// 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 /* Test of mini table accessors. * * Messages are created and mutated using generated code, and then * accessed through reflective APIs exposed through mini table accessors. */ #include "upb/message/promote.h" #include #include #include #include #include #include "upb/base/descriptor_constants.h" #include "upb/base/status.h" #include "upb/base/string_view.h" #include "upb/mem/arena.h" #include "upb/mem/arena.hpp" #include "upb/message/accessors.h" #include "upb/message/array.h" #include "upb/message/copy.h" #include "upb/message/internal/extension.h" #include "upb/message/internal/message.h" #include "upb/message/map.h" #include "upb/message/message.h" #include "upb/message/tagged_ptr.h" #include "upb/mini_descriptor/decode.h" #include "upb/mini_descriptor/internal/encode.hpp" #include "upb/mini_descriptor/internal/modifiers.h" #include "upb/mini_descriptor/link.h" #include "upb/mini_table/field.h" #include "upb/mini_table/message.h" #include "upb/mini_table/sub.h" #include "upb/test/test.upb.h" #include "upb/test/test.upb_minitable.h" #include "upb/wire/decode.h" #include "upb/wire/encode.h" // Must be last #include "upb/port/def.inc" namespace { TEST(GeneratedCode, FindUnknown) { upb_Arena* arena = upb_Arena_New(); upb_test_ModelWithExtensions* msg = upb_test_ModelWithExtensions_new(arena); upb_test_ModelWithExtensions_set_random_int32(msg, 10); upb_test_ModelWithExtensions_set_random_name( msg, upb_StringView_FromString("Hello")); upb_test_ModelExtension1* extension1 = upb_test_ModelExtension1_new(arena); upb_test_ModelExtension1_set_str(extension1, upb_StringView_FromString("World")); upb_test_ModelExtension1_set_model_ext(msg, extension1, arena); size_t serialized_size; char* serialized = upb_test_ModelWithExtensions_serialize(msg, arena, &serialized_size); upb_test_EmptyMessageWithExtensions* base_msg = upb_test_EmptyMessageWithExtensions_parse(serialized, serialized_size, arena); upb_FindUnknownRet result = upb_MiniTable_FindUnknown( base_msg, upb_test_ModelExtension1_model_ext_ext.field.number, 0); EXPECT_EQ(kUpb_FindUnknown_Ok, result.status); result = upb_MiniTable_FindUnknown( base_msg, upb_test_ModelExtension2_model_ext_ext.field.number, 0); EXPECT_EQ(kUpb_FindUnknown_NotPresent, result.status); upb_Arena_Free(arena); } TEST(GeneratedCode, Extensions) { upb_Arena* arena = upb_Arena_New(); upb_test_ModelWithExtensions* msg = upb_test_ModelWithExtensions_new(arena); upb_test_ModelWithExtensions_set_random_int32(msg, 10); upb_test_ModelWithExtensions_set_random_name( msg, upb_StringView_FromString("Hello")); upb_test_ModelExtension1* extension1 = upb_test_ModelExtension1_new(arena); upb_test_ModelExtension1_set_str(extension1, upb_StringView_FromString("World")); upb_test_ModelExtension2* extension2 = upb_test_ModelExtension2_new(arena); upb_test_ModelExtension2_set_i(extension2, 5); upb_test_ModelExtension2* extension3 = upb_test_ModelExtension2_new(arena); upb_test_ModelExtension2_set_i(extension3, 6); upb_test_ModelExtension2* extension4 = upb_test_ModelExtension2_new(arena); upb_test_ModelExtension2_set_i(extension4, 7); upb_test_ModelExtension2* extension5 = upb_test_ModelExtension2_new(arena); upb_test_ModelExtension2_set_i(extension5, 8); upb_test_ModelExtension2* extension6 = upb_test_ModelExtension2_new(arena); upb_test_ModelExtension2_set_i(extension6, 9); // Set many extensions, to exercise code paths that involve reallocating the // extensions and unknown fields array. upb_test_ModelExtension1_set_model_ext(msg, extension1, arena); upb_test_ModelExtension2_set_model_ext(msg, extension2, arena); upb_test_ModelExtension2_set_model_ext_2(msg, extension3, arena); upb_test_ModelExtension2_set_model_ext_3(msg, extension4, arena); upb_test_ModelExtension2_set_model_ext_4(msg, extension5, arena); upb_test_ModelExtension2_set_model_ext_5(msg, extension6, arena); size_t