// 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 proto_test import ( "fmt" "reflect" "sync" "testing" "github.com/google/go-cmp/cmp" "google.golang.org/protobuf/proto" "google.golang.org/protobuf/reflect/protoreflect" pref "google.golang.org/protobuf/reflect/protoreflect" "google.golang.org/protobuf/runtime/protoimpl" "google.golang.org/protobuf/testing/protocmp" legacy1pb "google.golang.org/protobuf/internal/testprotos/legacy/proto2_20160225_2fc053c5" testpb "google.golang.org/protobuf/internal/testprotos/test" test3pb "google.golang.org/protobuf/internal/testprotos/test3" descpb "google.golang.org/protobuf/types/descriptorpb" ) func TestExtensionFuncs(t *testing.T) { for _, test := range []struct { message proto.Message ext pref.ExtensionType wantDefault interface{} value interface{} }{ { message: &testpb.TestAllExtensions{}, ext: testpb.E_OptionalInt32, wantDefault: int32(0), value: int32(1), }, { message: &testpb.TestAllExtensions{}, ext: testpb.E_RepeatedString, wantDefault: ([]string)(nil), value: []string{"a", "b", "c"}, }, { message: protoimpl.X.MessageOf(&legacy1pb.Message{}).Interface(), ext: legacy1pb.E_Message_ExtensionOptionalBool, wantDefault: false, value: true, }, } { desc := fmt.Sprintf("Extension %v, value %v", test.ext.TypeDescriptor().FullName(), test.value) if proto.HasExtension(test.message, test.ext) { t.Errorf("%v:\nbefore setting extension HasExtension(...) = true, want false", desc) } got := proto.GetExtension(test.message, test.ext) if d := cmp.Diff(test.wantDefault, got); d != "" { t.Errorf("%v:\nbefore setting extension GetExtension(...) returns unexpected value (-want,+got):\n%v", desc, d) } proto.SetExtension(test.message, test.ext, test.value) if !proto.HasExtension(test.message, test.ext) { t.Errorf("%v:\nafter setting extension HasExtension(...) = false, want true", desc) } got = proto.GetExtension(test.message, test.ext) if d := cmp.Diff(test.value, got); d != "" { t.Errorf("%v:\nafter setting extension GetExtension(...) returns unexpected value (-want,+got):\n%v", desc, d) } proto.ClearExtension(test.message, test.ext) if proto.HasExtension(test.message, test.ext) { t.Errorf("%v:\nafter clearing extension HasExtension(...) = true, want false", desc) } } } func TestIsValid(t *testing.T) { tests := []struct { xt protoreflect.ExtensionType vi interface{} want bool }{ {testpb.E_OptionalBool, nil, false}, {testpb.E_OptionalBool, bool(true), true}, {testpb.E_OptionalBool, new(bool), false}, {testpb.E_OptionalInt32, nil, false}, {testpb.E_OptionalInt32, int32(0), true}, {testpb.E_OptionalInt32, new(int32), false}, {testpb.E_OptionalInt64, nil, false}, {testpb.E_OptionalInt64, int64(0), true}, {testpb.E_OptionalInt64, new(int64), false}, {testpb.E_OptionalUint32, nil, false}, {testpb.E_OptionalUint32, uint32(0), true}, {testpb.E_OptionalUint32, new(uint32), false}, {testpb.E_OptionalUint64, nil, false}, {testpb.E_OptionalUint64, uint64(0), true}, {testpb.E_OptionalUint64, new(uint64), false}, {testpb.E_OptionalFloat, nil, false}, {testpb.E_OptionalFloat, float32(0), true}, {testpb.E_OptionalFloat, new(float32), false}, {testpb.E_OptionalDouble, nil, false}, {testpb.E_OptionalDouble, float64(0), true}, {testpb.E_OptionalDouble, new(float32), false}, {testpb.E_OptionalString, nil, false}, {testpb.E_OptionalString, string(""), true}, {testpb.E_OptionalString