ID: 4, Parent: root, Value: []int64{3, 5, 7, 9, 11, 100, 1}}, {ID: 5, Parent: root, Value: []int64{1, 70, 101}}, }) ds.Testable().AddIndexes(&datastore.IndexDefinition{ Kind: "Foo", Ancestor: true, SortBy: []datastore.IndexColumn{ {Property: "Value"}, }, }) So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) q = q.Project("Value").Distinct(true) vals := []datastore.PropertyMap{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 13) expect := []struct { id int64 val int64 }{ {2, 1}, {2, 2}, {2, 3}, {2, 4}, {2, 5}, {2, 6}, {2, 7}, {3, 8}, {3, 9}, {4, 11}, {5, 70}, {4, 100}, {5, 101}, } for i, pm := range vals { So(pm["Value"][0].Value(), ShouldEqual, expect[i].val) So(datastore.GetMetaDefault(pm, "key", nil), ShouldResemble, ds.MakeKey("Parent", 1, "Foo", expect[i].id)) } return nil }, nil), ShouldBeNil) }) Convey("overwrite", func() { data := []*Foo{ {ID: 2, Parent: root, Value: []int64{1, 2, 3, 4, 5, 6, 7}}, {ID: 3, Parent: root, Value: []int64{3, 4, 5, 6, 7, 8, 9}}, {ID: 4, Parent: root, Value: []int64{3, 5, 7, 9, 11, 100, 1, 2}}, {ID: 5, Parent: root, Value: []int64{1, 70, 101}}, } _, _, ds := mkds(data) q = q.Eq("Value", 2, 3) So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) vals := []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 2) So(vals[0], ShouldResemble, data[0]) So(vals[1], ShouldResemble, data[2]) foo2 := &Foo{ID: 2, Parent: root, Value: []int64{2, 3}} So(ds.Put(foo2), ShouldBeNil) vals = []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 2) So(vals[0], ShouldResemble, foo2) So(vals[1], ShouldResemble, data[2]) foo1 := &Foo{ID: 1, Parent: root, Value: []int64{2, 3}} So(ds.Put(foo1), ShouldBeNil) vals = []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 3) So(vals[0], ShouldResemble, foo1) So(vals[1], ShouldResemble, foo2) So(vals[2], ShouldResemble, data[2]) return nil }, nil), ShouldBeNil) }) projectData := []*Foo{ {ID: 2, Parent: root, Value: []int64{1, 2, 3, 4, 5, 6, 7}, Sort: []string{"x", "z"}}, {ID: 3, Parent: root, Value: []int64{3, 4, 5, 6, 7, 8, 9}, Sort: []string{"b"}}, {ID: 4, Parent: root, Value: []int64{3, 5, 7, 9, 11, 100, 1, 2}, Sort: []string{"aa", "a"}}, {ID: 5, Parent: root, Value: []int64{1, 70, 101}, Sort: []string{"c"}}, } Convey("project+extra orders", func() { _, _, ds := mkds(projectData) ds.Testable().AddIndexes(&datastore.IndexDefinition{ Kind: "Foo", Ancestor: true, SortBy: []datastore.IndexColumn{ {Property: "Sort", Descending: true}, {Property: "Value", Descending: true}, }, }) q = q.Project("Value").Order("-Sort", "-Value").Distinct(true) So(ds.RunInTransaction(func(c context.Context) error { ds = datastore.Get(c) So(ds.Put(&Foo{ ID: 1, Parent: root, Value: []int64{0, 1, 1000}, Sort: []string{"zz"}}), ShouldBeNil) vals := []datastore.PropertyMap{} So(ds.GetAll(q, &vals), ShouldBeNil) expect := []struct { id int64 val int64 }{ {1, 1000}, {1, 1}, {1, 0}, {2, 7}, {2, 6}, {2, 5}, {2, 4}, {2, 3}, {2, 2}, {5, 101}, {5, 70}, {3, 9}, {3, 8}, {4, 100}, {4, 11}, } for i, pm := range vals { So(pm["Value"][0].Value(), ShouldEqual, expect[i].val) So(datastore.GetMetaDefault(pm, "key", nil), ShouldResemble, ds.MakeKey("Parent", 1, "Foo", expect[i].id)) } return nil }, nil), ShouldBeNil) }) Convey("buffered entity sorts before ineq, but after first parent entity", func() { // If we got this wrong, we'd see Foo,3 come before Foo,2. This might // happen because we calculate the comparison string for each entity // based on the whole entity, but we forgot to limit the comparison // string generation by the inequality criteria. data := []*Foo{ {ID: 2, Parent: root, Value: []int64{2, 3, 5, 6}, Sort: []string{"z"}}, } _, _, ds := mkds(data) ds.Testable().AddIndexes(&datastore.IndexDefinition{ Kind: "Foo", Ancestor: true, SortBy: []datastore.IndexColumn{ {Property: "Value"}, }, }) q = q.Gt("Value", 2).Limit(2) So(ds.RunInTransaction(func(c context.Context) error { ds = datastore.Get(c) foo1 := &Foo{ID: 3, Parent: root, Value: []int64{0, 2, 3, 4}} So(ds.Put(foo1), ShouldBeNil) vals := []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 2) So(vals[0], ShouldResemble, data[0]) So(vals[1], ShouldResemble, foo1) return nil }, nil), ShouldBeNil) }) Convey("keysOnly+extra orders", func() { _, _, ds := mkds(projectData) ds.Testable().AddIndexes(&datastore.IndexDefinition{ Kind: "Foo", Ancestor: true, SortBy: []datastore.IndexColumn{ {Property: "Sort"}, }, }) q = q.Order("Sort").KeysOnly(true) So(ds.RunInTransaction(func(c context.Context) error { ds = datastore.Get(c) So(ds.Put(&Foo{ ID: 1, Parent: root, Value: []int64{0, 1, 1000}, Sort: []string{"x", "zz"}}), ShouldBeNil) So(ds.Put(&Foo{ ID: 2, Parent: root, Value: []int64{0, 1, 1000}, Sort: []string{"zz", "zzz", "zzzz"}}), ShouldBeNil) vals := []*datastore.Key{} So(ds.GetAll(q, &vals), ShouldBeNil) So(len(vals), ShouldEqual, 5) So(vals, ShouldResemble, []*datastore.Key{ ds.MakeKey("Parent", 1, "Foo", 4), ds.MakeKey("Parent", 1, "Foo", 3), ds.MakeKey("Parent", 1, "Foo", 5), ds.MakeKey("Parent", 1, "Foo", 1), ds.MakeKey("Parent", 1, "Foo", 2), }) return nil }, nil), ShouldBeNil) }) Convey("query accross nested transactions", func() { _, _, ds := mkds(projectData) q = q.Eq("Value", 2, 3) foo1 := &Foo{ID: 1, Parent: root, Value: []int64{2, 3}} foo7 := &Foo{ID: 7, Parent: root, Value: []int64{2, 3}} So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) So(ds.Put(foo1), ShouldBeNil) vals := []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(vals, ShouldResemble, []*Foo{foo1, projectData[0], projectData[2]}) So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) vals := []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(vals, ShouldResemble, []*Foo{foo1, projectData[0], projectData[2]}) So(ds.Delete(ds.MakeKey("Parent", 1, "Foo", 4)), ShouldBeNil) So(ds.Put(foo7), ShouldBeNil) vals = []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(vals, ShouldResemble, []*Foo{foo1, projectData[0], foo7}) return nil }, nil), ShouldBeNil) vals = []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(vals, ShouldResembleV, []*Foo{foo1, projectData[0], foo7}) return nil }, nil), ShouldBeNil) vals := []*Foo{} So(ds.GetAll(q, &vals), ShouldBeNil) So(vals, ShouldResemble, []*Foo{foo1, projectData[0], foo7}) }) Convey("start transaction from inside query", func() { _, _, ds := mkds(projectData) So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) q := datastore.NewQuery("Foo").Ancestor(root) return ds.Run(q, func(pm datastore.PropertyMap) { So(ds.RunInTransaction(func(c context.Context) error { ds := datastore.Get(c) pm["Value"] = append(pm["Value"], datastore.MkProperty("wat")) return ds.Put(pm) }, nil), ShouldBeNil) }) }, &datastore.TransactionOptions{XG: true}), ShouldBeNil) So(ds.Run(datastore.NewQuery("Foo"), func(pm datastore.PropertyMap) { val := pm["Value"] So(val[len(val)-1].Value(), ShouldResemble, "wat") }), ShouldBeNil) }) }) }) }
