| // Copyright 2018 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 prototext_test |
| |
| import ( |
| "math" |
| "testing" |
| |
| "github.com/google/go-cmp/cmp" |
| "google.golang.org/protobuf/encoding/prototext" |
| "google.golang.org/protobuf/internal/detrand" |
| "google.golang.org/protobuf/internal/encoding/pack" |
| pimpl "google.golang.org/protobuf/internal/impl" |
| "google.golang.org/protobuf/internal/scalar" |
| "google.golang.org/protobuf/proto" |
| preg "google.golang.org/protobuf/reflect/protoregistry" |
| "google.golang.org/protobuf/runtime/protoiface" |
| |
| "google.golang.org/protobuf/encoding/testprotos/pb2" |
| "google.golang.org/protobuf/encoding/testprotos/pb3" |
| "google.golang.org/protobuf/types/known/anypb" |
| ) |
| |
| func init() { |
| // Disable detrand to enable direct comparisons on outputs. |
| detrand.Disable() |
| } |
| |
| // TODO: Use proto.SetExtension when available. |
| func setExtension(m proto.Message, xd *protoiface.ExtensionDescV1, val interface{}) { |
| m.ProtoReflect().Set(xd.Type, xd.Type.ValueOf(val)) |
| } |
| |
| func TestMarshal(t *testing.T) { |
| tests := []struct { |
| desc string |
| mo prototext.MarshalOptions |
| input proto.Message |
| want string |
| wantErr bool // TODO: Verify error message content. |
| }{{ |
| desc: "proto2 optional scalars not set", |
| input: &pb2.Scalars{}, |
| want: "\n", |
| }, { |
| desc: "proto3 scalars not set", |
| input: &pb3.Scalars{}, |
| want: "\n", |
| }, { |
| desc: "proto2 optional scalars set to zero values", |
| input: &pb2.Scalars{ |
| OptBool: scalar.Bool(false), |
| OptInt32: scalar.Int32(0), |
| OptInt64: scalar.Int64(0), |
| OptUint32: scalar.Uint32(0), |
| OptUint64: scalar.Uint64(0), |
| OptSint32: scalar.Int32(0), |
| OptSint64: scalar.Int64(0), |
| OptFixed32: scalar.Uint32(0), |
| OptFixed64: scalar.Uint64(0), |
| OptSfixed32: scalar.Int32(0), |
| OptSfixed64: scalar.Int64(0), |
| OptFloat: scalar.Float32(0), |
| OptDouble: scalar.Float64(0), |
| OptBytes: []byte{}, |
| OptString: scalar.String(""), |
| }, |
| want: `opt_bool: false |
| opt_int32: 0 |
| opt_int64: 0 |
| opt_uint32: 0 |
| opt_uint64: 0 |
| opt_sint32: 0 |
| opt_sint64: 0 |
| opt_fixed32: 0 |
| opt_fixed64: 0 |
| opt_sfixed32: 0 |
| opt_sfixed64: 0 |
| opt_float: 0 |
| opt_double: 0 |
| opt_bytes: "" |
| opt_string: "" |
| `, |
| }, { |
| desc: "proto3 scalars set to zero values", |
| input: &pb3.Scalars{ |
| SBool: false, |
| SInt32: 0, |
| SInt64: 0, |
| SUint32: 0, |
| SUint64: 0, |
| SSint32: 0, |
| SSint64: 0, |
| SFixed32: 0, |
| SFixed64: 0, |
| SSfixed32: 0, |
| SSfixed64: 0, |
| SFloat: 0, |
| SDouble: 0, |
| SBytes: []byte{}, |
| SString: "", |
| }, |
| want: "\n", |
| }, { |
| desc: "proto2 optional scalars set to some values", |
| input: &pb2.Scalars{ |
| OptBool: scalar.Bool(true), |
| OptInt32: scalar.Int32(0xff), |
| OptInt64: scalar.Int64(0xdeadbeef), |
| OptUint32: scalar.Uint32(47), |
| OptUint64: scalar.Uint64(0xdeadbeef), |
| OptSint32: scalar.Int32(-1001), |
| OptSint64: scalar.Int64(-0xffff), |
| OptFixed64: scalar.Uint64(64), |
| OptSfixed32: scalar.Int32(-32), |
| OptFloat: scalar.Float32(1.02), |
| OptDouble: scalar.Float64(1.0199999809265137), |
| OptBytes: []byte("\xe8\xb0\xb7\xe6\xad\x8c"), |
| OptString: scalar.String("谷歌"), |
| }, |
| want: `opt_bool: true |
| opt_int32: 255 |
| opt_int64: 3735928559 |
| opt_uint32: 47 |
| opt_uint64: 3735928559 |
| opt_sint32: -1001 |
| opt_sint64: -65535 |
| opt_fixed64: 64 |
| opt_sfixed32: -32 |
| opt_float: 1.02 |
| opt_double: 1.0199999809265137 |
| opt_bytes: "谷歌" |
| opt_string: "谷歌" |
| `, |
| }, { |
| desc: "string with invalid UTF-8", |
| input: &pb3.Scalars{ |
| SString: "abc\xff", |
| }, |
| wantErr: true, |
| }, { |
| desc: "float nan", |
| input: &pb3.Scalars{ |
| SFloat: float32(math.NaN()), |
| }, |
| want: "s_float: nan\n", |
| }, { |
| desc: "float positive infinity", |