serialized_size; char* serialized = upb_test_ModelWithExtensions_serialize(msg, arena, &serialized_size); const upb_Message_Extension* upb_ext2; upb_test_ModelExtension1* ext1; upb_test_ModelExtension2* ext2; upb_GetExtension_Status promote_status; // Test known GetExtension 1 promote_status = upb_MiniTable_GetOrPromoteExtension( msg, &upb_test_ModelExtension1_model_ext_ext, 0, arena, &upb_ext2); ext1 = (upb_test_ModelExtension1*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_TRUE(upb_StringView_IsEqual(upb_StringView_FromString("World"), upb_test_ModelExtension1_str(ext1))); // Test known GetExtension 2 promote_status = upb_MiniTable_GetOrPromoteExtension( msg, &upb_test_ModelExtension2_model_ext_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(5, upb_test_ModelExtension2_i(ext2)); // Test known GetExtension 3 promote_status = upb_MiniTable_GetOrPromoteExtension( msg, &upb_test_ModelExtension2_model_ext_2_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(6, upb_test_ModelExtension2_i(ext2)); // Test known GetExtension 4 promote_status = upb_MiniTable_GetOrPromoteExtension( msg, &upb_test_ModelExtension2_model_ext_3_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(7, upb_test_ModelExtension2_i(ext2)); // Test known GetExtension 5 promote_status = upb_MiniTable_GetOrPromoteExtension( msg, &upb_test_ModelExtension2_model_ext_4_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(8, upb_test_ModelExtension2_i(ext2)); // Test known GetExtension 6 promote_status = upb_MiniTable_GetOrPromoteExtension( msg, &upb_test_ModelExtension2_model_ext_5_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(9, upb_test_ModelExtension2_i(ext2)); upb_test_EmptyMessageWithExtensions* base_msg = upb_test_EmptyMessageWithExtensions_parse(serialized, serialized_size, arena); // Get unknown extension bytes before promotion. size_t start_len; upb_Message_GetUnknown(base_msg, &start_len); EXPECT_GT(start_len, 0); EXPECT_EQ(0, upb_Message_ExtensionCount(base_msg)); // Test unknown GetExtension. promote_status = upb_MiniTable_GetOrPromoteExtension( base_msg, &upb_test_ModelExtension1_model_ext_ext, 0, arena, &upb_ext2); ext1 = (upb_test_ModelExtension1*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_TRUE(upb_StringView_IsEqual(upb_StringView_FromString("World"), upb_test_ModelExtension1_str(ext1))); // Test unknown GetExtension. promote_status = upb_MiniTable_GetOrPromoteExtension( base_msg, &upb_test_ModelExtension2_model_ext_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(5, upb_test_ModelExtension2_i(ext2)); // Test unknown GetExtension. promote_status = upb_MiniTable_GetOrPromoteExtension( base_msg, &upb_test_ModelExtension2_model_ext_2_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(6, upb_test_ModelExtension2_i(ext2)); // Test unknown GetExtension. promote_status = upb_MiniTable_GetOrPromoteExtension( base_msg, &upb_test_ModelExtension2_model_ext_3_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(7, upb_test_ModelExtension2_i(ext2)); // Test unknown GetExtension. promote_status = upb_MiniTable_GetOrPromoteExtension( base_msg, &upb_test_ModelExtension2_model_ext_4_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(8, upb_test_ModelExtension2_i(ext2)); // Test unknown GetExtension. promote_status = upb_MiniTable_GetOrPromoteExtension( base_msg, &upb_test_ModelExtension2_model_ext_5_ext, 0, arena, &upb_ext2); ext2 = (upb_test_ModelExtension2*)upb_ext2->data.ptr; EXPECT_EQ(kUpb_GetExtension_Ok, promote_status); EXPECT_EQ(9, upb_test_ModelExtension2_i(ext2)); size_t end_len; upb_Message_GetUnknown(base_msg, &end_len); EXPECT_LT(end_len, start_len); EXPECT_EQ(6, upb_Message_ExtensionCount(base_msg)); upb_Arena_Free(arena); } // Create a minitable to mimic