// Copyright 2019 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package protocmp import ( "testing" "github.com/google/go-cmp/cmp" "google.golang.org/protobuf/internal/detrand" "google.golang.org/protobuf/proto" "google.golang.org/protobuf/reflect/protoreflect" "google.golang.org/protobuf/testing/protopack" testpb "google.golang.org/protobuf/internal/testprotos/test" ) func init() { detrand.Disable() } func TestTransform(t *testing.T) { tests := []struct { in proto.Message want Message }{{ in: &testpb.TestAllTypes{ OptionalBool: proto.Bool(false), OptionalInt32: proto.Int32(-32), OptionalInt64: proto.Int64(-64), OptionalUint32: proto.Uint32(32), OptionalUint64: proto.Uint64(64), OptionalFloat: proto.Float32(32.32), OptionalDouble: proto.Float64(64.64), OptionalString: proto.String("string"), OptionalBytes: []byte("bytes"), OptionalNestedEnum: testpb.TestAllTypes_NEG.Enum(), OptionalNestedMessage: &testpb.TestAllTypes_NestedMessage{A: proto.Int32(5)}, }, want: Message{ messageTypeKey: messageMetaOf(&testpb.TestAllTypes{}), "optional_bool": bool(false), "optional_int32": int32(-32), "optional_int64": int64(-64), "optional_uint32": uint32(32), "optional_uint64": uint64(64), "optional_float": float32(32.32), "optional_double": float64(64.64), "optional_string": string("string"), "optional_bytes": []byte("bytes"), "optional_nested_enum": enumOf(testpb.TestAllTypes_NEG), "optional_nested_message": Message{messageTypeKey: messageMetaOf(&testpb.TestAllTypes_NestedMessage{}), "a": int32(5)}, }, }, { in: &testpb.TestAllTypes{ RepeatedBool: []bool{false, true}, RepeatedInt32: []int32{32, -32}, RepeatedInt64: []int64{64, -64}, RepeatedUint32: []uint32{0, 32}, RepeatedUint64: []uint64{0, 64}, RepeatedFloat: []float32{0, 32.32}, RepeatedDouble: []float64{0, 64.64}, RepeatedString: []string{"s1", "s2"}, RepeatedBytes: [][]byte{{1}, {2}}, RepeatedNestedEnum: []testpb.TestAllTypes_NestedEnum{ testpb.TestAllTypes_FOO, testpb.TestAllTypes_BAR, }, RepeatedNestedMessage: []*testpb.TestAllTypes_NestedMessage{ {A: proto.Int32(5)}, {A: proto.Int32(-5)}, }, }, want: Message{ messageTypeKey: messageMetaOf(&testpb.TestAllTypes{}), "repeated_bool": []bool{false, true}, "repeated_int32": []int32{32, -32}, "repeated_int64": []int64{64, -64}, "repeated_uint32": []uint32{0, 32}, "repeated_uint64": []uint64{0, 64}, "repeated_float": []float32{0, 32.32}, "repeated_double": []float64{0, 64.64}, "repeated_string": []string{"s1", "s2"}, "repeated_bytes": [][]byte{{1}, {2}}, "repeated_nested_enum": []Enum{ enumOf(testpb.TestAllTypes_FOO), enumOf(testpb.TestAllTypes_BAR), }, "repeated_nested_message": []Message{ {messageTypeKey: messageMetaOf(&testpb.TestAllTypes_NestedMessage{}), "a": int32(5)}, {messageTypeKey: messageMetaOf(&testpb.TestAllTypes_NestedMessage{}), "a": int32(-5)}, }, }, }, { in: &testpb.TestAllTypes{ MapBoolBool: map[bool]bool{true: false}, MapInt32Int32: map[int32]int32{-32: 32}, MapInt64Int64: map[int64]int64{-64: 64}, MapUint32Uint32: map[uint32]uint32{0: 32}, MapUint64Uint64: map[uint64]uint64{0: 64}, MapInt32Float: map[int32]float32{32: 32.32}, MapInt32Double: map[int32]float64{64: 64.64}, MapStringString: map[string]string{"k": "v", "empty": ""}, MapStringBytes: map[string][]byte{"k": []byte("v"), "empty": nil}, MapStringNestedEnum: map[string]testpb.TestAllTypes_NestedEnum{ "k": testpb.TestAllTypes_FOO, }, MapStringNestedMessage: map[string]*testpb.TestAllTypes_NestedMessage{ "k": {A: proto.Int32(5)}, }, }, want: Message{ messageTypeKey: messageMetaOf(&testpb.TestAllTypes{}), "map_bool_bool": map[bool]bool{true: false}, "map_int32_int32": map[int32]int32{-32: 32}, "map_int64_int64": map[int64]int64{-64: 64}, "map_uint32_uint32": map[uint32]uint32{0: 32}, "map_uint64_uint64": map[uint64]uint64{0: 