func TestDatastoreSingleReadWriter(t *testing.T) { t.Parallel() Convey("Datastore single reads and writes", t, func() { c := Use(context.Background()) ds := dsS.Get(c) So(ds, ShouldNotBeNil) Convey("getting objects that DNE is an error", func() { So(ds.Get(&Foo{ID: 1}), ShouldEqual, dsS.ErrNoSuchEntity) }) Convey("bad namespaces fail", func() { _, err := infoS.Get(c).Namespace("$$blzyall") So(err.Error(), ShouldContainSubstring, "namespace \"$$blzyall\" does not match") }) Convey("Can Put stuff", func() { // with an incomplete key! f := &Foo{Val: 10} So(ds.Put(f), ShouldBeNil) k := ds.KeyForObj(f) So(k.String(), ShouldEqual, "dev~app::/Foo,1") Convey("and Get it back", func() { newFoo := &Foo{ID: 1} So(ds.Get(newFoo), ShouldBeNil) So(newFoo, ShouldResemble, f) Convey("but it's hidden from a different namespace", func() { c, err := infoS.Get(c).Namespace("whombat") So(err, ShouldBeNil) ds = dsS.Get(c) So(ds.Get(f), ShouldEqual, dsS.ErrNoSuchEntity) }) Convey("and we can Delete it", func() { So(ds.Delete(k), ShouldBeNil) So(ds.Get(newFoo), ShouldEqual, dsS.ErrNoSuchEntity) }) }) Convey("Deleteing with a bogus key is bad", func() { So(ds.Delete(ds.NewKey("Foo", "wat", 100, nil)), ShouldEqual, dsS.ErrInvalidKey) }) Convey("Deleteing a DNE entity is fine", func() { So(ds.Delete(ds.NewKey("Foo", "wat", 0, nil)), ShouldBeNil) }) Convey("Deleting entities from a nonexistant namespace works", func() { aid := infoS.Get(c).FullyQualifiedAppID() keys := make([]*dsS.Key, 10) for i := range keys { keys[i] = ds.MakeKey(aid, "noexist", "Kind", i+1) } So(ds.DeleteMulti(keys), ShouldBeNil) count := 0 So(ds.Raw().DeleteMulti(keys, func(err error) error { count++ So(err, ShouldBeNil) return nil }), ShouldBeNil) So(count, ShouldEqual, len(keys)) }) Convey("with multiple puts", func() { So(testGetMeta(c, k), ShouldEqual, 1) foos := make([]Foo, 10) for i := range foos { foos[i].Val = 10 foos[i].Parent = k } So(ds.PutMulti(foos), ShouldBeNil) So(testGetMeta(c, k), ShouldEqual, 11) keys := make([]*dsS.Key, len(foos)) for i, f := range foos { keys[i] = ds.KeyForObj(&f) } Convey("ensure that group versions persist across deletes", func() { So(ds.DeleteMulti(append(keys, k)), ShouldBeNil) ds.Testable().CatchupIndexes() count := 0 So(ds.Run(dsS.NewQuery(""), func(_ *dsS.Key) { count++ }), ShouldBeNil) So(count, ShouldEqual, 3) So(testGetMeta(c, k), ShouldEqual, 22) So(ds.Put(&Foo{ID: 1}), ShouldBeNil) So(testGetMeta(c, k), ShouldEqual, 23) }) Convey("can Get", func() { vals := make([]dsS.PropertyMap, len(keys)) for i := range vals { vals[i] = dsS.PropertyMap{} So(vals[i].SetMeta("key", keys[i]), ShouldBeTrue) } So(ds.GetMulti(vals), ShouldBeNil) for i, val := range vals { So(val, ShouldResemble, dsS.PropertyMap{ "Val": {dsS.MkProperty(10)}, "$key": {dsS.MkPropertyNI(keys[i])}, }) } }) }) Convey("allocating ids prevents their use", func() { start, err := ds.AllocateIDs(ds.MakeKey("Foo", 0), 100) So(err, ShouldBeNil) So(start, ShouldEqual, 2) f := &Foo{Val: 10} So(ds.Put(f), ShouldBeNil) k := ds.KeyForObj(f) So(k.String(), ShouldEqual, "dev~app::/Foo,102") }) }) Convey("implements DSTransactioner", func() { Convey("Put", func() { f := &Foo{Val: 10} So(ds.Put(f), ShouldBeNil) k := ds.KeyForObj(f) So(k.String(), ShouldEqual, "dev~app::/Foo,1") Convey("can Put new entity groups", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) f := &Foo{Val: 100} So(ds.Put(f), ShouldBeNil) So(f.ID, ShouldEqual, 2) f.ID = 0 f.Val = 200 So(ds.Put(f), ShouldBeNil) So(f.ID, ShouldEqual, 3) return nil }, &dsS.TransactionOptions{XG: true}) So(err, ShouldBeNil) f := &Foo{ID: 2} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 100) f.ID = 3 So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 200) }) Convey("can Put new entities in a current group", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) f := &Foo{Val: 100, Parent: k} So(ds.Put(f), ShouldBeNil) So(ds.KeyForObj(f).String(), ShouldEqual, "dev~app::/Foo,1/Foo,1") f.ID = 0 f.Val = 200 So(ds.Put(f), ShouldBeNil) So(ds.KeyForObj(f).String(), ShouldEqual, "dev~app::/Foo,1/Foo,2") return nil }, nil) So(err, ShouldBeNil) f := &Foo{ID: 1, Parent: k} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 100) f.ID = 2 