ModelWithSubMessages with unlinked subs // to lazily promote unknowns after parsing. upb_MiniTable* CreateMiniTableWithEmptySubTables(upb_Arena* arena) { upb::MtDataEncoder e; e.StartMessage(0); e.PutField(kUpb_FieldType_Int32, 4, 0); e.PutField(kUpb_FieldType_Message, 5, 0); e.PutField(kUpb_FieldType_Message, 6, kUpb_FieldModifier_IsRepeated); upb_Status status; upb_Status_Clear(&status); upb_MiniTable* table = upb_MiniTable_Build(e.data().data(), e.data().size(), arena, &status); EXPECT_EQ(status.ok, true); return table; } upb_MiniTable* CreateMapEntryMiniTable(upb_Arena* arena) { upb::MtDataEncoder e; e.EncodeMap(kUpb_FieldType_Int32, kUpb_FieldType_Message, 0, 0); upb_Status status; upb_Status_Clear(&status); upb_MiniTable* table = upb_MiniTable_Build(e.data().data(), e.data().size(), arena, &status); EXPECT_EQ(status.ok, true); return table; } // Create a minitable to mimic ModelWithMaps with unlinked subs // to lazily promote unknowns after parsing. upb_MiniTable* CreateMiniTableWithEmptySubTablesForMaps(upb_Arena* arena) { upb::MtDataEncoder e; e.StartMessage(0); e.PutField(kUpb_FieldType_Int32, 1, 0); e.PutField(kUpb_FieldType_Message, 3, kUpb_FieldModifier_IsRepeated); e.PutField(kUpb_FieldType_Message, 5, kUpb_FieldModifier_IsRepeated); upb_Status status; upb_Status_Clear(&status); upb_MiniTable* table = upb_MiniTable_Build(e.data().data(), e.data().size(), arena, &status); // Field 5 corresponds to ModelWithMaps.map_sm. upb_MiniTableField* map_field = const_cast( upb_MiniTable_FindFieldByNumber(table, 5)); EXPECT_NE(map_field, nullptr); upb_MiniTable* sub_table = CreateMapEntryMiniTable(arena); upb_MiniTable_SetSubMessage(table, map_field, sub_table); EXPECT_EQ(status.ok, true); return table; } void CheckReserialize(const upb_Message* msg, const upb_MiniTable* mini_table, upb_Arena* arena, char* serialized, size_t serialized_size) { // We can safely encode the "empty" message. We expect to get the same bytes // out as were parsed. size_t reserialized_size; char* reserialized; upb_EncodeStatus encode_status = upb_Encode(msg, mini_table, kUpb_EncodeOption_Deterministic, arena, &reserialized, &reserialized_size); EXPECT_EQ(encode_status, kUpb_EncodeStatus_Ok); EXPECT_EQ(reserialized_size, serialized_size); EXPECT_EQ(0, memcmp(reserialized, serialized, serialized_size)); // We should get the same result if we copy+reserialize. upb_Message* clone = upb_Message_DeepClone(msg, mini_table, arena); encode_status = upb_Encode(clone, mini_table, kUpb_EncodeOption_Deterministic, arena, &reserialized, &reserialized_size); EXPECT_EQ(encode_status, kUpb_EncodeStatus_Ok); EXPECT_EQ(reserialized_size, serialized_size); EXPECT_EQ(0, memcmp(reserialized, serialized, serialized_size)); } TEST(GeneratedCode, PromoteUnknownMessage) { upb::Arena arena; upb_test_ModelWithSubMessages* input_msg = upb_test_ModelWithSubMessages_new(arena.ptr()); upb_test_ModelWithExtensions* sub_message = upb_test_ModelWithExtensions_new(arena.ptr()); upb_test_ModelWithSubMessages_set_id(input_msg, 11); upb_test_ModelWithExtensions_set_random_int32(sub_message, 12); upb_test_ModelWithSubMessages_set_optional_child(input_msg, sub_message); size_t serialized_size; char* serialized = upb_test_ModelWithSubMessages_serialize( input_msg, arena.ptr(), &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTables(arena.ptr()); upb_DecodeStatus decode_status; // If we parse without allowing unlinked objects, the parse will fail. // TODO: re-enable this test once the old method of tree shaking is // removed // upb_Message* fail_msg = _upb_Message_New(mini_table, arena.ptr()); // decode_status = // upb_Decode(serialized, serialized_size, fail_msg, mini_table, nullptr, // 0, // arena.ptr()); // EXPECT_EQ(decode_status, kUpb_DecodeStatus_UnlinkedSubMessage); // if we parse while allowing unlinked objects, the