func TestBrokenFeatures(t *testing.T) {
t.Parallel()
e := errors.New("default err")
Convey("BrokenFeatures", t, func() {
c := memory.Use(context.Background())
Convey("Can break ds", func() {
Convey("without a default", func() {
c, bf := FilterRDS(c, nil)
ds := datastore.Get(c)
vals := []datastore.PropertyMap{{
"$key": {datastore.MkPropertyNI(ds.NewKey("Wut", "", 1, nil))},
}}
Convey("by specifying an error", func() {
bf.BreakFeatures(e, "GetMulti", "PutMulti")
So(ds.GetMulti(vals), ShouldEqual, e)
Convey("and you can unbreak them as well", func() {
bf.UnbreakFeatures("GetMulti")
So(errors.SingleError(ds.GetMulti(vals)), ShouldEqual, datastore.ErrNoSuchEntity)
Convey("no broken features at all is a shortcut", func() {
bf.UnbreakFeatures("PutMulti")
So(errors.SingleError(ds.GetMulti(vals)), ShouldEqual, datastore.ErrNoSuchEntity)
})
})
})
Convey("Not specifying an error gets you a generic error", func() {
bf.BreakFeatures(nil, "GetMulti")
So(ds.GetMulti(vals).Error(), ShouldContainSubstring, `feature "GetMulti" is broken`)
})
})
Convey("with a default", func() {
c, bf := FilterRDS(c, e)
ds := datastore.Get(c)
vals := []datastore.PropertyMap{{
"$key": {datastore.MkPropertyNI(ds.NewKey("Wut", "", 1, nil))},
}}
bf.BreakFeatures(nil, "GetMulti")
So(ds.GetMulti(vals), ShouldEqual, e)
})
})
})
}
func incrementLocked(ents *memCollection, key []byte) int64 {
ret := curVersion(ents, key) + 1
ents.Set(key, serialize.ToBytes(ds.PropertyMap{
"__version__": {ds.MkPropertyNI(ret)},
}))
return ret
}
func incrementLocked(ents *memCollection, key []byte, amt int) int64 {
if amt <= 0 {
panic(fmt.Errorf("incrementLocked called with bad `amt`: %d", amt))
}
ret := curVersion(ents, key) + 1
ents.Set(key, serialize.ToBytes(ds.PropertyMap{
"__version__": {ds.MkPropertyNI(ret + int64(amt-1))},
}))
return ret
}
func TestGetEntityGroupVersion(t *testing.T) {
t.Parallel()
Convey("GetEntityGroupVersion", t, func() {
c := memory.Use(context.Background())
c, fb := featureBreaker.FilterRDS(c, errors.New("INTERNAL_ERROR"))
ds := dstore.Get(c)
pm := dstore.PropertyMap{
"$key": {dstore.MkPropertyNI(ds.NewKey("A", "", 0, nil))},
"Val": {dstore.MkProperty(10)},
}
So(ds.Put(pm), ShouldBeNil)
aKey, ok := pm.GetMetaDefault("key", nil).(dstore.Key)
So(ok, ShouldBeTrue)
So(aKey, ShouldNotBeNil)
v, err := GetEntityGroupVersion(c, aKey)
So(err, ShouldBeNil)
So(v, ShouldEqual, 1)
So(ds.Delete(aKey), ShouldBeNil)
v, err = GetEntityGroupVersion(c, ds.NewKey("madeUp", "thing", 0, aKey))
So(err, ShouldBeNil)
So(v, ShouldEqual, 2)
v, err = GetEntityGroupVersion(c, ds.NewKey("madeUp", "thing", 0, nil))
So(err, ShouldBeNil)
So(v, ShouldEqual, 0)
fb.BreakFeatures(nil, "GetMulti")
v, err = GetEntityGroupVersion(c, aKey)
So(err.Error(), ShouldContainSubstring, "INTERNAL_ERROR")
})
}
func TestCount(t *testing.T) {
t.Parallel()
Convey("Test Count filter", t, func() {
c, fb := featureBreaker.FilterRDS(memory.Use(context.Background()), nil)
c, ctr := FilterRDS(c)
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
ds := datastore.Get(c)
vals := []datastore.PropertyMap{{
"Val": {datastore.MkProperty(100)},
"$key": {datastore.MkPropertyNI(ds.NewKey("Kind", "", 1, nil))},
}}
Convey("Calling a ds function should reflect in counter", func() {
So(ds.PutMulti(vals), ShouldBeNil)
So(ctr.PutMulti.Successes(), ShouldEqual, 1)
Convey("effects are cumulative", func() {
So(ds.PutMulti(vals), ShouldBeNil)
So(ctr.PutMulti.Successes(), ShouldEqual, 2)
Convey("even within transactions", func() {
die(ds.RunInTransaction(func(c context.Context) error {
ds := datastore.Get(c)
So(ds.PutMulti(append(vals, vals[0])), ShouldBeNil)
return nil
}, nil))
})
})
})
Convey("errors count against errors", func() {
fb.BreakFeatures(nil, "GetMulti")
So(ds.GetMulti(vals), ShouldErrLike, `"GetMulti" is broken`)
So(ctr.GetMulti.Errors(), ShouldEqual, 1)
fb.UnbreakFeatures("GetMulti")
So(ds.PutMulti(vals), ShouldBeNil)
die(ds.GetMulti(vals))
So(ctr.GetMulti.Errors(), ShouldEqual, 1)
So(ctr.GetMulti.Successes(), ShouldEqual, 1)
