// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd // Author: benjy@google.com (Benjy Weinberger) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. // // A proto file used to test the "custom options" feature of google.protobuf. // This file is based on unittest_custom_options.proto in // src/google/protobuf, but is modified for proto3. It could // potentially be moved into src/google/protobuf, but currently C# // is the only language that really needs it, as we don't support // proto2 syntax. It's cut down significantly as proto3 only supports // extensions for options. syntax = "proto3"; // A custom file option (defined below). option (file_opt1) = 9876543210; import "google/protobuf/descriptor.proto"; // We don't put this in a package within proto2 because we need to make sure // that the generated code doesn't depend on being in the proto2 namespace. package protobuf_unittest; option csharp_namespace = "UnitTest.Issues.TestProtos"; // Some simple test custom options of various types. extend google.protobuf.FileOptions { uint64 file_opt1 = 7736974; } extend google.protobuf.MessageOptions { int32 message_opt1 = 7739036; } extend google.protobuf.FieldOptions { fixed64 field_opt1 = 7740936; } extend google.protobuf.OneofOptions { int32 oneof_opt1 = 7740111; } extend google.protobuf.EnumOptions { sfixed32 enum_opt1 = 7753576; } extend google.protobuf.EnumValueOptions { int32 enum_value_opt1 = 1560678; } extend google.protobuf.ServiceOptions { sint64 service_opt1 = 7887650; } enum MethodOpt1 { METHODOPT1_UNSPECIFIED = 0; METHODOPT1_VAL1 = 1; METHODOPT1_VAL2 = 2; } extend google.protobuf.MethodOptions { MethodOpt1 method_opt1 = 7890860; } // A test message with custom options at all possible locations (and also some // regular options, to make sure they interact nicely). message TestMessageWithCustomOptions { option message_set_wire_format = false; option (message_opt1) = -56; string field1 = 1 [ctype = CORD, (field_opt1) = 8765432109]; oneof AnOneof { option (oneof_opt1) = -99; int32 oneof_field = 2; } enum AnEnum { option (enum_opt1) = -789; ANENUM_UNSPECIFIED = 0; ANENUM_VAL1 = 1; ANENUM_VAL2 = 2 [(enum_value_opt1) = 123]; } } // A test RPC service with custom options at all possible locations (and also // some regular options, to make sure they interact nicely). message CustomOptionFooRequest {} message CustomOptionFooResponse {} message CustomOptionFooClientMessage {} message CustomOptionFooServerMessage {} service TestServiceWithCustomOptions { option (service_opt1) = -9876543210; rpc Foo(CustomOptionFooRequest) returns (CustomOptionFooResponse) { option (method_opt1) = METHODOPT1_VAL2; } } // Options of every possible field type, so we can test them all exhaustively. message DummyMessageContainingEnum { enum TestEnumType { TEST_OPTION_ENUM_UNSPECIFIED = 0; TEST_OPTION_ENUM_TYPE1 = 22; TEST_OPTION_ENUM_TYPE2 = -23; } } message DummyMessageInvalidAsOptionType {} extend google.protobuf.MessageOptions { bool bool_opt = 7706090; int32 int32_opt = 7705709; int64 int64_opt = 7705542; uint32 uint32_opt = 7704880; uint64 uint64_opt = 7702367; sint32 sint32_opt = 7701568; sint64 sint64_opt = 7700863; fixed32 fixed32_opt = 7700307; fixed64 fixed64_opt = 7700194; sfixed32 sfixed32_opt = 7698645; sfixed64 sfixed64_opt = 7685475; float float_opt = 7675390; double double_opt = 7673293; string string_opt = 7673285; bytes bytes_opt = 7673238; DummyMessageContainingEnum.TestEnumType enum_opt = 7673233; DummyMessageInvalidAsOptionType message_type_opt = 7665967; } message CustomOptionMinIntegerValues { option (bool_opt) = false; option (int32_opt) = -0x80000000; option (int64_opt) = -0x8000000000000000; option (uint32_opt) = 0; option (uint64_opt) = 0; option (sint32_opt) = -0x80000000; option (sint64_opt) = -0x8000000000000000; option (fixed32_opt) = 0; option (fixed64_opt) = 0; option (sfixed32_opt) = -0x80000000; option (sfixed64_opt) = -0x8000000000000000; } message CustomOptionMaxIntegerValues { option (bool_opt) = true; option (int32_opt) = 0x7FFFFFFF; option (int64_opt) = 0x7FFFFFFFFFFFFFFF; option (uint32_opt) = 0xFFFFFFFF; option (uint64_opt) = 0xFFFFFFFFFFFFFFFF; option (sint32_opt) = 0x7FFFFFFF; option (sint64_opt) = 0x7FFFFFFFFFFFFFFF; option (fixed32_opt) = 0xFFFFFFFF; option (fixed64_opt) = 0xFFFFFFFFFFFFFFFF; option (sfixed32_opt) = 0x7FFFFFFF; option (sfixed64_opt) = 0x7FFFFFFFFFFFFFFF; } message CustomOptionOtherValues { option (int32_opt) = -100; // To test sign-extension. option (float_opt) = 12.3456789; option (double_opt) = 1.234567890123456789; option (string_opt) = "Hello, \"World\""; option (bytes_opt) = "Hello\0World"; option (enum_opt) = TEST_OPTION_ENUM_TYPE2; } message SettingRealsFromPositiveInts { option (float_opt) = 12; option (double_opt) = 154; } message SettingRealsFromNegativeInts { option (float_opt) = -12; option (double_opt) = -154; } // Options of complex message types, themselves combined and extended in // various ways. message ComplexOptionType1 { int32 foo = 1; int32 foo2 = 2; int32 foo3 = 3; repeated int32 foo4 = 4; } message ComplexOptionType2 { ComplexOptionType1 bar = 1; int32 baz = 2; message ComplexOptionType4 { int32 waldo = 1; extend google.protobuf.MessageOptions { ComplexOptionType4 complex_opt4 = 7633546; } } ComplexOptionType4 fred = 3; repeated ComplexOptionType4 barney = 4; } message ComplexOptionType3 { int32 qux = 1; } extend google.protobuf.MessageOptions { protobuf_unittest.ComplexOptionType1 complex_opt1 = 7646756; ComplexOptionType2 complex_opt2 = 7636949; ComplexOptionType3 complex_opt3 = 7636463; } // Note that we try various different ways of naming the same extension. message VariousComplexOptions { option (.protobuf_unittest.complex_opt1).foo = 42; option (protobuf_unittest.complex_opt1).foo4 = 99; option (protobuf_unittest.complex_opt1).foo4 = 88; option (complex_opt2).baz = 987; option (complex_opt2).bar.foo = 743; option (ComplexOptionType2.ComplexOptionType4.complex_opt4).waldo = 1971; option (complex_opt2).fred.waldo = 321; option (complex_opt2).barney = { waldo: 101 }; option (complex_opt2).barney = { waldo: 212 }; option (protobuf_unittest.complex_opt3).qux = 9; } // ------------------------------------------------------ // Definitions for testing aggregate option parsing. // See descriptor_unittest.cc. // A helper type used to test aggregate option parsing message Aggregate { int32 i = 1; string s = 2; // A nested object Aggregate sub = 3; } // Allow Aggregate to be used as an option at all possible locations // in the .proto grammar. extend google.protobuf.FileOptions { Aggregate fileopt = 15478479; } extend google.protobuf.MessageOptions { Aggregate msgopt = 15480088; } extend google.protobuf.FieldOptions { Aggregate fieldopt = 15481374; } extend google.protobuf.EnumOptions { Aggregate enumopt = 15483218; } extend google.protobuf.EnumValueOptions { Aggregate enumvalopt = 15486921; } extend google.protobuf.ServiceOptions { Aggregate serviceopt = 15497145; } extend google.protobuf.MethodOptions { Aggregate methodopt = 15512713; } // Try using AggregateOption at different points in the proto grammar option (fileopt) = { s: 'FileAnnotation' // Also test the handling of comments /* of both types */ i: 100 sub { s: 'NestedFileAnnotation' } }; message AggregateMessage { option (msgopt) = { i: 101 s: 'MessageAnnotation' }; int32 fieldname = 1 [(fieldopt) = { s: 'FieldAnnotation' }]; } service AggregateService { option (serviceopt) = { s: 'ServiceAnnotation' }; rpc Method(AggregateMessage) returns (AggregateMessage) { option (methodopt) = { s: 'MethodAnnotation' }; } } enum AggregateEnum { option (enumopt) = { s: 'EnumAnnotation' }; UNSPECIFIED = 0; VALUE = 1 [(enumvalopt) = { s: 'EnumValueAnnotation' }]; } // Test custom options for nested type. message NestedOptionType { message NestedMessage { option (message_opt1) = 1001; int32 nested_field = 1 [(field_opt1) = 1002]; } enum NestedEnum { option (enum_opt1) = 1003; UNSPECIFIED = 0; NESTED_ENUM_VALUE = 1 [(enum_value_opt1) = 1004]; } }