parse will succeed. upb_Message* msg = _upb_Message_New(mini_table, arena.ptr()); decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, kUpb_DecodeOption_ExperimentalAllowUnlinked, arena.ptr()); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); CheckReserialize(msg, mini_table, arena.ptr(), serialized, serialized_size); // We can encode the "empty" message and get the same output bytes. size_t reserialized_size; char* reserialized; upb_EncodeStatus encode_status = upb_Encode( msg, mini_table, 0, arena.ptr(), &reserialized, &reserialized_size); EXPECT_EQ(encode_status, kUpb_EncodeStatus_Ok); EXPECT_EQ(reserialized_size, serialized_size); EXPECT_EQ(0, memcmp(reserialized, serialized, serialized_size)); // Int32 field is present, as normal. int32_t val = upb_Message_GetInt32( msg, upb_MiniTable_FindFieldByNumber(mini_table, 4), 0); EXPECT_EQ(val, 11); // Unlinked sub-message is present, but getting the value returns NULL. const upb_MiniTableField* submsg_field = upb_MiniTable_FindFieldByNumber(mini_table, 5); ASSERT_TRUE(submsg_field != nullptr); EXPECT_TRUE(upb_Message_HasField(msg, submsg_field)); upb_TaggedMessagePtr tagged = upb_Message_GetTaggedMessagePtr(msg, submsg_field, nullptr); EXPECT_TRUE(upb_TaggedMessagePtr_IsEmpty(tagged)); // Update mini table and promote unknown to a message. EXPECT_TRUE( upb_MiniTable_SetSubMessage(mini_table, (upb_MiniTableField*)submsg_field, &upb_0test__ModelWithExtensions_msg_init)); const int decode_options = upb_DecodeOptions_MaxDepth(0); // UPB_DECODE_ALIAS disabled. upb_test_ModelWithExtensions* promoted; upb_DecodeStatus promote_result = upb_Message_PromoteMessage(msg, mini_table, submsg_field, decode_options, arena.ptr(), (upb_Message**)&promoted); EXPECT_EQ(promote_result, kUpb_DecodeStatus_Ok); EXPECT_NE(nullptr, promoted); EXPECT_EQ(promoted, upb_Message_GetMessage(msg, submsg_field, nullptr)); EXPECT_EQ(upb_test_ModelWithExtensions_random_int32(promoted), 12); } // Tests a second parse that reuses an empty/unlinked message while the message // is still unlinked. TEST(GeneratedCode, ReparseUnlinked) { upb::Arena arena; upb_test_ModelWithSubMessages* input_msg = upb_test_ModelWithSubMessages_new(arena.ptr()); upb_test_ModelWithExtensions* sub_message = upb_test_ModelWithExtensions_new(arena.ptr()); upb_test_ModelWithSubMessages_set_id(input_msg, 11); upb_test_ModelWithExtensions_add_repeated_int32(sub_message, 12, arena.ptr()); upb_test_ModelWithSubMessages_set_optional_child(input_msg, sub_message); size_t serialized_size; char* serialized = upb_test_ModelWithSubMessages_serialize( input_msg, arena.ptr(), &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTables(arena.ptr()); // Parse twice without linking the MiniTable. upb_Message* msg = _upb_Message_New(mini_table, arena.ptr()); upb_DecodeStatus decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, kUpb_DecodeOption_ExperimentalAllowUnlinked, arena.ptr()); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, kUpb_DecodeOption_ExperimentalAllowUnlinked, arena.ptr()); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); // Update mini table and promote unknown to a message. const upb_MiniTableField* submsg_field = upb_MiniTable_FindFieldByNumber(mini_table, 5); EXPECT_TRUE( upb_MiniTable_SetSubMessage(mini_table, (upb_MiniTableField*)submsg_field, &upb_0test__ModelWithExtensions_msg_init)); const int decode_options = upb_DecodeOptions_MaxDepth(0); // UPB_DECODE_ALIAS disabled. upb_test_ModelWithExtensions* promoted; upb_DecodeStatus promote_result = upb_Message_PromoteMessage(msg, mini_table, submsg_field, decode_options, arena.ptr(), (upb_Message**)&promoted); EXPECT_EQ(promote_result, kUpb_DecodeStatus_Ok); EXPECT_NE(nullptr, promoted); EXPECT_EQ(promoted, upb_Message_GetMessage(msg, submsg_field, nullptr)); // The repeated field should have