func TestCompoundIndexes(t *testing.T) {
t.Parallel()
idxKey := func(def dsS.IndexDefinition) string {
So(def, ShouldNotBeNil)
return "idx::" + string(serialize.ToBytes(*def.PrepForIdxTable()))
}
numItms := func(c *memCollection) uint64 {
ret, _ := c.GetTotals()
return ret
}
Convey("Test Compound indexes", t, func() {
type Model struct {
ID int64 `gae:"$id"`
Field1 []string
Field2 []int64
}
c := Use(context.Background())
ds := dsS.Get(c)
t := ds.Testable().(*dsImpl)
head := t.data.head
So(ds.Put(&Model{1, []string{"hello", "world"}, []int64{10, 11}}), ShouldBeNil)
idx := dsS.IndexDefinition{
Kind: "Model",
SortBy: []dsS.IndexColumn{
{Property: "Field2"},
},
}
coll := head.GetCollection(idxKey(idx))
So(coll, ShouldNotBeNil)
So(numItms(coll), ShouldEqual, 2)
idx.SortBy[0].Property = "Field1"
coll = head.GetCollection(idxKey(idx))
So(coll, ShouldNotBeNil)
So(numItms(coll), ShouldEqual, 2)
idx.SortBy = append(idx.SortBy, dsS.IndexColumn{Property: "Field1"})
So(head.GetCollection(idxKey(idx)), ShouldBeNil)
t.AddIndexes(&idx)
coll = head.GetCollection(idxKey(idx))
So(coll, ShouldNotBeNil)
So(numItms(coll), ShouldEqual, 4)
})
}
func TestSerializationReadMisc(t *testing.T) {
t.Parallel()
Convey("Misc Serialization tests", t, func() {
Convey("GeoPoint", func() {
buf := mkBuf(nil)
cmpbin.WriteFloat64(buf, 10)
cmpbin.WriteFloat64(buf, 20)
So(string(ToBytes(ds.GeoPoint{Lat: 10, Lng: 20})), ShouldEqual, buf.String())
})
Convey("IndexColumn", func() {
buf := mkBuf(nil)
buf.WriteByte(1)
cmpbin.WriteString(buf, "hi")
So(string(ToBytes(ds.IndexColumn{Property: "hi", Direction: ds.DESCENDING})),
ShouldEqual, buf.String())
})
Convey("KeyTok", func() {
buf := mkBuf(nil)
cmpbin.WriteString(buf, "foo")
buf.WriteByte(byte(ds.PTInt))
cmpbin.WriteInt(buf, 20)
So(string(ToBytes(ds.KeyTok{Kind: "foo", IntID: 20})),
ShouldEqual, buf.String())
})
Convey("Property", func() {
buf := mkBuf(nil)
buf.WriteByte(0x80 | byte(ds.PTString))
cmpbin.WriteString(buf, "nerp")
So(string(ToBytes(mp("nerp"))),
ShouldEqual, buf.String())
})
Convey("Time", func() {
tp := mp(time.Now().UTC())
So(string(ToBytes(tp.Value())), ShouldEqual, string(ToBytes(tp)[1:]))
})
Convey("Bad ToBytes", func() {
So(func() { ToBytes(100.7) }, ShouldPanic)
So(func() { ToBytesWithContext(100.7) }, ShouldPanic)
})
Convey("ReadKey", func() {
Convey("good cases", func() {
Convey("w/ ctx decodes normally w/ ctx", func() {
k := mkKey("aid", "ns", "knd", "yo", "other", 10)
data := ToBytesWithContext(k)
dk, err := ReadKey(mkBuf(data), WithContext, "", "")
So(err, ShouldBeNil)
So(dk, ShouldEqualKey, k)
})
Convey("w/ ctx decodes normally w/o ctx", func() {
k := mkKey("aid", "ns", "knd", "yo", "other", 10)
data := ToBytesWithContext(k)
dk, err := ReadKey(mkBuf(data), WithoutContext, "spam", "nerd")
So(err, ShouldBeNil)
So(dk, ShouldEqualKey, mkKey("spam", "nerd", "knd", "yo", "other", 10))
})
Convey("w/o ctx decodes normally w/ ctx", func() {
k := mkKey("aid", "ns", "knd", "yo", "other", 10)
data := ToBytes(k)
dk, err := ReadKey(mkBuf(data), WithContext, "spam", "nerd")
So(err, ShouldBeNil)
So(dk, ShouldEqualKey, mkKey("", "", "knd", "yo", "other", 10))
})
Convey("w/o ctx decodes normally w/o ctx", func() {
k := mkKey("aid", "ns", "knd", "yo", "other", 10)
data := ToBytes(k)
dk, err := ReadKey(mkBuf(data), WithoutContext, "spam", "nerd")
So(err, ShouldBeNil)
So(dk, ShouldEqualKey, mkKey("spam", "nerd", "knd", "yo", "other", 10))
})
Convey("IntIDs always sort before StringIDs", func() {
// -1 writes as almost all 1's in the first byte under cmpbin, even
// though it's technically not a valid key.