| input: &pb3.Scalars{ |
| SFloat: float32(math.Inf(1)), |
| }, |
| want: "s_float: inf\n", |
| }, { |
| desc: "float negative infinity", |
| input: &pb3.Scalars{ |
| SFloat: float32(math.Inf(-1)), |
| }, |
| want: "s_float: -inf\n", |
| }, { |
| desc: "double nan", |
| input: &pb3.Scalars{ |
| SDouble: math.NaN(), |
| }, |
| want: "s_double: nan\n", |
| }, { |
| desc: "double positive infinity", |
| input: &pb3.Scalars{ |
| SDouble: math.Inf(1), |
| }, |
| want: "s_double: inf\n", |
| }, { |
| desc: "double negative infinity", |
| input: &pb3.Scalars{ |
| SDouble: math.Inf(-1), |
| }, |
| want: "s_double: -inf\n", |
| }, { |
| desc: "proto2 enum not set", |
| input: &pb2.Enums{}, |
| want: "\n", |
| }, { |
| desc: "proto2 enum set to zero value", |
| input: &pb2.Enums{ |
| OptEnum: pb2.Enum(0).Enum(), |
| OptNestedEnum: pb2.Enums_NestedEnum(0).Enum(), |
| }, |
| want: `opt_enum: 0 |
| opt_nested_enum: 0 |
| `, |
| }, { |
| desc: "proto2 enum", |
| input: &pb2.Enums{ |
| OptEnum: pb2.Enum_ONE.Enum(), |
| OptNestedEnum: pb2.Enums_UNO.Enum(), |
| }, |
| want: `opt_enum: ONE |
| opt_nested_enum: UNO |
| `, |
| }, { |
| desc: "proto2 enum set to numeric values", |
| input: &pb2.Enums{ |
| OptEnum: pb2.Enum(2).Enum(), |
| OptNestedEnum: pb2.Enums_NestedEnum(2).Enum(), |
| }, |
| want: `opt_enum: TWO |
| opt_nested_enum: DOS |
| `, |
| }, { |
| desc: "proto2 enum set to unnamed numeric values", |
| input: &pb2.Enums{ |
| OptEnum: pb2.Enum(101).Enum(), |
| OptNestedEnum: pb2.Enums_NestedEnum(-101).Enum(), |
| }, |
| want: `opt_enum: 101 |
| opt_nested_enum: -101 |
| `, |
| }, { |
| desc: "proto3 enum not set", |
| input: &pb3.Enums{}, |
| want: "\n", |
| }, { |
| desc: "proto3 enum set to zero value", |
| input: &pb3.Enums{ |
| SEnum: pb3.Enum_ZERO, |
| SNestedEnum: pb3.Enums_CERO, |
| }, |
| want: "\n", |
| }, { |
| desc: "proto3 enum", |
| input: &pb3.Enums{ |
| SEnum: pb3.Enum_ONE, |
| SNestedEnum: pb3.Enums_UNO, |
| }, |
| want: `s_enum: ONE |
| s_nested_enum: UNO |
| `, |
| }, { |
| desc: "proto3 enum set to numeric values", |
| input: &pb3.Enums{ |
| SEnum: 2, |
| SNestedEnum: 2, |
| }, |
| want: `s_enum: TWO |
| s_nested_enum: DOS |
| `, |
| }, { |
| desc: "proto3 enum set to unnamed numeric values", |
| input: &pb3.Enums{ |
| SEnum: -47, |
| SNestedEnum: 47, |
| }, |
| want: `s_enum: -47 |
| s_nested_enum: 47 |
| `, |
| }, { |
| desc: "proto2 nested message not set", |
| input: &pb2.Nests{}, |
| want: "\n", |
| }, { |
| desc: "proto2 nested message set to empty", |
| input: &pb2.Nests{ |
| OptNested: &pb2.Nested{}, |
| Optgroup: &pb2.Nests_OptGroup{}, |
| }, |
| want: `opt_nested: {} |
| OptGroup: {} |
| `, |
| }, { |
| desc: "proto2 nested messages", |
| input: &pb2.Nests{ |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("nested message"), |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("another nested message"), |
| }, |
| }, |
| }, |
| want: `opt_nested: { |
| opt_string: "nested message" |
| opt_nested: { |
| opt_string: "another nested message" |
| } |
| } |
| `, |
| }, { |
| desc: "proto2 groups", |
| input: &pb2.Nests{ |
| Optgroup: &pb2.Nests_OptGroup{ |
| OptString: scalar.String("inside a group"), |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("nested message inside a group"), |
| }, |
| Optnestedgroup: &pb2.Nests_OptGroup_OptNestedGroup{ |
| OptFixed32: scalar.Uint32(47), |
| }, |
| }, |
| }, |
| want: `OptGroup: { |
| opt_string: "inside a group" |
| opt_nested: { |
| opt_string: "nested message inside a group" |
| } |
| OptNestedGroup: { |
| opt_fixed32: 47 |
| } |
| } |
| `, |
| }, { |
| desc: "proto3 nested message not set", |
| input: &pb3.Nests{}, |
| want: "\n", |
| }, { |
| desc: "proto3 nested message set to empty", |
| input: &pb3.Nests{ |
| SNested: &pb3.Nested{}, |
| }, |
| want: "s_nested: {}\n", |
| }, { |
| desc: "proto3 nested message", |
| input: &pb3.Nests{ |