two entries for the two parses. size_t repeated_size; const int32_t* entries = upb_test_ModelWithExtensions_repeated_int32(promoted, &repeated_size); EXPECT_EQ(repeated_size, 2); EXPECT_EQ(entries[0], 12); EXPECT_EQ(entries[1], 12); } // Tests a second parse that promotes a message within the parser because we are // merging into an empty/unlinked message after the message has been linked. TEST(GeneratedCode, PromoteInParser) { upb::Arena arena; upb_test_ModelWithSubMessages* input_msg = upb_test_ModelWithSubMessages_new(arena.ptr()); upb_test_ModelWithExtensions* sub_message = upb_test_ModelWithExtensions_new(arena.ptr()); upb_test_ModelWithSubMessages_set_id(input_msg, 11); upb_test_ModelWithExtensions_add_repeated_int32(sub_message, 12, arena.ptr()); upb_test_ModelWithSubMessages_set_optional_child(input_msg, sub_message); size_t serialized_size; char* serialized = upb_test_ModelWithSubMessages_serialize( input_msg, arena.ptr(), &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTables(arena.ptr()); // Parse once without linking the MiniTable. upb_Message* msg = _upb_Message_New(mini_table, arena.ptr()); upb_DecodeStatus decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, kUpb_DecodeOption_ExperimentalAllowUnlinked, arena.ptr()); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); // Link the MiniTable. const upb_MiniTableField* submsg_field = upb_MiniTable_FindFieldByNumber(mini_table, 5); EXPECT_TRUE( upb_MiniTable_SetSubMessage(mini_table, (upb_MiniTableField*)submsg_field, &upb_0test__ModelWithExtensions_msg_init)); // Parse again. This will promote the message. An explicit promote will not // be required. decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, kUpb_DecodeOption_ExperimentalAllowUnlinked, arena.ptr()); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); upb_test_ModelWithExtensions* promoted = (upb_test_ModelWithExtensions*)upb_Message_GetMessage(msg, submsg_field, nullptr); EXPECT_NE(nullptr, promoted); EXPECT_EQ(promoted, upb_Message_GetMessage(msg, submsg_field, nullptr)); // The repeated field should have two entries for the two parses. size_t repeated_size; const int32_t* entries = upb_test_ModelWithExtensions_repeated_int32(promoted, &repeated_size); EXPECT_EQ(repeated_size, 2); EXPECT_EQ(entries[0], 12); EXPECT_EQ(entries[1], 12); } TEST(GeneratedCode, PromoteUnknownRepeatedMessage) { upb::Arena arena; upb_test_ModelWithSubMessages* input_msg = upb_test_ModelWithSubMessages_new(arena.ptr()); upb_test_ModelWithSubMessages_set_id(input_msg, 123); // Add 2 repeated messages to input_msg. upb_test_ModelWithExtensions* item = upb_test_ModelWithSubMessages_add_items(input_msg, arena.ptr()); upb_test_ModelWithExtensions_set_random_int32(item, 5); item = upb_test_ModelWithSubMessages_add_items(input_msg, arena.ptr()); upb_test_ModelWithExtensions_set_random_int32(item, 6); size_t serialized_size; char* serialized = upb_test_ModelWithSubMessages_serialize( input_msg, arena.ptr(), &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTables(arena.ptr()); upb_DecodeStatus decode_status; // If we parse without allowing unlinked objects, the parse will fail. // TODO: re-enable this test once the old method of tree shaking is // removed // upb_Message* fail_msg = _upb_Message_New(mini_table, arena.ptr()); // decode_status = // upb_Decode(serialized, serialized_size, fail_msg, mini_table, nullptr, // 0, // arena.ptr()); // EXPECT_EQ(decode_status, kUpb_DecodeStatus_UnlinkedSubMessage); // if we parse while allowing unlinked objects, the parse will succeed. upb_Message* msg = _upb_Message_New(mini_table, arena.ptr()); decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, kUpb_DecodeOption_ExperimentalAllowUnlinked, arena.ptr()); CheckReserialize(msg, mini_table, arena.ptr(), serialized, serialized_size); // Int32 field