So(ctr.GetMulti.Total(), ShouldEqual, 2)
})
})
Convey("works for memcache", t, func() {
c, ctr := FilterMC(memory.Use(context.Background()))
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
mc := memcache.Get(c)
die(mc.Set(mc.NewItem("hello").SetValue([]byte("sup"))))
_, err := mc.Get("Wat")
So(err, ShouldNotBeNil)
_, err = mc.Get("hello")
die(err)
So(ctr.SetMulti, shouldHaveSuccessesAndErrors, 1, 0)
So(ctr.GetMulti, shouldHaveSuccessesAndErrors, 2, 0)
So(ctr.NewItem, shouldHaveSuccessesAndErrors, 3, 0)
})
Convey("works for taskqueue", t, func() {
c, ctr := FilterTQ(memory.Use(context.Background()))
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
tq := taskqueue.Get(c)
die(tq.Add(&taskqueue.Task{Name: "wat"}, ""))
So(tq.Add(&taskqueue.Task{Name: "wat"}, "DNE_QUEUE"),
ShouldErrLike, "UNKNOWN_QUEUE")
So(ctr.AddMulti, shouldHaveSuccessesAndErrors, 1, 1)
})
Convey("works for global info", t, func() {
c, fb := featureBreaker.FilterGI(memory.Use(context.Background()), nil)
c, ctr := FilterGI(c)
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
gi := info.Get(c)
_, err := gi.Namespace("foo")
die(err)
fb.BreakFeatures(nil, "Namespace")
_, err = gi.Namespace("boom")
So(err, ShouldErrLike, `"Namespace" is broken`)
So(ctr.Namespace, shouldHaveSuccessesAndErrors, 1, 1)
})
Convey("works for user", t, func() {
c, fb := featureBreaker.FilterUser(memory.Use(context.Background()), nil)
c, ctr := FilterUser(c)
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
u := user.Get(c)
_, err := u.CurrentOAuth("foo")
die(err)
fb.BreakFeatures(nil, "CurrentOAuth")
_, err = u.CurrentOAuth("foo")
So(err, ShouldErrLike, `"CurrentOAuth" is broken`)
So(ctr.CurrentOAuth, shouldHaveSuccessesAndErrors, 1, 1)
})
Convey("works for mail", t, func() {
c, fb := featureBreaker.FilterMail(memory.Use(context.Background()), nil)
c, ctr := FilterMail(c)
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
m := mail.Get(c)
err := m.Send(&mail.Message{
Sender: "*****@*****.**",
To: []string{"*****@*****.**"},
Body: "hi",
})
die(err)
fb.BreakFeatures(nil, "Send")
err = m.Send(&mail.Message{
Sender: "*****@*****.**",
To: []string{"*****@*****.**"},
Body: "hi",
})
So(err, ShouldErrLike, `"Send" is broken`)
So(ctr.Send, shouldHaveSuccessesAndErrors, 1, 1)
})
}
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__
})
})
}
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, "/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("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)
// TODO(riannucci): replace with a Count query instead of this cast
/*
ents := ds.(*dsImpl).data.head.GetCollection("ents:")
num, _ := ents.GetTotals()
// /__entity_root_ids__,Foo
// /Foo,1/__entity_group__,1
// /Foo,1/__entity_group_ids__,1
So(num, 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{}
vals[i].SetMeta("key", keys[i])
}
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("implements DSTransactioner", func() {
Convey("Put", func() {
f := &Foo{Val: 10}
So(ds.Put(f), ShouldBeNil)
k := ds.KeyForObj(f)
So(k.String(), ShouldEqual, "/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, "/Foo,1/Foo,1")
f.Id = 0
f.Val = 200
So(ds.Put(f), ShouldBeNil)
So(ds.KeyForObj(f).String(), ShouldEqual, "/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{}
pm.SetMeta("key", ds.NewKey("Foo", "", 20, nil))
So(ds.Get(pm), ShouldEqual, dsS.ErrNoSuchEntity)
pm.SetMeta("key", k)
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 {
txnDS := dsS.Get(c)
So(txnDS.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(ds.Put(f), ShouldBeNil)
So(txnDS.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 {
txnDS := dsS.Get(c)
f := &Foo{Id: 1}
So(txnDS.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(ds.Put(f), ShouldBeNil)
So(txnDS.Get(f), ShouldBeNil)
So(f.Val, ShouldEqual, 10)
f.Val = 20
So(txnDS.Put(f), ShouldBeNil)
So(txnDS.Get(f), ShouldBeNil)
So(f.Val, ShouldEqual, 10) // still gets 10
return nil
}, nil)
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.