| SNested: &pb3.Nested{ |
| SString: "nested message", |
| SNested: &pb3.Nested{ |
| SString: "another nested message", |
| }, |
| }, |
| }, |
| want: `s_nested: { |
| s_string: "nested message" |
| s_nested: { |
| s_string: "another nested message" |
| } |
| } |
| `, |
| }, { |
| desc: "proto3 nested message contains invalid UTF-8", |
| input: &pb3.Nests{ |
| SNested: &pb3.Nested{ |
| SString: "abc\xff", |
| }, |
| }, |
| wantErr: true, |
| }, { |
| desc: "oneof not set", |
| input: &pb3.Oneofs{}, |
| want: "\n", |
| }, { |
| desc: "oneof set to empty string", |
| input: &pb3.Oneofs{ |
| Union: &pb3.Oneofs_OneofString{}, |
| }, |
| want: `oneof_string: "" |
| `, |
| }, { |
| desc: "oneof set to string", |
| input: &pb3.Oneofs{ |
| Union: &pb3.Oneofs_OneofString{ |
| OneofString: "hello", |
| }, |
| }, |
| want: `oneof_string: "hello" |
| `, |
| }, { |
| desc: "oneof set to enum", |
| input: &pb3.Oneofs{ |
| Union: &pb3.Oneofs_OneofEnum{ |
| OneofEnum: pb3.Enum_ZERO, |
| }, |
| }, |
| want: `oneof_enum: ZERO |
| `, |
| }, { |
| desc: "oneof set to empty message", |
| input: &pb3.Oneofs{ |
| Union: &pb3.Oneofs_OneofNested{ |
| OneofNested: &pb3.Nested{}, |
| }, |
| }, |
| want: "oneof_nested: {}\n", |
| }, { |
| desc: "oneof set to message", |
| input: &pb3.Oneofs{ |
| Union: &pb3.Oneofs_OneofNested{ |
| OneofNested: &pb3.Nested{ |
| SString: "nested message", |
| }, |
| }, |
| }, |
| want: `oneof_nested: { |
| s_string: "nested message" |
| } |
| `, |
| }, { |
| desc: "repeated fields not set", |
| input: &pb2.Repeats{}, |
| want: "\n", |
| }, { |
| desc: "repeated fields set to empty slices", |
| input: &pb2.Repeats{ |
| RptBool: []bool{}, |
| RptInt32: []int32{}, |
| RptInt64: []int64{}, |
| RptUint32: []uint32{}, |
| RptUint64: []uint64{}, |
| RptFloat: []float32{}, |
| RptDouble: []float64{}, |
| RptBytes: [][]byte{}, |
| }, |
| want: "\n", |
| }, { |
| desc: "repeated fields set to some values", |
| input: &pb2.Repeats{ |
| RptBool: []bool{true, false, true, true}, |
| RptInt32: []int32{1, 6, 0, 0}, |
| RptInt64: []int64{-64, 47}, |
| RptUint32: []uint32{0xff, 0xffff}, |
| RptUint64: []uint64{0xdeadbeef}, |
| RptFloat: []float32{float32(math.NaN()), float32(math.Inf(1)), float32(math.Inf(-1)), 1.034}, |
| RptDouble: []float64{math.NaN(), math.Inf(1), math.Inf(-1), 1.23e-308}, |
| RptString: []string{"hello", "世界"}, |
| RptBytes: [][]byte{ |
| []byte("hello"), |
| []byte("\xe4\xb8\x96\xe7\x95\x8c"), |
| }, |
| }, |
| want: `rpt_bool: true |
| rpt_bool: false |
| rpt_bool: true |
| rpt_bool: true |
| rpt_int32: 1 |
| rpt_int32: 6 |
| rpt_int32: 0 |
| rpt_int32: 0 |
| rpt_int64: -64 |
| rpt_int64: 47 |
| rpt_uint32: 255 |
| rpt_uint32: 65535 |
| rpt_uint64: 3735928559 |
| rpt_float: nan |
| rpt_float: inf |
| rpt_float: -inf |
| rpt_float: 1.034 |
| rpt_double: nan |
| rpt_double: inf |
| rpt_double: -inf |
| rpt_double: 1.23e-308 |
| rpt_string: "hello" |
| rpt_string: "世界" |
| rpt_bytes: "hello" |
| rpt_bytes: "世界" |
| `, |
| }, { |
| desc: "repeated contains invalid UTF-8", |
| input: &pb2.Repeats{ |
| RptString: []string{"abc\xff"}, |
| }, |
| wantErr: true, |
| }, { |
| desc: "repeated enums", |
| input: &pb2.Enums{ |
| RptEnum: []pb2.Enum{pb2.Enum_ONE, 2, pb2.Enum_TEN, 42}, |
| RptNestedEnum: []pb2.Enums_NestedEnum{2, 47, 10}, |
| }, |
| want: `rpt_enum: ONE |
| rpt_enum: TWO |
| rpt_enum: TEN |
| rpt_enum: 42 |
| rpt_nested_enum: DOS |
| rpt_nested_enum: 47 |
| rpt_nested_enum: DIEZ |
| `, |
| }, { |
| desc: "repeated messages set to empty", |
| input: &pb2.Nests{ |
| RptNested: []*pb2.Nested{}, |
| Rptgroup: []*pb2.Nests_RptGroup{}, |
| }, |
| want: "\n", |
| }, { |
| desc: "repeated messages", |
| input: &pb2.Nests{ |
| RptNested: []*pb2.Nested{ |
| { |
| OptString: scalar.String("repeat nested one"), |
| }, |
| { |
| OptString: scalar.String("repeat nested two"), |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("inside repeat nested two"), |