is present, as normal. EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); int32_t val = upb_Message_GetInt32( msg, upb_MiniTable_FindFieldByNumber(mini_table, 4), 0); EXPECT_EQ(val, 123); const upb_MiniTableField* repeated_field = upb_MiniTable_FindFieldByNumber(mini_table, 6); upb_Array* array = upb_Message_GetMutableArray(msg, repeated_field); // Array length is 2 even though the messages are empty. EXPECT_EQ(2, upb_Array_Size(array)); // Update mini table and promote unknown to a message. EXPECT_TRUE(upb_MiniTable_SetSubMessage( mini_table, (upb_MiniTableField*)repeated_field, &upb_0test__ModelWithExtensions_msg_init)); const int decode_options = upb_DecodeOptions_MaxDepth(0); // UPB_DECODE_ALIAS disabled. upb_DecodeStatus promote_result = upb_Array_PromoteMessages(array, &upb_0test__ModelWithExtensions_msg_init, decode_options, arena.ptr()); EXPECT_EQ(promote_result, kUpb_DecodeStatus_Ok); const upb_Message* promoted_message = upb_Array_Get(array, 0).msg_val; EXPECT_EQ(upb_test_ModelWithExtensions_random_int32( (upb_test_ModelWithExtensions*)promoted_message), 5); promoted_message = upb_Array_Get(array, 1).msg_val; EXPECT_EQ(upb_test_ModelWithExtensions_random_int32( (upb_test_ModelWithExtensions*)promoted_message), 6); } TEST(GeneratedCode, PromoteUnknownToMap) { upb::Arena arena; upb_test_ModelWithMaps* input_msg = upb_test_ModelWithMaps_new(arena.ptr()); upb_test_ModelWithMaps_set_id(input_msg, 123); upb_test_ModelWithExtensions* submsg1 = upb_test_ModelWithExtensions_new(arena.ptr()); upb_test_ModelWithExtensions_set_random_int32(submsg1, 123); upb_test_ModelWithExtensions* submsg2 = upb_test_ModelWithExtensions_new(arena.ptr()); upb_test_ModelWithExtensions_set_random_int32(submsg2, 456); // Add 2 map entries. upb_test_ModelWithMaps_map_im_set(input_msg, 111, submsg1, arena.ptr()); upb_test_ModelWithMaps_map_im_set(input_msg, 222, submsg2, arena.ptr()); size_t serialized_size; char* serialized = upb_test_ModelWithMaps_serialize_ex( input_msg, kUpb_EncodeOption_Deterministic, arena.ptr(), &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTablesForMaps(arena.ptr()); // If we parse without allowing unlinked objects, the parse will fail. upb_Message* fail_msg1 = _upb_Message_New(mini_table, arena.ptr()); upb_DecodeStatus decode_status = upb_Decode(serialized, serialized_size, fail_msg1, mini_table, nullptr, 0, arena.ptr()); EXPECT_EQ(decode_status, kUpb_DecodeStatus_UnlinkedSubMessage); // if we parse while allowing unlinked objects, the parse will succeed. upb_Message* msg = _upb_Message_New(mini_table, arena.ptr()); decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, kUpb_DecodeOption_ExperimentalAllowUnlinked, arena.ptr()); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); CheckReserialize(msg, mini_table, arena.ptr(), serialized, serialized_size); upb_MiniTableField* map_field = const_cast( upb_MiniTable_FindFieldByNumber(mini_table, 5)); upb_Map* map = upb_Message_GetMutableMap(msg, map_field); // Map size is 2 even though messages are unlinked. EXPECT_EQ(2, upb_Map_Size(map)); // Update mini table and promote unknown to a message. upb_MiniTable* entry = const_cast( upb_MiniTable_GetSubMessageTable(mini_table, map_field)); upb_MiniTableField* entry_value = const_cast( upb_MiniTable_FindFieldByNumber(entry, 2)); upb_MiniTable_SetSubMessage(entry, entry_value, &upb_0test__ModelWithExtensions_msg_init); upb_DecodeStatus promote_result = upb_Map_PromoteMessages( map, &upb_0test__ModelWithExtensions_msg_init, 0, arena.ptr()); EXPECT_EQ(promote_result, kUpb_DecodeStatus_Ok); upb_MessageValue key; upb_MessageValue val; key.int32_val = 111; EXPECT_TRUE(upb_Map_Get(map, key, &val)); EXPECT_EQ(123, upb_test_ModelWithExtensions_random_int32( static_cast(val.msg_val))); key.int32_val = 