// Accorting 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 := ds.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() {
ds.RunInTransaction(func(c context.Context) error {
ds := dsS.Get(c)
So(ds.Put(&Foo{Val: 200}), ShouldBeNil)
panic("wheeeeee")
}, nil)
}, ShouldPanic)
f := &Foo{Id: 1}
So(ds.Get(f), ShouldBeNil)
So(f.Val, ShouldEqual, 10)
})
})
})
})
})
}
func TestCount(t *testing.T) {
t.Parallel()
Convey("Test Count filter", t, func() {
c, fb := featureBreaker.FilterRDS(memory.Use(context.Background()), nil)
c, ctr := FilterRDS(c)
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
ds := datastore.Get(c)
vals := []datastore.PropertyMap{{
"Val": {datastore.MkProperty(100)},
"$key": {datastore.MkPropertyNI(ds.NewKey("Kind", "", 1, nil))},
}}
Convey("Calling a ds function should reflect in counter", func() {
So(ds.PutMulti(vals), ShouldBeNil)
So(ctr.NewKey.Successes(), ShouldEqual, 1)
So(ctr.PutMulti.Successes(), ShouldEqual, 1)
Convey("effects are cumulative", func() {
So(ds.PutMulti(vals), ShouldBeNil)
So(ctr.PutMulti.Successes(), ShouldEqual, 2)
Convey("even within transactions", func() {
ds.RunInTransaction(func(c context.Context) error {
ds := datastore.Get(c)
So(ds.PutMulti(append(vals, vals[0])), ShouldBeNil)
return nil
}, nil)
})
})
})
Convey("errors count against errors", func() {
fb.BreakFeatures(nil, "GetMulti")
ds.GetMulti(vals)
So(ctr.GetMulti.Errors(), ShouldEqual, 1)
fb.UnbreakFeatures("GetMulti")
So(ds.PutMulti(vals), ShouldBeNil)
ds.GetMulti(vals)
So(ctr.GetMulti.Errors(), ShouldEqual, 1)
So(ctr.GetMulti.Successes(), ShouldEqual, 1)
So(ctr.GetMulti.Total(), ShouldEqual, 2)
})
})
Convey("works for memcache", t, func() {
c, ctr := FilterMC(memory.Use(context.Background()))
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
mc := memcache.Get(c)
mc.Set(mc.NewItem("hello").SetValue([]byte("sup")))
So(mc.Get(mc.NewItem("Wat")), ShouldNotBeNil)
mc.Get(mc.NewItem("hello"))
So(ctr.SetMulti, shouldHaveSuccessesAndErrors, 1, 0)
So(ctr.GetMulti, shouldHaveSuccessesAndErrors, 2, 0)
So(ctr.NewItem, shouldHaveSuccessesAndErrors, 3, 0)
})
Convey("works for taskqueue", t, func() {
c, ctr := FilterTQ(memory.Use(context.Background()))
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
tq := taskqueue.Get(c)
tq.Add(&taskqueue.Task{Name: "wat"}, "")
tq.Add(&taskqueue.Task{Name: "wat"}, "DNE_QUEUE")
So(ctr.AddMulti, shouldHaveSuccessesAndErrors, 1, 1)
})
Convey("works for global info", t, func() {
c, fb := featureBreaker.FilterGI(memory.Use(context.Background()), nil)
c, ctr := FilterGI(c)
So(c, ShouldNotBeNil)
So(ctr, ShouldNotBeNil)
gi := info.Get(c)
gi.Namespace("foo")
fb.BreakFeatures(nil, "Namespace")
gi.Namespace("boom")
So(ctr.Namespace, shouldHaveSuccessesAndErrors, 1, 1)
})
}