| }, |
| }, |
| {}, |
| }, |
| }, |
| want: `rpt_nested: { |
| opt_string: "repeat nested one" |
| } |
| rpt_nested: { |
| opt_string: "repeat nested two" |
| opt_nested: { |
| opt_string: "inside repeat nested two" |
| } |
| } |
| rpt_nested: {} |
| `, |
| }, { |
| desc: "repeated messages contains nil value", |
| input: &pb2.Nests{ |
| RptNested: []*pb2.Nested{nil, {}}, |
| }, |
| want: `rpt_nested: {} |
| rpt_nested: {} |
| `, |
| }, { |
| desc: "repeated groups", |
| input: &pb2.Nests{ |
| Rptgroup: []*pb2.Nests_RptGroup{ |
| { |
| RptString: []string{"hello", "world"}, |
| }, |
| {}, |
| nil, |
| }, |
| }, |
| want: `RptGroup: { |
| rpt_string: "hello" |
| rpt_string: "world" |
| } |
| RptGroup: {} |
| RptGroup: {} |
| `, |
| }, { |
| desc: "map fields not set", |
| input: &pb3.Maps{}, |
| want: "\n", |
| }, { |
| desc: "map fields set to empty", |
| input: &pb3.Maps{ |
| Int32ToStr: map[int32]string{}, |
| BoolToUint32: map[bool]uint32{}, |
| Uint64ToEnum: map[uint64]pb3.Enum{}, |
| StrToNested: map[string]*pb3.Nested{}, |
| StrToOneofs: map[string]*pb3.Oneofs{}, |
| }, |
| want: "\n", |
| }, { |
| desc: "map fields 1", |
| input: &pb3.Maps{ |
| Int32ToStr: map[int32]string{ |
| -101: "-101", |
| 0xff: "0xff", |
| 0: "zero", |
| }, |
| BoolToUint32: map[bool]uint32{ |
| true: 42, |
| false: 101, |
| }, |
| }, |
| want: `int32_to_str: { |
| key: -101 |
| value: "-101" |
| } |
| int32_to_str: { |
| key: 0 |
| value: "zero" |
| } |
| int32_to_str: { |
| key: 255 |
| value: "0xff" |
| } |
| bool_to_uint32: { |
| key: false |
| value: 101 |
| } |
| bool_to_uint32: { |
| key: true |
| value: 42 |
| } |
| `, |
| }, { |
| desc: "map fields 2", |
| input: &pb3.Maps{ |
| Uint64ToEnum: map[uint64]pb3.Enum{ |
| 1: pb3.Enum_ONE, |
| 2: pb3.Enum_TWO, |
| 10: pb3.Enum_TEN, |
| 47: 47, |
| }, |
| }, |
| want: `uint64_to_enum: { |
| key: 1 |
| value: ONE |
| } |
| uint64_to_enum: { |
| key: 2 |
| value: TWO |
| } |
| uint64_to_enum: { |
| key: 10 |
| value: TEN |
| } |
| uint64_to_enum: { |
| key: 47 |
| value: 47 |
| } |
| `, |
| }, { |
| desc: "map fields 3", |
| input: &pb3.Maps{ |
| StrToNested: map[string]*pb3.Nested{ |
| "nested": &pb3.Nested{ |
| SString: "nested in a map", |
| }, |
| }, |
| }, |
| want: `str_to_nested: { |
| key: "nested" |
| value: { |
| s_string: "nested in a map" |
| } |
| } |
| `, |
| }, { |
| desc: "map fields 4", |
| input: &pb3.Maps{ |
| StrToOneofs: map[string]*pb3.Oneofs{ |
| "string": &pb3.Oneofs{ |
| Union: &pb3.Oneofs_OneofString{ |
| OneofString: "hello", |
| }, |
| }, |
| "nested": &pb3.Oneofs{ |
| Union: &pb3.Oneofs_OneofNested{ |
| OneofNested: &pb3.Nested{ |
| SString: "nested oneof in map field value", |
| }, |
| }, |
| }, |
| }, |
| }, |
| want: `str_to_oneofs: { |
| key: "nested" |
| value: { |
| oneof_nested: { |
| s_string: "nested oneof in map field value" |
| } |
| } |
| } |
| str_to_oneofs: { |
| key: "string" |
| value: { |
| oneof_string: "hello" |
| } |
| } |
| `, |
| }, { |
| desc: "map field value contains invalid UTF-8", |
| input: &pb3.Maps{ |
| Int32ToStr: map[int32]string{ |
| 101: "abc\xff", |
| }, |
| }, |
| wantErr: true, |
| }, { |
| desc: "map field key contains invalid UTF-8", |
| input: &pb3.Maps{ |
| StrToNested: map[string]*pb3.Nested{ |
| "abc\xff": {}, |
| }, |
| }, |
| wantErr: true, |
| }, { |
| desc: "map field contains nil value", |
| input: &pb3.Maps{ |
| StrToNested: map[string]*pb3.Nested{ |
| "nil": nil, |
| }, |
| }, |
| want: `str_to_nested: { |
| key: "nil" |
| value: {} |
| } |
| `, |
| }, { |
| desc: "required fields not set", |
| input: &pb2.Requireds{}, |
| want: "\n", |
| wantErr: true, |
| }, { |
| desc: "required fields partially set", |
| input: &pb2.Requireds{ |
| ReqBool: scalar.Bool(false), |
| ReqSfixed64: scalar.Int64(0xbeefcafe), |
| ReqDouble: scalar.Float64(math.NaN()), |
| ReqString: scalar.String("hello"), |