222; EXPECT_TRUE(upb_Map_Get(map, key, &val)); EXPECT_EQ(456, upb_test_ModelWithExtensions_random_int32( static_cast(val.msg_val))); } } // namespace // OLD tests, to be removed! namespace { // Create a minitable to mimic ModelWithSubMessages with unlinked subs // to lazily promote unknowns after parsing. upb_MiniTable* CreateMiniTableWithEmptySubTablesOld(upb_Arena* arena) { upb::MtDataEncoder e; e.StartMessage(0); e.PutField(kUpb_FieldType_Int32, 4, 0); e.PutField(kUpb_FieldType_Message, 5, 0); e.PutField(kUpb_FieldType_Message, 6, kUpb_FieldModifier_IsRepeated); upb_Status status; upb_Status_Clear(&status); upb_MiniTable* table = upb_MiniTable_Build(e.data().data(), e.data().size(), arena, &status); EXPECT_EQ(status.ok, true); return table; } // Create a minitable to mimic ModelWithMaps with unlinked subs // to lazily promote unknowns after parsing. upb_MiniTable* CreateMiniTableWithEmptySubTablesForMapsOld(upb_Arena* arena) { upb::MtDataEncoder e; e.StartMessage(0); e.PutField(kUpb_FieldType_Int32, 1, 0); e.PutField(kUpb_FieldType_Message, 3, kUpb_FieldModifier_IsRepeated); e.PutField(kUpb_FieldType_Message, 4, kUpb_FieldModifier_IsRepeated); upb_Status status; upb_Status_Clear(&status); upb_MiniTable* table = upb_MiniTable_Build(e.data().data(), e.data().size(), arena, &status); EXPECT_EQ(status.ok, true); return table; } upb_MiniTable* CreateMapEntryMiniTableOld(upb_Arena* arena) { upb::MtDataEncoder e; e.EncodeMap(kUpb_FieldType_String, kUpb_FieldType_String, 0, 0); upb_Status status; upb_Status_Clear(&status); upb_MiniTable* table = upb_MiniTable_Build(e.data().data(), e.data().size(), arena, &status); EXPECT_EQ(status.ok, true); return table; } TEST(GeneratedCode, PromoteUnknownMessageOld) { upb_Arena* arena = upb_Arena_New(); upb_test_ModelWithSubMessages* input_msg = upb_test_ModelWithSubMessages_new(arena); upb_test_ModelWithExtensions* sub_message = upb_test_ModelWithExtensions_new(arena); upb_test_ModelWithSubMessages_set_id(input_msg, 11); upb_test_ModelWithExtensions_set_random_int32(sub_message, 12); upb_test_ModelWithSubMessages_set_optional_child(input_msg, sub_message); size_t serialized_size; char* serialized = upb_test_ModelWithSubMessages_serialize(input_msg, arena, &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTablesOld(arena); upb_Message* msg = _upb_Message_New(mini_table, arena); upb_DecodeStatus decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, 0, arena); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); int32_t val = upb_Message_GetInt32( msg, upb_MiniTable_FindFieldByNumber(mini_table, 4), 0); EXPECT_EQ(val, 11); upb_FindUnknownRet unknown = upb_MiniTable_FindUnknown(msg, 5, 0); EXPECT_EQ(unknown.status, kUpb_FindUnknown_Ok); // Update mini table and promote unknown to a message. EXPECT_TRUE(upb_MiniTable_SetSubMessage( mini_table, (upb_MiniTableField*)&mini_table->fields[1], &upb_0test__ModelWithExtensions_msg_init)); const int decode_options = upb_DecodeOptions_MaxDepth(0); // UPB_DECODE_ALIAS disabled. upb_UnknownToMessageRet promote_result = upb_MiniTable_PromoteUnknownToMessage( msg, mini_table, &mini_table->fields[1], &upb_0test__ModelWithExtensions_msg_init, decode_options, arena); EXPECT_EQ(promote_result.status, kUpb_UnknownToMessage_Ok); const upb_Message* promoted_message = upb_Message_GetMessage(msg, &mini_table->fields[1], nullptr); EXPECT_EQ(upb_test_ModelWithExtensions_random_int32( (upb_test_ModelWithExtensions*)promoted_message), 12); upb_Arena_Free(arena); } TEST(GeneratedCode, PromoteUnknownRepeatedMessageOld) { upb_Arena* arena = upb_Arena_New(); upb_test_ModelWithSubMessages* input_msg = upb_test_ModelWithSubMessages_new(arena); upb_test_ModelWithSubMessages_set_id(input_msg, 123); // Add 2 repeated messages to input_msg. upb_test_ModelWithExtensions* item = upb_test_ModelWithSubMessages_add_items(input_msg, arena); upb_test_ModelWithExtensions_set_random_int32(item, 