, new(string), false}, {testpb.E_OptionalNestedEnum, nil, false}, {testpb.E_OptionalNestedEnum, testpb.TestAllTypes_BAZ, true}, {testpb.E_OptionalNestedEnum, testpb.TestAllTypes_BAZ.Enum(), false}, {testpb.E_OptionalNestedMessage, nil, false}, {testpb.E_OptionalNestedMessage, (*testpb.TestAllExtensions_NestedMessage)(nil), true}, {testpb.E_OptionalNestedMessage, new(testpb.TestAllExtensions_NestedMessage), true}, {testpb.E_OptionalNestedMessage, new(testpb.TestAllExtensions), false}, {testpb.E_RepeatedBool, nil, false}, {testpb.E_RepeatedBool, []bool(nil), true}, {testpb.E_RepeatedBool, []bool{}, true}, {testpb.E_RepeatedBool, []bool{false}, true}, {testpb.E_RepeatedBool, []*bool{}, false}, {testpb.E_RepeatedInt32, nil, false}, {testpb.E_RepeatedInt32, []int32(nil), true}, {testpb.E_RepeatedInt32, []int32{}, true}, {testpb.E_RepeatedInt32, []int32{0}, true}, {testpb.E_RepeatedInt32, []*int32{}, false}, {testpb.E_RepeatedInt64, nil, false}, {testpb.E_RepeatedInt64, []int64(nil), true}, {testpb.E_RepeatedInt64, []int64{}, true}, {testpb.E_RepeatedInt64, []int64{0}, true}, {testpb.E_RepeatedInt64, []*int64{}, false}, {testpb.E_RepeatedUint32, nil, false}, {testpb.E_RepeatedUint32, []uint32(nil), true}, {testpb.E_RepeatedUint32, []uint32{}, true}, {testpb.E_RepeatedUint32, []uint32{0}, true}, {testpb.E_RepeatedUint32, []*uint32{}, false}, {testpb.E_RepeatedUint64, nil, false}, {testpb.E_RepeatedUint64, []uint64(nil), true}, {testpb.E_RepeatedUint64, []uint64{}, true}, {testpb.E_RepeatedUint64, []uint64{0}, true}, {testpb.E_RepeatedUint64, []*uint64{}, false}, {testpb.E_RepeatedFloat, nil, false}, {testpb.E_RepeatedFloat, []float32(nil), true}, {testpb.E_RepeatedFloat, []float32{}, true}, {testpb.E_RepeatedFloat, []float32{0}, true}, {testpb.E_RepeatedFloat, []*float32{}, false}, {testpb.E_RepeatedDouble, nil, false}, {testpb.E_RepeatedDouble, []float64(nil), true}, {testpb.E_RepeatedDouble, []float64{}, true}, {testpb.E_RepeatedDouble, []float64{0}, true}, {testpb.E_RepeatedDouble, []*float64{}, false}, {testpb.E_RepeatedString, nil, false}, {testpb.E_RepeatedString, []string(nil), true}, {testpb.E_RepeatedString, []string{}, true}, {testpb.E_RepeatedString, []string{""}, true}, {testpb.E_RepeatedString, []*string{}, false}, {testpb.E_RepeatedNestedEnum, nil, false}, {testpb.E_RepeatedNestedEnum, []testpb.TestAllTypes_NestedEnum(nil), true}, {testpb.E_RepeatedNestedEnum, []testpb.TestAllTypes_NestedEnum{}, true}, {testpb.E_RepeatedNestedEnum, []testpb.TestAllTypes_NestedEnum{0}, true}, {testpb.E_RepeatedNestedEnum, []*testpb.TestAllTypes_NestedEnum{}, false}, {testpb.E_RepeatedNestedMessage, nil, false}, {testpb.E_RepeatedNestedMessage, []*testpb.TestAllExtensions_NestedMessage(nil), true}, {testpb.E_RepeatedNestedMessage, []*testpb.TestAllExtensions_NestedMessage{}, true}, {testpb.E_RepeatedNestedMessage, []*testpb.TestAllExtensions_NestedMessage{{}}, true}, {testpb.E_RepeatedNestedMessage, []*testpb.TestAllExtensions{}, false}, } for _, tt := range tests { // Check the results of IsValidInterface. got := tt.xt.IsValidInterface(tt.vi) if got != tt.want { t.Errorf("%v.IsValidInterface() = %v, want %v", tt.xt.TypeDescriptor().FullName(), got, tt.want) } if !got { continue } // Set the extension value and verify the results of Has. wantHas := true pv := tt.xt.ValueOf(tt.vi) switch v := pv.Interface().