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/*
* Copyright (c) 2009-2021, Google LLC
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Google LLC nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL Google LLC BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <string>
#include <string_view>
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "google/protobuf/test_messages_proto3.upb.h"
#include "upb/json/decode.h"
#include "upb/json/encode.h"
#include "upb/message/test.upb.h"
#include "upb/message/test.upbdefs.h"
#include "upb/reflection/def.hpp"
#include "upb/test/fuzz_util.h"
#include "upb/upb.hpp"
// begin:google_only
// #include "testing/fuzzing/fuzztest.h"
// end:google_only
void VerifyMessage(const upb_test_TestExtensions* ext_msg) {
EXPECT_TRUE(upb_test_TestExtensions_has_optional_int32_ext(ext_msg));
// EXPECT_FALSE(upb_test_TestExtensions_Nested_has_optional_int32_ext(ext_msg));
EXPECT_TRUE(upb_test_has_optional_msg_ext(ext_msg));
EXPECT_EQ(123, upb_test_TestExtensions_optional_int32_ext(ext_msg));
const protobuf_test_messages_proto3_TestAllTypesProto3* ext_submsg =
upb_test_optional_msg_ext(ext_msg);
EXPECT_TRUE(ext_submsg != nullptr);
EXPECT_EQ(456,
protobuf_test_messages_proto3_TestAllTypesProto3_optional_int32(
ext_submsg));
}
TEST(MessageTest, Extensions) {
upb::Arena arena;
upb_test_TestExtensions* ext_msg = upb_test_TestExtensions_new(arena.ptr());
EXPECT_FALSE(upb_test_TestExtensions_has_optional_int32_ext(ext_msg));
// EXPECT_FALSE(upb_test_TestExtensions_Nested_has_optional_int32_ext(ext_msg));
EXPECT_FALSE(upb_test_has_optional_msg_ext(ext_msg));
upb::DefPool defpool;
upb::MessageDefPtr m(upb_test_TestExtensions_getmsgdef(defpool.ptr()));
EXPECT_TRUE(m.ptr() != nullptr);
std::string json = R"json(
{
"[upb_test.TestExtensions.optional_int32_ext]": 123,
"[upb_test.TestExtensions.Nested.repeated_int32_ext]": [2, 4, 6],
"[upb_test.optional_msg_ext]": {"optional_int32": 456}
}
)json";
upb::Status status;
EXPECT_TRUE(upb_JsonDecode(json.data(), json.size(), ext_msg, m.ptr(),
defpool.ptr(), 0, arena.ptr(), status.ptr()))
<< status.error_message();
VerifyMessage(ext_msg);
// Test round-trip through binary format.
size_t size;
char* serialized =
upb_test_TestExtensions_serialize(ext_msg, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
ASSERT_GE(size, 0);
upb_test_TestExtensions* ext_msg2 = upb_test_TestExtensions_parse_ex(
serialized, size, upb_DefPool_ExtensionRegistry(defpool.ptr()), 0,
arena.ptr());
VerifyMessage(ext_msg2);
// Test round-trip through JSON format.
size_t json_size = upb_JsonEncode(ext_msg, m.ptr(), defpool.ptr(), 0, nullptr,
0, status.ptr());
char* json_buf =
static_cast<char*>(upb_Arena_Malloc(arena.ptr(), json_size + 1));
upb_JsonEncode(ext_msg, m.ptr(), defpool.ptr(), 0, json_buf, json_size + 1,
status.ptr());
upb_test_TestExtensions* ext_msg3 = upb_test_TestExtensions_new(arena.ptr());
EXPECT_TRUE(upb_JsonDecode(json_buf, json_size, ext_msg3, m.ptr(),
defpool.ptr(), 0, arena.ptr(), status.ptr()))
<< status.error_message();
VerifyMessage(ext_msg3);
}
void VerifyMessageSet(const upb_test_TestMessageSet* mset_msg) {
ASSERT_TRUE(mset_msg != nullptr);
bool has = upb_test_MessageSetMember_has_message_set_extension(mset_msg);
EXPECT_TRUE(has);
if (!has) return;
const upb_test_MessageSetMember* member =
upb_test_MessageSetMember_message_set_extension(mset_msg);
EXPECT_TRUE(member != nullptr);
EXPECT_TRUE(upb_test_MessageSetMember_has_optional_int32(member));
EXPECT_EQ(234, upb_test_MessageSetMember_optional_int32(member));
}
TEST(MessageTest, MessageSet) {
upb::Arena arena;
upb_test_TestMessageSet* ext_msg = upb_test_TestMessageSet_new(arena.ptr());
EXPECT_FALSE(upb_test_MessageSetMember_has_message_set_extension(ext_msg));
upb::DefPool defpool;
upb::MessageDefPtr m(upb_test_TestMessageSet_getmsgdef(defpool.ptr()));
EXPECT_TRUE(m.ptr() != nullptr);
std::string json = R"json(
{
"[upb_test.MessageSetMember]": {"optional_int32": 234}
}
)json";
upb::Status status;
EXPECT_TRUE(upb_JsonDecode(json.data(), json.size(), ext_msg, m.ptr(),
defpool.ptr(), 0, arena.ptr(), status.ptr()))
<< status.error_message();
VerifyMessageSet(ext_msg);
// Test round-trip through binary format.