5); item = upb_test_ModelWithSubMessages_add_items(input_msg, arena); upb_test_ModelWithExtensions_set_random_int32(item, 6); size_t serialized_size; char* serialized = upb_test_ModelWithSubMessages_serialize(input_msg, arena, &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTablesOld(arena); upb_Message* msg = _upb_Message_New(mini_table, arena); upb_DecodeStatus decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, 0, arena); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); int32_t val = upb_Message_GetInt32( msg, upb_MiniTable_FindFieldByNumber(mini_table, 4), 0); EXPECT_EQ(val, 123); // Check that we have repeated field data in an unknown. upb_FindUnknownRet unknown = upb_MiniTable_FindUnknown(msg, 6, 0); EXPECT_EQ(unknown.status, kUpb_FindUnknown_Ok); // Update mini table and promote unknown to a message. EXPECT_TRUE(upb_MiniTable_SetSubMessage( mini_table, (upb_MiniTableField*)&mini_table->fields[2], &upb_0test__ModelWithExtensions_msg_init)); const int decode_options = upb_DecodeOptions_MaxDepth(0); // UPB_DECODE_ALIAS disabled. upb_UnknownToMessage_Status promote_result = upb_MiniTable_PromoteUnknownToMessageArray( msg, &mini_table->fields[2], &upb_0test__ModelWithExtensions_msg_init, decode_options, arena); EXPECT_EQ(promote_result, kUpb_UnknownToMessage_Ok); upb_Array* array = upb_Message_GetMutableArray(msg, &mini_table->fields[2]); const upb_Message* promoted_message = upb_Array_Get(array, 0).msg_val; EXPECT_EQ(upb_test_ModelWithExtensions_random_int32( (upb_test_ModelWithExtensions*)promoted_message), 5); promoted_message = upb_Array_Get(array, 1).msg_val; EXPECT_EQ(upb_test_ModelWithExtensions_random_int32( (upb_test_ModelWithExtensions*)promoted_message), 6); upb_Arena_Free(arena); } TEST(GeneratedCode, PromoteUnknownToMapOld) { upb_Arena* arena = upb_Arena_New(); upb_test_ModelWithMaps* input_msg = upb_test_ModelWithMaps_new(arena); upb_test_ModelWithMaps_set_id(input_msg, 123); // Add 2 map entries. upb_test_ModelWithMaps_map_ss_set(input_msg, upb_StringView_FromString("key1"), upb_StringView_FromString("value1"), arena); upb_test_ModelWithMaps_map_ss_set(input_msg, upb_StringView_FromString("key2"), upb_StringView_FromString("value2"), arena); size_t serialized_size; char* serialized = upb_test_ModelWithMaps_serialize(input_msg, arena, &serialized_size); upb_MiniTable* mini_table = CreateMiniTableWithEmptySubTablesForMapsOld(arena); upb_MiniTable* map_entry_mini_table = CreateMapEntryMiniTableOld(arena); upb_Message* msg = _upb_Message_New(mini_table, arena); const int decode_options = upb_DecodeOptions_MaxDepth(0); upb_DecodeStatus decode_status = upb_Decode(serialized, serialized_size, msg, mini_table, nullptr, decode_options, arena); EXPECT_EQ(decode_status, kUpb_DecodeStatus_Ok); int32_t val = upb_Message_GetInt32( msg, upb_MiniTable_FindFieldByNumber(mini_table, 1), 0); EXPECT_EQ(val, 123); // Check that we have map data in an unknown. upb_FindUnknownRet unknown = upb_MiniTable_FindUnknown(msg, 3, 0); EXPECT_EQ(unknown.status, kUpb_FindUnknown_Ok); // Update mini table and promote unknown to a message. EXPECT_TRUE(upb_MiniTable_SetSubMessage( mini_table, (upb_MiniTableField*)&mini_table->fields[1], map_entry_mini_table)); upb_UnknownToMessage_Status promote_result = upb_MiniTable_PromoteUnknownToMap(msg, mini_table, &mini_table->fields[1], decode_options, arena); EXPECT_EQ(promote_result, kUpb_UnknownToMessage_Ok); upb_Map* map = upb_Message_GetOrCreateMutableMap( msg, map_entry_mini_table, &mini_table->fields[1], arena); EXPECT_NE(map, nullptr); // Lookup in map. upb_MessageValue key; key.str_val = upb_StringView_FromString("key2"); upb_MessageValue value; EXPECT_TRUE(upb_Map_Get(map, key, &value)); EXPECT_EQ(0, strncmp(value.str_val.data, "value2", 5)); upb_Arena_Free(arena); } } // namespace