(type) { case protoreflect.List: wantHas = v.Len() > 0 case protoreflect.Message: wantHas = v.IsValid() } m := &testpb.TestAllExtensions{} proto.SetExtension(m, tt.xt, tt.vi) gotHas := proto.HasExtension(m, tt.xt) if gotHas != wantHas { t.Errorf("HasExtension(%q) = %v, want %v", tt.xt.TypeDescriptor().FullName(), gotHas, wantHas) } // Check consistency of IsValidInterface and IsValidValue. got = tt.xt.IsValidValue(pv) if got != tt.want { t.Errorf("%v.IsValidValue() = %v, want %v", tt.xt.TypeDescriptor().FullName(), got, tt.want) } if !got { continue } // Use of reflect.DeepEqual is intentional. // We really do want to ensure that the memory layout is identical. vi := tt.xt.InterfaceOf(pv) if !reflect.DeepEqual(vi, tt.vi) { t.Errorf("InterfaceOf(ValueOf(...)) round-trip mismatch: got %v, want %v", vi, tt.vi) } } } func TestExtensionRanger(t *testing.T) { tests := []struct { msg proto.Message want map[pref.ExtensionType]interface{} }{{ msg: &testpb.TestAllExtensions{}, want: map[pref.ExtensionType]interface{}{ testpb.E_OptionalInt32: int32(5), testpb.E_OptionalString: string("hello"), testpb.E_OptionalNestedMessage: &testpb.TestAllExtensions_NestedMessage{}, testpb.E_OptionalNestedEnum: testpb.TestAllTypes_BAZ, testpb.E_RepeatedFloat: []float32{+32.32, -32.32}, testpb.E_RepeatedNestedMessage: []*testpb.TestAllExtensions_NestedMessage{{}}, testpb.E_RepeatedNestedEnum: []testpb.TestAllTypes_NestedEnum{testpb.TestAllTypes_BAZ}, }, }, { msg: &descpb.MessageOptions{}, want: map[pref.ExtensionType]interface{}{ test3pb.E_OptionalInt32: int32(5), test3pb.E_OptionalString: string("hello"), test3pb.E_OptionalForeignMessage: &test3pb.ForeignMessage{}, test3pb.E_OptionalForeignEnum: test3pb.ForeignEnum_FOREIGN_BAR, test3pb.E_OptionalOptionalInt32: int32(5), test3pb.E_OptionalOptionalString: string("hello"), test3pb.E_OptionalOptionalForeignMessage: &test3pb.ForeignMessage{}, test3pb.E_OptionalOptionalForeignEnum: test3pb.ForeignEnum_FOREIGN_BAR, }, }} for _, tt := range tests { for xt, v := range tt.want { proto.SetExtension(tt.msg, xt, v) } got := make(map[pref.ExtensionType]interface{}) proto.RangeExtensions(tt.msg, func(xt pref.ExtensionType, v interface{}) bool { got[xt] = v return true }) if diff := cmp.Diff(tt.want, got, protocmp.Transform()); diff != "" { t.Errorf("proto.RangeExtensions mismatch (-want +got):\n%s", diff) } } } func TestExtensionGetRace(t *testing.T) { // Concurrently fetch an extension value while marshaling the message containing it. // Create the message with proto.Unmarshal to give lazy extension decoding (if present) // a chance to occur. want := int32(42) m1 := &testpb.TestAllExtensions{} proto.SetExtension(m1, testpb.E_OptionalNestedMessage, &testpb.TestAllExtensions_NestedMessage{A: proto.Int32(want)}) b, err := proto.Marshal(m1) if err != nil { t.Fatal(err) } m := &testpb.TestAllExtensions{} if err := proto.Unmarshal(b, m); err != nil { t.Fatal(err) } var wg sync.WaitGroup for i := 0; i < 3; i++ { wg.Add(1) go func() { defer wg.Done() if _, err := proto.Marshal(m); err != nil { t.Error(err) } }() wg.Add(1) go func() { defer wg.Done() got := proto.GetExtension(m, testpb.E_OptionalNestedMessage).(*testpb.TestAllExtensions_NestedMessage).GetA() if got != want { t.Errorf("GetExtension(optional_nested_message).a = %v, want %v", got, want) } }() } wg.Wait() }