| ReqEnum: pb2.Enum_ONE.Enum(), |
| }, |
| want: `req_bool: false |
| req_sfixed64: 3203386110 |
| req_double: nan |
| req_string: "hello" |
| req_enum: ONE |
| `, |
| wantErr: true, |
| }, { |
| desc: "required fields not set with AllowPartial", |
| mo: prototext.MarshalOptions{AllowPartial: true}, |
| input: &pb2.Requireds{ |
| ReqBool: scalar.Bool(false), |
| ReqSfixed64: scalar.Int64(0xbeefcafe), |
| ReqDouble: scalar.Float64(math.NaN()), |
| ReqString: scalar.String("hello"), |
| ReqEnum: pb2.Enum_ONE.Enum(), |
| }, |
| want: `req_bool: false |
| req_sfixed64: 3203386110 |
| req_double: nan |
| req_string: "hello" |
| req_enum: ONE |
| `, |
| }, { |
| desc: "required fields all set", |
| input: &pb2.Requireds{ |
| ReqBool: scalar.Bool(false), |
| ReqSfixed64: scalar.Int64(0), |
| ReqDouble: scalar.Float64(1.23), |
| ReqString: scalar.String(""), |
| ReqEnum: pb2.Enum_ONE.Enum(), |
| ReqNested: &pb2.Nested{}, |
| }, |
| want: `req_bool: false |
| req_sfixed64: 0 |
| req_double: 1.23 |
| req_string: "" |
| req_enum: ONE |
| req_nested: {} |
| `, |
| }, { |
| desc: "indirect required field", |
| input: &pb2.IndirectRequired{ |
| OptNested: &pb2.NestedWithRequired{}, |
| }, |
| want: "opt_nested: {}\n", |
| wantErr: true, |
| }, { |
| desc: "indirect required field with AllowPartial", |
| mo: prototext.MarshalOptions{AllowPartial: true}, |
| input: &pb2.IndirectRequired{ |
| OptNested: &pb2.NestedWithRequired{}, |
| }, |
| want: "opt_nested: {}\n", |
| }, { |
| desc: "indirect required field in empty repeated", |
| input: &pb2.IndirectRequired{ |
| RptNested: []*pb2.NestedWithRequired{}, |
| }, |
| want: "\n", |
| }, { |
| desc: "indirect required field in repeated", |
| input: &pb2.IndirectRequired{ |
| RptNested: []*pb2.NestedWithRequired{ |
| &pb2.NestedWithRequired{}, |
| }, |
| }, |
| want: "rpt_nested: {}\n", |
| wantErr: true, |
| }, { |
| desc: "indirect required field in repeated with AllowPartial", |
| mo: prototext.MarshalOptions{AllowPartial: true}, |
| input: &pb2.IndirectRequired{ |
| RptNested: []*pb2.NestedWithRequired{ |
| &pb2.NestedWithRequired{}, |
| }, |
| }, |
| want: "rpt_nested: {}\n", |
| }, { |
| desc: "indirect required field in empty map", |
| input: &pb2.IndirectRequired{ |
| StrToNested: map[string]*pb2.NestedWithRequired{}, |
| }, |
| want: "\n", |
| }, { |
| desc: "indirect required field in map", |
| input: &pb2.IndirectRequired{ |
| StrToNested: map[string]*pb2.NestedWithRequired{ |
| "fail": &pb2.NestedWithRequired{}, |
| }, |
| }, |
| want: `str_to_nested: { |
| key: "fail" |
| value: {} |
| } |
| `, |
| wantErr: true, |
| }, { |
| desc: "indirect required field in map with AllowPartial", |
| mo: prototext.MarshalOptions{AllowPartial: true}, |
| input: &pb2.IndirectRequired{ |
| StrToNested: map[string]*pb2.NestedWithRequired{ |
| "fail": &pb2.NestedWithRequired{}, |
| }, |
| }, |
| want: `str_to_nested: { |
| key: "fail" |
| value: {} |
| } |
| `, |
| }, { |
| desc: "indirect required field in oneof", |
| input: &pb2.IndirectRequired{ |
| Union: &pb2.IndirectRequired_OneofNested{ |
| OneofNested: &pb2.NestedWithRequired{}, |
| }, |
| }, |
| want: "oneof_nested: {}\n", |
| wantErr: true, |
| }, { |
| desc: "indirect required field in oneof with AllowPartial", |
| mo: prototext.MarshalOptions{AllowPartial: true}, |
| input: &pb2.IndirectRequired{ |
| Union: &pb2.IndirectRequired_OneofNested{ |
| OneofNested: &pb2.NestedWithRequired{}, |
| }, |
| }, |
| want: "oneof_nested: {}\n", |
| }, { |
| desc: "unknown varint and fixed types", |
| input: func() proto.Message { |
| m := &pb2.Scalars{ |
| OptString: scalar.String("this message contains unknown fields"), |
| } |
| m.ProtoReflect().SetUnknown(pack.Message{ |
| pack.Tag{101, pack.VarintType}, pack.Bool(true), |
| pack.Tag{102, pack.VarintType}, pack.Varint(0xff), |
| pack.Tag{103, pack.Fixed32Type}, pack.Uint32(47), |