So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 200) }) Convey("Deletes work too", func() { err := ds.RunInTransaction(func(c context.Context) error { return dsS.Get(c).Delete(k) }, nil) So(err, ShouldBeNil) So(ds.Get(&Foo{ID: 1}), ShouldEqual, dsS.ErrNoSuchEntity) }) Convey("A Get counts against your group count", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) pm := dsS.PropertyMap{} So(pm.SetMeta("key", ds.NewKey("Foo", "", 20, nil)), ShouldBeTrue) So(ds.Get(pm), ShouldEqual, dsS.ErrNoSuchEntity) So(pm.SetMeta("key", k), ShouldBeTrue) So(ds.Get(pm).Error(), ShouldContainSubstring, "cross-group") return nil }, nil) So(err, ShouldBeNil) }) Convey("Get takes a snapshot", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 10) // Don't ever do this in a real program unless you want to guarantee // a failed transaction :) f.Val = 11 So(dsS.GetNoTxn(c).Put(f), ShouldBeNil) So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 10) return nil }, nil) So(err, ShouldBeNil) f := &Foo{ID: 1} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 11) }) Convey("and snapshots are consistent even after Puts", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) f := &Foo{ID: 1} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 10) // Don't ever do this in a real program unless you want to guarantee // a failed transaction :) f.Val = 11 So(dsS.GetNoTxn(c).Put(f), ShouldBeNil) So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 10) f.Val = 20 So(ds.Put(f), ShouldBeNil) So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 10) // still gets 10 return nil }, &dsS.TransactionOptions{Attempts: 1}) So(err.Error(), ShouldContainSubstring, "concurrent") f := &Foo{ID: 1} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 11) }) Convey("Reusing a transaction context is bad news", func() { txnDS := dsS.Interface(nil) err := ds.RunInTransaction(func(c context.Context) error { txnDS = dsS.Get(c) So(txnDS.Get(f), ShouldBeNil) return nil }, nil) So(err, ShouldBeNil) So(txnDS.Get(f).Error(), ShouldContainSubstring, "expired") }) Convey("Nested transactions are rejected", func() { err := ds.RunInTransaction(func(c context.Context) error { err := dsS.Get(c).RunInTransaction(func(c context.Context) error { panic("noooo") }, nil) So(err.Error(), ShouldContainSubstring, "nested transactions") return nil }, nil) So(err, ShouldBeNil) }) Convey("Concurrent transactions only accept one set of changes", func() { // Note: I think this implementation is actually /slightly/ wrong. // According to my read of the docs for appengine, when you open a // transaction it actually (essentially) holds a reference to the // entire datastore. Our implementation takes a snapshot of the // entity group as soon as something observes/affects it. // // That said... I'm not sure if there's really a semantic difference. err := ds.RunInTransaction(func(c context.Context) error { So(dsS.Get(c).Put(&Foo{ID: 1, Val: 21}), ShouldBeNil) err := dsS.GetNoTxn(c).RunInTransaction(func(c context.Context) error { So(dsS.Get(c).Put(&Foo{ID: 1, Val: 27}), ShouldBeNil) return nil }, nil) So(err, ShouldBeNil) return nil }, nil) So(err.Error(), ShouldContainSubstring, "concurrent") f := &Foo{ID: 1} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 27) }) Convey("XG", func() { Convey("Modifying two groups with XG=false is invalid", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) f := &Foo{ID: 1, Val: 200} So(ds.Put(f), ShouldBeNil) f.ID = 2 err := ds.Put(f) So(err.Error(), ShouldContainSubstring, "cross-group") return err }, nil) So(err.Error(), ShouldContainSubstring, "cross-group") }) Convey("Modifying >25 groups with XG=true is invald", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) foos := make([]Foo, 25) for i := int64(1); i < 26; i++ { foos[i-1].ID = i foos[i-1].Val = 200 } So(ds.PutMulti(foos), ShouldBeNil) err := ds.Put(&Foo{ID: 26}) So(err.Error(), ShouldContainSubstring, "too many entity groups") return err }, &dsS.TransactionOptions{XG: true}) So(err.Error(), ShouldContainSubstring, "too many entity groups") }) }) Convey("Errors and panics", func() { Convey("returning an error aborts", func() { err := ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) So(ds.Put(&Foo{ID: 1, Val: 200}), ShouldBeNil) return fmt.Errorf("thingy") }, nil) So(err.Error(), ShouldEqual, "thingy") f := &Foo{ID: 1} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 10) }) Convey("panicing aborts", func() { So(func() { So(ds.RunInTransaction(func(c context.Context) error { ds := dsS.Get(c) So(ds.Put(&Foo{Val: 200}), ShouldBeNil) panic("wheeeeee") }, nil), ShouldBeNil) }, ShouldPanic) f := &Foo{ID: 1} So(ds.Get(f), ShouldBeNil) So(f.Val, ShouldEqual, 10) }) }) Convey("Transaction retries", func() { tst := ds.Testable() Reset(func() { tst.SetTransactionRetryCount(0) }) Convey("SetTransactionRetryCount set to zero", func() { tst.SetTransactionRetryCount(0) calls := 0 So(ds.RunInTransaction(func(c context.Context) error { calls++ return nil }, nil), ShouldBeNil) So(calls, ShouldEqual, 1) }) Convey("default TransactionOptions is 3 attempts", func() { tst.SetTransactionRetryCount(100) // more than 3 calls := 0 So(ds.RunInTransaction(func(c context.Context) error { calls++ return nil }, nil), ShouldEqual, dsS.ErrConcurrentTransaction) So(calls, ShouldEqual, 3) }) Convey("non-default TransactionOptions ", func() { tst.SetTransactionRetryCount(100) // more than 20 calls := 0 So(ds.RunInTransaction(func(c context.Context) error { calls++ return nil }, &dsS.TransactionOptions{Attempts: 20}), ShouldEqual, dsS.ErrConcurrentTransaction) So(calls, ShouldEqual, 20) }) Convey("SetTransactionRetryCount is respected", func() { tst.SetTransactionRetryCount(1) // less than 3 calls := 0 So(ds.RunInTransaction(func(c context.Context) error { calls++ return nil }, nil), ShouldBeNil) So(calls, ShouldEqual, 2) }) Convey("fatal errors are not retried", func() { tst.SetTransactionRetryCount(1) calls := 0 So(ds.RunInTransaction(func(c context.Context) error { calls++ return fmt.Errorf("omg") }, nil).Error(), ShouldEqual, "omg") So(calls, ShouldEqual, 1) }) }) }) }) Convey("Testable.Consistent", func() { Convey("false", func() { ds.Testable().Consistent(false) // the default for i := 0; i < 10; i++ { So(ds.Put(&Foo{ID: int64(i + 1), Val: i + 1}), ShouldBeNil) } q := dsS.NewQuery("Foo").Gt("Val", 3) count, err := ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 0) So(ds.Delete(ds.MakeKey("Foo", 4)), ShouldBeNil) count, err = ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 0) ds.Testable().Consistent(true) count, err = ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 6) }) Convey("true", func() { ds.Testable().Consistent(true) for i := 0; i < 10; i++ { So(ds.Put(&Foo{ID: int64(i + 1), Val: i + 1}), ShouldBeNil) } q := dsS.NewQuery("Foo").Gt("Val", 3) count, err := ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 7) So(ds.Delete(ds.MakeKey("Foo", 4)), ShouldBeNil) count, err = ds.Count(q) So(err, ShouldBeNil) So(count, ShouldEqual, 6) }) }) Convey("Testable.DisableSpecialEntities", func() { ds.Testable().DisableSpecialEntities(true) So(ds.Put(&Foo{}), ShouldErrLike, "allocateIDs is disabled") So(ds.Put(&Foo{ID: 1}), ShouldBeNil) ds.Testable().CatchupIndexes() count, err := ds.Count(dsS.NewQuery("")) So(err, ShouldBeNil) So(count, ShouldEqual, 1) // normally this would include __entity_group__ }) }) }