k := mkKey("aid", "ns", "knd", -1)
data := ToBytes(k)
k = mkKey("aid", "ns", "knd", "hat")
data2 := ToBytes(k)
So(string(data), ShouldBeLessThan, string(data2))
})
})
Convey("err cases", func() {
buf := mkBuf(nil)
Convey("nil", func() {
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("str", func() {
buf.WriteString("sup")
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldErrLike, "expected actualCtx")
})
Convey("truncated 1", func() {
buf.WriteByte(1) // actualCtx == 1
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("truncated 2", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("truncated 3", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
cmpbin.WriteString(buf, "ns")
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("huge key", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
cmpbin.WriteString(buf, "ns")
for i := 1; i < 60; i++ {
buf.WriteByte(1)
WriteKeyTok(buf, ds.KeyTok{Kind: "sup", IntID: int64(i)})
}
buf.WriteByte(0)
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldErrLike, "huge key")
})
Convey("insufficient tokens", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
cmpbin.WriteString(buf, "ns")
cmpbin.WriteUint(buf, 2)
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("partial token 1", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
cmpbin.WriteString(buf, "ns")
buf.WriteByte(1)
cmpbin.WriteString(buf, "hi")
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("partial token 2", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
cmpbin.WriteString(buf, "ns")
buf.WriteByte(1)
cmpbin.WriteString(buf, "hi")
buf.WriteByte(byte(ds.PTString))
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("bad token (invalid type)", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
cmpbin.WriteString(buf, "ns")
buf.WriteByte(1)
cmpbin.WriteString(buf, "hi")
buf.WriteByte(byte(ds.PTBlobKey))
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldErrLike, "invalid type PTBlobKey")
})
Convey("bad token (invalid IntID)", func() {
buf.WriteByte(1) // actualCtx == 1
cmpbin.WriteString(buf, "aid")
cmpbin.WriteString(buf, "ns")
buf.WriteByte(1)
cmpbin.WriteString(buf, "hi")
buf.WriteByte(byte(ds.PTInt))
cmpbin.WriteInt(buf, -2)
_, err := ReadKey(buf, WithContext, "", "")
So(err, ShouldErrLike, "zero/negative")
})
})
})
Convey("ReadGeoPoint", func() {
buf := mkBuf(nil)
Convey("trunc 1", func() {
_, err := ReadGeoPoint(buf)
So(err, ShouldEqual, io.EOF)
})
Convey("trunc 2", func() {
cmpbin.WriteFloat64(buf, 100)
_, err := ReadGeoPoint(buf)
So(err, ShouldEqual, io.EOF)
})
Convey("invalid", func() {
cmpbin.WriteFloat64(buf, 100)
cmpbin.WriteFloat64(buf, 1000)
_, err := ReadGeoPoint(buf)
So(err, ShouldErrLike, "invalid GeoPoint")
})
})
Convey("WriteTime", func() {
Convey("in non-UTC!", func() {
pst, err := time.LoadLocation("America/Los_Angeles")
So(err, ShouldBeNil)
So(func() {
WriteTime(mkBuf(nil), time.Now().In(pst))
}, ShouldPanic)
})
})
Convey("ReadTime", func() {
Convey("trunc 1", func() {
_, err := ReadTime(mkBuf(nil))
So(err, ShouldEqual, io.EOF)
})
})
Convey("ReadProperty", func() {
buf := mkBuf(nil)
Convey("trunc 1", func() {
p, err := ReadProperty(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
So(p.Type(), ShouldEqual, ds.PTNull)
So(p.Value(), ShouldBeNil)
})
Convey("trunc (PTBytes)", func() {
buf.WriteByte(byte(ds.PTBytes))
_, err := ReadProperty(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("trunc (PTBlobKey)", func() {
buf.WriteByte(byte(ds.PTBlobKey))
_, err := ReadProperty(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("invalid type", func() {
buf.WriteByte(byte(ds.PTUnknown + 1))
_, err := ReadProperty(buf, WithContext, "", "")
So(err, ShouldErrLike, "unknown type!")