| pack.Tag{104, pack.Fixed64Type}, pack.Int64(0xdeadbeef), |
| }.Marshal()) |
| return m |
| }(), |
| want: `opt_string: "this message contains unknown fields" |
| 101: 1 |
| 102: 255 |
| 103: 47 |
| 104: 3735928559 |
| `, |
| }, { |
| desc: "unknown length-delimited", |
| input: func() proto.Message { |
| m := new(pb2.Scalars) |
| m.ProtoReflect().SetUnknown(pack.Message{ |
| pack.Tag{101, pack.BytesType}, pack.LengthPrefix{pack.Bool(true), pack.Bool(false)}, |
| pack.Tag{102, pack.BytesType}, pack.String("hello world"), |
| pack.Tag{103, pack.BytesType}, pack.Bytes("\xe4\xb8\x96\xe7\x95\x8c"), |
| }.Marshal()) |
| return m |
| }(), |
| want: `101: "\x01\x00" |
| 102: "hello world" |
| 103: "世界" |
| `, |
| }, { |
| desc: "unknown group type", |
| input: func() proto.Message { |
| m := new(pb2.Scalars) |
| m.ProtoReflect().SetUnknown(pack.Message{ |
| pack.Tag{101, pack.StartGroupType}, pack.Tag{101, pack.EndGroupType}, |
| pack.Tag{102, pack.StartGroupType}, |
| pack.Tag{101, pack.VarintType}, pack.Bool(false), |
| pack.Tag{102, pack.BytesType}, pack.String("inside a group"), |
| pack.Tag{102, pack.EndGroupType}, |
| }.Marshal()) |
| return m |
| }(), |
| want: `101: {} |
| 102: { |
| 101: 0 |
| 102: "inside a group" |
| } |
| `, |
| }, { |
| desc: "unknown unpack repeated field", |
| input: func() proto.Message { |
| m := new(pb2.Scalars) |
| m.ProtoReflect().SetUnknown(pack.Message{ |
| pack.Tag{101, pack.BytesType}, pack.LengthPrefix{pack.Bool(true), pack.Bool(false), pack.Bool(true)}, |
| pack.Tag{102, pack.BytesType}, pack.String("hello"), |
| pack.Tag{101, pack.VarintType}, pack.Bool(true), |
| pack.Tag{102, pack.BytesType}, pack.String("世界"), |
| }.Marshal()) |
| return m |
| }(), |
| want: `101: "\x01\x00\x01" |
| 102: "hello" |
| 101: 1 |
| 102: "世界" |
| `, |
| }, { |
| desc: "extensions of non-repeated fields", |
| input: func() proto.Message { |
| m := &pb2.Extensions{ |
| OptString: scalar.String("non-extension field"), |
| OptBool: scalar.Bool(true), |
| OptInt32: scalar.Int32(42), |
| } |
| setExtension(m, pb2.E_OptExtBool, true) |
| setExtension(m, pb2.E_OptExtString, "extension field") |
| setExtension(m, pb2.E_OptExtEnum, pb2.Enum_TEN) |
| setExtension(m, pb2.E_OptExtNested, &pb2.Nested{ |
| OptString: scalar.String("nested in an extension"), |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("another nested in an extension"), |
| }, |
| }) |
| return m |
| }(), |
| want: `opt_string: "non-extension field" |
| opt_bool: true |
| opt_int32: 42 |
| [pb2.opt_ext_bool]: true |
| [pb2.opt_ext_enum]: TEN |
| [pb2.opt_ext_nested]: { |
| opt_string: "nested in an extension" |
| opt_nested: { |
| opt_string: "another nested in an extension" |
| } |
| } |
| [pb2.opt_ext_string]: "extension field" |
| `, |
| }, { |
| desc: "extension field contains invalid UTF-8", |
| input: func() proto.Message { |
| m := &pb2.Extensions{} |
| setExtension(m, pb2.E_OptExtString, "abc\xff") |
| return m |
| }(), |
| wantErr: true, |
| }, { |
| desc: "extension partial returns error", |
| input: func() proto.Message { |
| m := &pb2.Extensions{} |
| setExtension(m, pb2.E_OptExtPartial, &pb2.PartialRequired{ |
| OptString: scalar.String("partial1"), |
| }) |
| setExtension(m, pb2.E_ExtensionsContainer_OptExtPartial, &pb2.PartialRequired{ |
| OptString: scalar.String("partial2"), |
| }) |
| return m |
| }(), |
| want: `[pb2.ExtensionsContainer.opt_ext_partial]: { |
| opt_string: "partial2" |
| } |
| [pb2.opt_ext_partial]: { |
| opt_string: "partial1" |
| } |
| `, |
| wantErr: true, |
| }, { |
| desc: "extension partial with AllowPartial", |
| mo: prototext.MarshalOptions{AllowPartial: true}, |
| input: func() proto.Message { |
| m := &pb2.Extensions{} |
| setExtension(m, pb2.E_OptExtPartial, &pb2.PartialRequired{ |
| OptString: scalar.String("partial1"), |
| }) |
| return m |
| }(), |
| want: `[pb2.opt_ext_partial]: { |
| opt_string: "partial1" |
