// Protocol Buffers - Google's data interchange format // Copyright 2023 Google LLC. 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 #include "upb/util/required_fields.h" #include #include #include "absl/strings/string_view.h" #include "upb/base/status.hpp" #include "upb/json/decode.h" #include "upb/mem/arena.h" #include "upb/mem/arena.hpp" #include "upb/reflection/common.h" #include "upb/reflection/def.hpp" #include "upb/util/required_fields_editions_test.upb.h" #include "upb/util/required_fields_editions_test.upbdefs.h" #include "upb/util/required_fields_test.upb.h" #include "upb/util/required_fields_test.upbdefs.h" std::vector PathsToText(upb_FieldPathEntry* entry) { std::vector ret; char buf[1024]; // Larger than anything we'll use in this test. while (entry->field) { upb_FieldPathEntry* before = entry; size_t len = upb_FieldPath_ToText(&entry, buf, sizeof(buf)); EXPECT_LT(len, sizeof(buf)); assert(len <= sizeof(buf)); ret.push_back(buf); // Ensure that we can have a short buffer and that it will be // NULL-terminated. char shortbuf[4]; size_t len2 = upb_FieldPath_ToText(&before, shortbuf, sizeof(shortbuf)); EXPECT_EQ(len, len2); EXPECT_EQ(ret.back().substr(0, sizeof(shortbuf) - 1), std::string(shortbuf)); } return ret; } template class RequiredFieldsTest : public testing::Test { public: void CheckRequired(absl::string_view json, const std::vector& missing) { upb::Arena arena; upb::DefPool defpool; auto* test_msg = T::NewMessage(arena.ptr()); upb::MessageDefPtr m = T::GetMessageDef(defpool.ptr()); upb::Status status; EXPECT_TRUE(upb_JsonDecode(json.data(), json.size(), test_msg, m.ptr(), defpool.ptr(), 0, arena.ptr(), status.ptr())) << status.error_message(); upb_FieldPathEntry* entries = nullptr; EXPECT_EQ( !missing.empty(), upb_util_HasUnsetRequired(test_msg, m.ptr(), defpool.ptr(), &entries)); if (entries) { EXPECT_EQ(missing, PathsToText(entries)); free(entries); } // Verify that we can pass a NULL pointer to entries when we don't care // about them. EXPECT_EQ(!missing.empty(), upb_util_HasUnsetRequired( test_msg, m.ptr(), defpool.ptr(), nullptr)); } }; class Proto2Type { public: using MessageType = upb_util_test_TestRequiredFields; static MessageType* NewMessage(upb_Arena* arena) { return upb_util_test_TestRequiredFields_new(arena); } static upb::MessageDefPtr GetMessageDef(upb_DefPool* defpool) { return upb::MessageDefPtr( upb_util_test_TestRequiredFields_getmsgdef(defpool)); } }; class Edition2023Type { public: using MessageType = upb_util_2023_test_TestRequiredFields; static MessageType* NewMessage(upb_Arena* arena) { return upb_util_2023_test_TestRequiredFields_new(arena); } static upb::MessageDefPtr GetMessageDef(upb_DefPool* defpool) { return upb::MessageDefPtr( upb_util_2023_test_TestRequiredFields_getmsgdef(defpool)); } }; using MyTypes = ::testing::Types; TYPED_TEST_SUITE(RequiredFieldsTest, MyTypes); // message HasRequiredField { // required int32 required_int32 = 1; // } // // message TestRequiredFields { // required EmptyMessage required_message = 1; // optional TestRequiredFields optional_message = 2; // repeated HasRequiredField repeated_message = 3; // map map_int32_message = 4; // } TYPED_TEST(RequiredFieldsTest, TestRequired) { TestFixture::CheckRequired(R"json({})json", {"required_message"}); TestFixture::CheckRequired(R"json({"required_message": {}})json", {}); TestFixture::CheckRequired( R"json( { "optional_message": {} } )json", {"required_message", "optional_message.required_message"}); // Repeated field. TestFixture::CheckRequired( R"json( { "optional_message": { "repeated_message": [ {"required_int32": 1}, {}, {"required_int32": 2} ] } } )json", {"required_message", "optional_message.required_message", "optional_message.repeated_message[1].required_int32"}); // Int32 map key. TestFixture::CheckRequired( R"json( { "required_message": {}, "map_int32_message": { "1": {"required_int32": 1}, "5": {}, "9": {"required_int32": 1} } } )json", {"map_int32_message[5].required_int32"}); // Int64 map key. TestFixture::CheckRequired( R"json( { "required_message": {}, "map_int64_message": { "1": {"required_int32": 1}, "5": {}, "9": {"required_int32": 1} } } )json", {"map_int64_message[5].required_int32"}); // Uint32 map key. TestFixture::CheckRequired( R"json( { "required_message": {}, "map_uint32_message": { "1": {"required_int32": 1}, "5": {}, "9": {"required_int32": 1} } } )json", {"map_uint32_message[5].required_int32"}); // Uint64 map key. TestFixture::CheckRequired( R"json( { "required_message": {}, "map_uint64_message": { "1": {"required_int32": 1}, "5": {}, "9": {"required_int32": 1} } } )json", {"map_uint64_message[5].required_int32"}); // Bool map key. TestFixture::CheckRequired( R"json( { "required_message": {}, "map_bool_message": { "false": {"required_int32": 1}, "true": {} } } )json", {"map_bool_message[true].required_int32"}); // String map key. TestFixture::CheckRequired( R"json( { "required_message": {}, "map_string_message": { "abc": {"required_int32": 1}, "d\"ef": {} } } )json", {R"(map_string_message["d\"ef"].required_int32)"}); }