size_t size;
char* serialized =
upb_test_TestMessageSet_serialize(ext_msg, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
ASSERT_GE(size, 0);
upb_test_TestMessageSet* ext_msg2 = upb_test_TestMessageSet_parse_ex(
serialized, size, upb_DefPool_ExtensionRegistry(defpool.ptr()), 0,
arena.ptr());
VerifyMessageSet(ext_msg2);
// Test round-trip through JSON format.
size_t json_size = upb_JsonEncode(ext_msg, m.ptr(), defpool.ptr(), 0, nullptr,
0, status.ptr());
char* json_buf =
static_cast<char*>(upb_Arena_Malloc(arena.ptr(), json_size + 1));
upb_JsonEncode(ext_msg, m.ptr(), defpool.ptr(), 0, json_buf, json_size + 1,
status.ptr());
upb_test_TestMessageSet* ext_msg3 = upb_test_TestMessageSet_new(arena.ptr());
EXPECT_TRUE(upb_JsonDecode(json_buf, json_size, ext_msg3, m.ptr(),
defpool.ptr(), 0, arena.ptr(), status.ptr()))
<< status.error_message();
VerifyMessageSet(ext_msg3);
}
TEST(MessageTest, UnknownMessageSet) {
static const char data[] = "ABCDE";
upb_StringView data_view = upb_StringView_FromString(data);
upb::Arena arena;
upb_test_FakeMessageSet* fake = upb_test_FakeMessageSet_new(arena.ptr());
// Add a MessageSet item that is unknown (there is no matching extension in
// the .proto file)
upb_test_FakeMessageSet_Item* item =
upb_test_FakeMessageSet_add_item(fake, arena.ptr());
upb_test_FakeMessageSet_Item_set_type_id(item, 12345);
upb_test_FakeMessageSet_Item_set_message(item, data_view);
// Set unknown fields inside the message set to test that we can skip them.
upb_test_FakeMessageSet_Item_set_unknown_varint(item, 12345678);
upb_test_FakeMessageSet_Item_set_unknown_fixed32(item, 12345678);
upb_test_FakeMessageSet_Item_set_unknown_fixed64(item, 12345678);
upb_test_FakeMessageSet_Item_set_unknown_bytes(item, data_view);
upb_test_FakeMessageSet_Item_mutable_unknowngroup(item, arena.ptr());
// Round trip through a true MessageSet where this item_id is unknown.
size_t size;
char* serialized =
upb_test_FakeMessageSet_serialize(fake, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
ASSERT_GE(size, 0);
upb::DefPool defpool;
upb::MessageDefPtr m(upb_test_TestMessageSet_getmsgdef(defpool.ptr()));
EXPECT_TRUE(m.ptr() != nullptr);
upb_test_TestMessageSet* message_set = upb_test_TestMessageSet_parse_ex(
serialized, size, upb_DefPool_ExtensionRegistry(defpool.ptr()), 0,
arena.ptr());
ASSERT_TRUE(message_set != nullptr);
char* serialized2 =
upb_test_TestMessageSet_serialize(message_set, arena.ptr(), &size);
ASSERT_TRUE(serialized2 != nullptr);
ASSERT_GE(size, 0);
// Parse back into a fake MessageSet and verify that the unknown MessageSet
// item was preserved in full (both type_id and message).
upb_test_FakeMessageSet* fake2 =
upb_test_FakeMessageSet_parse(serialized2, size, arena.ptr());
ASSERT_TRUE(fake2 != nullptr);
const upb_test_FakeMessageSet_Item* const* items =
upb_test_FakeMessageSet_item(fake2, &size);
ASSERT_EQ(1, size);
EXPECT_EQ(12345, upb_test_FakeMessageSet_Item_type_id(items[0]));
EXPECT_TRUE(upb_StringView_IsEqual(
data_view, upb_test_FakeMessageSet_Item_message(items[0])));
// The non-MessageSet unknown fields should have been discarded.