| } |
| `, |
| }, { |
| desc: "extensions of repeated fields", |
| input: func() proto.Message { |
| m := &pb2.Extensions{} |
| setExtension(m, pb2.E_RptExtEnum, &[]pb2.Enum{pb2.Enum_TEN, 101, pb2.Enum_ONE}) |
| setExtension(m, pb2.E_RptExtFixed32, &[]uint32{42, 47}) |
| setExtension(m, pb2.E_RptExtNested, &[]*pb2.Nested{ |
| &pb2.Nested{OptString: scalar.String("one")}, |
| &pb2.Nested{OptString: scalar.String("two")}, |
| &pb2.Nested{OptString: scalar.String("three")}, |
| }) |
| return m |
| }(), |
| want: `[pb2.rpt_ext_enum]: TEN |
| [pb2.rpt_ext_enum]: 101 |
| [pb2.rpt_ext_enum]: ONE |
| [pb2.rpt_ext_fixed32]: 42 |
| [pb2.rpt_ext_fixed32]: 47 |
| [pb2.rpt_ext_nested]: { |
| opt_string: "one" |
| } |
| [pb2.rpt_ext_nested]: { |
| opt_string: "two" |
| } |
| [pb2.rpt_ext_nested]: { |
| opt_string: "three" |
| } |
| `, |
| }, { |
| desc: "extensions of non-repeated fields in another message", |
| input: func() proto.Message { |
| m := &pb2.Extensions{} |
| setExtension(m, pb2.E_ExtensionsContainer_OptExtBool, true) |
| setExtension(m, pb2.E_ExtensionsContainer_OptExtString, "extension field") |
| setExtension(m, pb2.E_ExtensionsContainer_OptExtEnum, pb2.Enum_TEN) |
| setExtension(m, pb2.E_ExtensionsContainer_OptExtNested, &pb2.Nested{ |
| OptString: scalar.String("nested in an extension"), |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("another nested in an extension"), |
| }, |
| }) |
| return m |
| }(), |
| want: `[pb2.ExtensionsContainer.opt_ext_bool]: true |
| [pb2.ExtensionsContainer.opt_ext_enum]: TEN |
| [pb2.ExtensionsContainer.opt_ext_nested]: { |
| opt_string: "nested in an extension" |
| opt_nested: { |
| opt_string: "another nested in an extension" |
| } |
| } |
| [pb2.ExtensionsContainer.opt_ext_string]: "extension field" |
| `, |
| }, { |
| desc: "extensions of repeated fields in another message", |
| input: func() proto.Message { |
| m := &pb2.Extensions{ |
| OptString: scalar.String("non-extension field"), |
| OptBool: scalar.Bool(true), |
| OptInt32: scalar.Int32(42), |
| } |
| setExtension(m, pb2.E_ExtensionsContainer_RptExtEnum, &[]pb2.Enum{pb2.Enum_TEN, 101, pb2.Enum_ONE}) |
| setExtension(m, pb2.E_ExtensionsContainer_RptExtString, &[]string{"hello", "world"}) |
| setExtension(m, pb2.E_ExtensionsContainer_RptExtNested, &[]*pb2.Nested{ |
| &pb2.Nested{OptString: scalar.String("one")}, |
| &pb2.Nested{OptString: scalar.String("two")}, |
| &pb2.Nested{OptString: scalar.String("three")}, |
| }) |
| return m |
| }(), |
| want: `opt_string: "non-extension field" |
| opt_bool: true |
| opt_int32: 42 |
| [pb2.ExtensionsContainer.rpt_ext_enum]: TEN |
| [pb2.ExtensionsContainer.rpt_ext_enum]: 101 |
| [pb2.ExtensionsContainer.rpt_ext_enum]: ONE |
| [pb2.ExtensionsContainer.rpt_ext_nested]: { |
| opt_string: "one" |
| } |
| [pb2.ExtensionsContainer.rpt_ext_nested]: { |
| opt_string: "two" |
| } |
| [pb2.ExtensionsContainer.rpt_ext_nested]: { |
| opt_string: "three" |
| } |
| [pb2.ExtensionsContainer.rpt_ext_string]: "hello" |
| [pb2.ExtensionsContainer.rpt_ext_string]: "world" |
| `, |
| }, { |
| desc: "MessageSet", |
| input: func() proto.Message { |
| m := &pb2.MessageSet{} |
| setExtension(m, pb2.E_MessageSetExtension_MessageSetExtension, &pb2.MessageSetExtension{ |
| OptString: scalar.String("a messageset extension"), |
| }) |
| setExtension(m, pb2.E_MessageSetExtension_NotMessageSetExtension, &pb2.MessageSetExtension{ |
| OptString: scalar.String("not a messageset extension"), |
| }) |
| setExtension(m, pb2.E_MessageSetExtension_ExtNested, &pb2.Nested{ |
| OptString: scalar.String("just a regular extension"), |
| }) |
| return m |
| }(), |
| want: `[pb2.MessageSetExtension]: { |
| opt_string: "a messageset extension" |
| } |
| [pb2.MessageSetExtension.ext_nested]: { |
| opt_string: "just a regular extension" |
| } |
| [pb2.MessageSetExtension.not_message_set_extension]: { |
| opt_string: "not a messageset extension" |