})
})
Convey("ReadPropertyMap", func() {
buf := mkBuf(nil)
Convey("trunc 1", func() {
_, err := ReadPropertyMap(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("too many rows", func() {
cmpbin.WriteUint(buf, 1000000)
_, err := ReadPropertyMap(buf, WithContext, "", "")
So(err, ShouldErrLike, "huge number of rows")
})
Convey("trunc 2", func() {
cmpbin.WriteUint(buf, 10)
_, err := ReadPropertyMap(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("trunc 3", func() {
cmpbin.WriteUint(buf, 10)
cmpbin.WriteString(buf, "ohai")
_, err := ReadPropertyMap(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
Convey("too many values", func() {
cmpbin.WriteUint(buf, 10)
cmpbin.WriteString(buf, "ohai")
cmpbin.WriteUint(buf, 100000)
_, err := ReadPropertyMap(buf, WithContext, "", "")
So(err, ShouldErrLike, "huge number of properties")
})
Convey("trunc 4", func() {
cmpbin.WriteUint(buf, 10)
cmpbin.WriteString(buf, "ohai")
cmpbin.WriteUint(buf, 10)
_, err := ReadPropertyMap(buf, WithContext, "", "")
So(err, ShouldEqual, io.EOF)
})
})
Convey("IndexDefinition", func() {
id := ds.IndexDefinition{Kind: "kind"}
data := ToBytes(*id.PrepForIdxTable())
newID, err := ReadIndexDefinition(mkBuf(data))
So(err, ShouldBeNil)
So(newID.Flip(), ShouldResemble, id.Normalize())
id.SortBy = append(id.SortBy, ds.IndexColumn{Property: "prop"})
data = ToBytes(*id.PrepForIdxTable())
newID, err = ReadIndexDefinition(mkBuf(data))
So(err, ShouldBeNil)
So(newID.Flip(), ShouldResemble, id.Normalize())
id.SortBy = append(id.SortBy, ds.IndexColumn{Property: "other", Direction: ds.DESCENDING})
id.Ancestor = true
data = ToBytes(*id.PrepForIdxTable())
newID, err = ReadIndexDefinition(mkBuf(data))
So(err, ShouldBeNil)
So(newID.Flip(), ShouldResemble, id.Normalize())
// invalid
id.SortBy = append(id.SortBy, ds.IndexColumn{Property: "", Direction: ds.DESCENDING})
data = ToBytes(*id.PrepForIdxTable())
newID, err = ReadIndexDefinition(mkBuf(data))
So(err, ShouldBeNil)
So(newID.Flip(), ShouldResemble, id.Normalize())
Convey("too many", func() {
id := ds.IndexDefinition{Kind: "wat"}
for i := 0; i < MaxIndexColumns+1; i++ {
id.SortBy = append(id.SortBy, ds.IndexColumn{Property: "Hi", Direction: ds.ASCENDING})
}
data := ToBytes(*id.PrepForIdxTable())
newID, err = ReadIndexDefinition(mkBuf(data))
So(err, ShouldErrLike, "over 64 sort orders")
})
})
})
}