64}, "map_int32_float": map[int32]float32{32: 32.32}, "map_int32_double": map[int32]float64{64: 64.64}, "map_string_string": map[string]string{"k": "v", "empty": ""}, "map_string_bytes": map[string][]byte{"k": []byte("v"), "empty": []byte{}}, "map_string_nested_enum": map[string]Enum{ "k": enumOf(testpb.TestAllTypes_FOO), }, "map_string_nested_message": map[string]Message{ "k": {messageTypeKey: messageMetaOf(&testpb.TestAllTypes_NestedMessage{}), "a": int32(5)}, }, }, }, { in: func() proto.Message { m := &testpb.TestAllExtensions{} proto.SetExtension(m, testpb.E_OptionalBool, bool(false)) proto.SetExtension(m, testpb.E_OptionalInt32, int32(-32)) proto.SetExtension(m, testpb.E_OptionalInt64, int64(-64)) proto.SetExtension(m, testpb.E_OptionalUint32, uint32(32)) proto.SetExtension(m, testpb.E_OptionalUint64, uint64(64)) proto.SetExtension(m, testpb.E_OptionalFloat, float32(32.32)) proto.SetExtension(m, testpb.E_OptionalDouble, float64(64.64)) proto.SetExtension(m, testpb.E_OptionalString, string("string")) proto.SetExtension(m, testpb.E_OptionalBytes, []byte("bytes")) proto.SetExtension(m, testpb.E_OptionalNestedEnum, testpb.TestAllTypes_NEG) proto.SetExtension(m, testpb.E_OptionalNestedMessage, &testpb.TestAllExtensions_NestedMessage{A: proto.Int32(5)}) return m }(), want: Message{ messageTypeKey: messageMetaOf(&testpb.TestAllExtensions{}), "[goproto.proto.test.optional_bool]": bool(false), "[goproto.proto.test.optional_int32]": int32(-32), "[goproto.proto.test.optional_int64]": int64(-64), "[goproto.proto.test.optional_uint32]": uint32(32), "[goproto.proto.test.optional_uint64]": uint64(64), "[goproto.proto.test.optional_float]": float32(32.32), "[goproto.proto.test.optional_double]": float64(64.64), "[goproto.proto.test.optional_string]": string("string"), "[goproto.proto.test.optional_bytes]": []byte("bytes"), "[goproto.proto.test.optional_nested_enum]": enumOf(testpb.TestAllTypes_NEG), "[goproto.proto.test.optional_nested_message]": Message{messageTypeKey: messageMetaOf(&testpb.TestAllExtensions_NestedMessage{}), "a": int32(5)}, }, }, { in: func() proto.Message { m := &testpb.TestAllExtensions{} proto.SetExtension(m, testpb.E_RepeatedBool, []bool{false, true}) proto.SetExtension(m, testpb.E_RepeatedInt32, []int32{32, -32}) proto.SetExtension(m, testpb.E_RepeatedInt64, []int64{64, -64}) proto.SetExtension(m, testpb.E_RepeatedUint32, []uint32{0, 32}) proto.SetExtension(m, testpb.E_RepeatedUint64, []uint64{0, 64}) proto.SetExtension(m, testpb.E_RepeatedFloat, []float32{0, 32.32}) proto.SetExtension(m, testpb.E_RepeatedDouble, []float64{0, 64.64}) proto.SetExtension(m, testpb.E_RepeatedString, []string{"s1", "s2"}) proto.SetExtension(m, testpb.E_RepeatedBytes, [][]byte{{1}, {2}}) proto.SetExtension(m, testpb.E_RepeatedNestedEnum, []testpb.TestAllTypes_NestedEnum{ testpb.TestAllTypes_FOO, testpb.TestAllTypes_BAR, }) proto.SetExtension(m, testpb.E_RepeatedNestedMessage, []*testpb.TestAllExtensions_NestedMessage{ {A: proto.Int32(5)}, {A: proto.Int32(-5)}, }) return m }(), want: Message{ messageTypeKey: messageMetaOf(&testpb.TestAllExtensions{}), "[goproto.proto.test.repeated_bool]": []bool{false, true}, "[goproto.proto.test.repeated_int32]": []int32{32, -32}, "[goproto.proto.test.repeated_int64]": []int64{64, -64}, "[goproto.proto.test.repeated_uint32]": []uint32{0, 32}, "[goproto.proto.test.repeated_uint64]": []uint64{0, 64}, "[goproto.proto.test.repeated_float]": []float32{0, 32.32}, "[goproto.proto.test.repeated_double]": []float64{0, 64.64}, "[goproto.proto.test.repeated_string]": []string{"s1", "s2"}, "[goproto.proto.test.repeated_bytes]": [][]byte{{1}, {2}}, "[goproto.proto.test.repeated_nested_enum]": []Enum{ enumOf(testpb.TestAllTypes_FOO), enumOf(testpb.TestAllTypes_BAR), }, "[goproto.proto.test.repeated_nested_message]": []Message{ {messageTypeKey: messageMetaOf(&testpb.TestAllExtensions_NestedMessage{}), "a": int32(5)}, {messageTypeKey: messageMetaOf(&testpb.TestAllExtensions_NestedMessage{}), "a": int32(-5)}, }, }, }, { in: func() proto.Message { m := &testpb.TestAllTypes{} m.ProtoReflect().SetUnknown(protopack.Message{ protopack.Tag{Number: 50000, Type: protopack.VarintType}, protopack.Uvarint(100), protopack.Tag{Number: 50001, Type: protopack.Fixed32Type}, protopack.Uint32(200), protopack.Tag{Number: 50002, Type: protopack.Fixed64Type}, protopack.Uint64(300), protopack.Tag{Number: 50003, Type: protopack.BytesType}, protopack.String("hello"), protopack.Message{ protopack.Tag{Number: 50004, Type: protopack.StartGroupType}, protopack.Tag{Number: 1, Type: protopack.VarintType}, protopack.Uvarint(100), protopack.Tag{Number: 1, Type: protopack.Fixed32Type}, protopack.Uint32(200), protopack.Tag{Number: 1, Type: protopack.Fixed64Type}, protopack.Uint64(300), protopack.Tag{Number: 1, Type: protopack.BytesType}, protopack.String("hello"), protopack.Message{ protopack.Tag{Number: 1, Type: protopack.StartGroupType}, protopack.Tag{Number: 1, Type: protopack.VarintType}, protopack.Uvarint(100), protopack.Tag{Number: 1, Type: protopack.Fixed32Type}, protopack.Uint32(200), protopack.Tag{Number: 1, Type: protopack.Fixed64Type}, protopack.Uint64(300), protopack.Tag{Number: 1, Type: protopack.BytesType}, protopack.String("hello"), protopack.Tag{Number: 1, Type: protopack.EndGroupType}, }, protopack.Tag{Number: 50004, Type: protopack.EndGroupType}, }, }.Marshal()) return m }(), want: Message{ messageTypeKey: messageMetaOf(&testpb.TestAllTypes{}), "50000": protoreflect.RawFields(protopack.Message{protopack.Tag{Number: 50000, Type: protopack.VarintType}, protopack.Uvarint(100)}.Marshal()), "50001": protoreflect.RawFields(protopack.Message{protopack.Tag{Number: 50001, Type: protopack.Fixed32Type}, protopack.Uint32(200)}.Marshal()), "50002": protoreflect.RawFields(protopack.Message{protopack.Tag{Number: 50002, Type: protopack.Fixed64Type}, protopack.Uint64(300)}.Marshal()), "50003": protoreflect.RawFields(protopack.Message{protopack.Tag{Number: 50003, Type: protopack.BytesType}, protopack.String("hello")}.Marshal()), "50004": protoreflect.RawFields(protopack.Message{ protopack.Tag{Number: 50004, Type: protopack.StartGroupType}, protopack.Tag{Number: 1, Type: protopack.VarintType}, protopack.Uvarint(100), protopack.Tag{Number: 1, Type: protopack.Fixed32Type}, protopack.Uint32(200), protopack.Tag{Number: 1, Type: protopack.Fixed64Type}, protopack.Uint64(300), protopack.Tag{Number: 1, Type: protopack.BytesType}, protopack.String("hello"), protopack.Message{ protopack.Tag{Number: 1, Type: protopack.StartGroupType}, protopack.Tag{Number: 1, Type: protopack.VarintType}, protopack.Uvarint(100), protopack.Tag{Number: 1, Type: protopack.Fixed32Type}, protopack.Uint32(200), protopack.Tag{Number: 1, Type: protopack.Fixed64Type}, protopack.Uint64(300), protopack.Tag{Number: 1, Type: protopack.BytesType}, protopack.String("hello"), protopack.Tag{Number: 1, Type: protopack.EndGroupType}, }, protopack.Tag{Number: 50004, Type: protopack.EndGroupType}, }.Marshal()), }, }} for _, tt := range tests { t.Run("", func(t *testing.T) { got := transformMessage(tt.in.ProtoReflect()) if diff := cmp.Diff(tt.want, got); diff != "" { t.Errorf("Transform() mismatch (-want +got):\n%v", diff) } if got.Unwrap() != tt.in { t.Errorf("got.Unwrap() = %p, want %p", got.Unwrap(), tt.in) } }) } } func enumOf(e protoreflect.Enum) Enum { return Enum{e.Number(), e.Descriptor()} } func messageMetaOf(m protoreflect.ProtoMessage) messageMeta { return messageMeta{m: m, md: m.ProtoReflect().Descriptor()} }