| } |
| `, |
| }, { |
| desc: "not real MessageSet 1", |
| input: func() proto.Message { |
| m := &pb2.FakeMessageSet{} |
| setExtension(m, pb2.E_FakeMessageSetExtension_MessageSetExtension, &pb2.FakeMessageSetExtension{ |
| OptString: scalar.String("not a messageset extension"), |
| }) |
| return m |
| }(), |
| want: `[pb2.FakeMessageSetExtension.message_set_extension]: { |
| opt_string: "not a messageset extension" |
| } |
| `, |
| }, { |
| desc: "not real MessageSet 2", |
| input: func() proto.Message { |
| m := &pb2.MessageSet{} |
| setExtension(m, pb2.E_MessageSetExtension, &pb2.FakeMessageSetExtension{ |
| OptString: scalar.String("another not a messageset extension"), |
| }) |
| return m |
| }(), |
| want: `[pb2.message_set_extension]: { |
| opt_string: "another not a messageset extension" |
| } |
| `, |
| }, { |
| desc: "Any not expanded", |
| mo: prototext.MarshalOptions{ |
| Resolver: preg.NewTypes(), |
| }, |
| input: func() proto.Message { |
| m := &pb2.Nested{ |
| OptString: scalar.String("embedded inside Any"), |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("inception"), |
| }, |
| } |
| b, err := proto.MarshalOptions{Deterministic: true}.Marshal(m) |
| if err != nil { |
| t.Fatalf("error in binary marshaling message for Any.value: %v", err) |
| } |
| return &anypb.Any{ |
| TypeUrl: "pb2.Nested", |
| Value: b, |
| } |
| }(), |
| want: `type_url: "pb2.Nested" |
| value: "\n\x13embedded inside Any\x12\x0b\n\tinception" |
| `, |
| }, { |
| desc: "Any expanded", |
| mo: prototext.MarshalOptions{ |
| Resolver: preg.NewTypes(pimpl.Export{}.MessageTypeOf(&pb2.Nested{})), |
| }, |
| input: func() proto.Message { |
| m := &pb2.Nested{ |
| OptString: scalar.String("embedded inside Any"), |
| OptNested: &pb2.Nested{ |
| OptString: scalar.String("inception"), |
| }, |
| } |
| b, err := proto.MarshalOptions{Deterministic: true}.Marshal(m) |
| if err != nil { |
| t.Fatalf("error in binary marshaling message for Any.value: %v", err) |
| } |
| return &anypb.Any{ |
| TypeUrl: "foo/pb2.Nested", |
| Value: b, |
| } |
| }(), |
| want: `[foo/pb2.Nested]: { |
| opt_string: "embedded inside Any" |
| opt_nested: { |
| opt_string: "inception" |
| } |
| } |
| `, |
| }, { |
| desc: "Any expanded with missing required", |
| mo: prototext.MarshalOptions{ |
| Resolver: preg.NewTypes(pimpl.Export{}.MessageTypeOf(&pb2.PartialRequired{})), |
| }, |
| input: func() proto.Message { |
| m := &pb2.PartialRequired{ |
| OptString: scalar.String("embedded inside Any"), |
| } |
| b, err := proto.MarshalOptions{ |
| AllowPartial: true, |
| Deterministic: true, |
| }.Marshal(m) |
| if err != nil { |
| t.Fatalf("error in binary marshaling message for Any.value: %v", err) |
| } |
| return &anypb.Any{ |
| TypeUrl: string(m.ProtoReflect().Descriptor().FullName()), |
| Value: b, |
| } |
| }(), |
| want: `[pb2.PartialRequired]: { |
| opt_string: "embedded inside Any" |
| } |
| `, |
| }, { |
| desc: "Any with invalid value", |
| mo: prototext.MarshalOptions{ |
| Resolver: preg.NewTypes(pimpl.Export{}.MessageTypeOf(&pb2.Nested{})), |
| }, |
| input: &anypb.Any{ |
| TypeUrl: "foo/pb2.Nested", |
| Value: []byte("\x80"), |
| }, |
| want: `type_url: "foo/pb2.Nested" |
| value: "\x80" |
| `, |
| }} |
| |
| for _, tt := range tests { |
| tt := tt |
| t.Run(tt.desc, func(t *testing.T) { |
| // Use 2-space indentation on all MarshalOptions. |
| tt.mo.Indent = " " |
| b, err := tt.mo.Marshal(tt.input) |
| if err != nil && !tt.wantErr { |
| t.Errorf("Marshal() returned error: %v\n", err) |
| } |
| if err == nil && tt.wantErr { |
| t.Error("Marshal() got nil error, want error\n") |
| } |
| got := string(b) |
| if tt.want != "" && got != tt.want { |
| t.Errorf("Marshal()\n<got>\n%v\n<want>\n%v\n", got, tt.want) |
| if diff := cmp.Diff(tt.want, got); diff != "" { |
| t.Errorf("Marshal() diff -want +got\n%v\n", diff) |
| } |
| } |
| }) |
| } |
| } |