EXPECT_FALSE(upb_test_FakeMessageSet_Item_has_unknown_varint(items[0]));
EXPECT_FALSE(upb_test_FakeMessageSet_Item_has_unknown_fixed32(items[0]));
EXPECT_FALSE(upb_test_FakeMessageSet_Item_has_unknown_fixed64(items[0]));
EXPECT_FALSE(upb_test_FakeMessageSet_Item_has_unknown_bytes(items[0]));
EXPECT_FALSE(upb_test_FakeMessageSet_Item_has_unknowngroup(items[0]));
}
TEST(MessageTest, Proto2Enum) {
upb::Arena arena;
upb_test_Proto2FakeEnumMessage* fake_msg =
upb_test_Proto2FakeEnumMessage_new(arena.ptr());
upb_test_Proto2FakeEnumMessage_set_optional_enum(fake_msg, 999);
int32_t* vals = upb_test_Proto2FakeEnumMessage_resize_repeated_enum(
fake_msg, 6, arena.ptr());
vals[0] = upb_test_Proto2EnumMessage_ZERO;
vals[1] = 7; // Unknown small.
vals[2] = upb_test_Proto2EnumMessage_SMALL;
vals[3] = 888; // Unknown large.
vals[4] = upb_test_Proto2EnumMessage_LARGE;
vals[5] = upb_test_Proto2EnumMessage_NEGATIVE;
vals = upb_test_Proto2FakeEnumMessage_resize_packed_enum(fake_msg, 6,
arena.ptr());
vals[0] = upb_test_Proto2EnumMessage_ZERO;
vals[1] = 7; // Unknown small.
vals[2] = upb_test_Proto2EnumMessage_SMALL;
vals[3] = 888; // Unknown large.
vals[4] = upb_test_Proto2EnumMessage_LARGE;
vals[5] = upb_test_Proto2EnumMessage_NEGATIVE;
size_t size;
char* pb =
upb_test_Proto2FakeEnumMessage_serialize(fake_msg, arena.ptr(), &size);
// Parsing as enums puts unknown values into unknown fields.
upb_test_Proto2EnumMessage* enum_msg =
upb_test_Proto2EnumMessage_parse(pb, size, arena.ptr());
ASSERT_TRUE(enum_msg != nullptr);
EXPECT_EQ(false, upb_test_Proto2EnumMessage_has_optional_enum(enum_msg));
const int32_t* vals_const =
upb_test_Proto2EnumMessage_repeated_enum(enum_msg, &size);
EXPECT_EQ(4, size); // Two unknown values moved to the unknown field set.
// Parsing back into the fake message shows the original data, except the
// repeated enum is rearranged.
pb = upb_test_Proto2EnumMessage_serialize(enum_msg, arena.ptr(), &size);
upb_test_Proto2FakeEnumMessage* fake_msg2 =
upb_test_Proto2FakeEnumMessage_parse(pb, size, arena.ptr());
ASSERT_TRUE(fake_msg2 != nullptr);
EXPECT_EQ(true, upb_test_Proto2FakeEnumMessage_has_optional_enum(fake_msg2));
EXPECT_EQ(999, upb_test_Proto2FakeEnumMessage_optional_enum(fake_msg2));
int32_t expected[] = {
upb_test_Proto2EnumMessage_ZERO,
upb_test_Proto2EnumMessage_SMALL,
upb_test_Proto2EnumMessage_LARGE,
upb_test_Proto2EnumMessage_NEGATIVE,
7,
888,
};
vals_const = upb_test_Proto2FakeEnumMessage_repeated_enum(fake_msg2, &size);
EXPECT_EQ(6, size);
EXPECT_THAT(std::vector<int32_t>(vals_const, vals_const + size),
::testing::ElementsAreArray(expected));
vals_const = upb_test_Proto2FakeEnumMessage_packed_enum(fake_msg2, &size);
EXPECT_EQ(6, size);
EXPECT_THAT(std::vector<int32_t>(vals_const, vals_const + size),
::testing::ElementsAreArray(expected));
}
TEST(MessageTest, TestBadUTF8) {
upb::Arena arena;
std::string serialized("r\x03\xed\xa0\x81");
EXPECT_EQ(nullptr, protobuf_test_messages_proto3_TestAllTypesProto3_parse(
serialized.data(), serialized.size(), arena.ptr()));
}
TEST(MessageTest, DecodeRequiredFieldsTopLevelMessage) {
upb::Arena arena;
upb_test_TestRequiredFields* test_msg;
upb_test_EmptyMessage* empty_msg;
// Succeeds, because we did not request required field checks.
test_msg = upb_test_TestRequiredFields_parse(nullptr, 0, arena.ptr());
EXPECT_NE(nullptr, test_msg);
// Fails, because required fields are missing.
EXPECT_EQ(
kUpb_DecodeStatus_MissingRequired,
upb_Decode(nullptr, 0, test_msg, &upb_test_TestRequiredFields_msg_init,
nullptr, kUpb_DecodeOption_CheckRequired, arena.ptr()));
upb_test_TestRequiredFields_set_required_int32(test_msg, 1);
size_t size;
char* serialized =
upb_test_TestRequiredFields_serialize(test_msg, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
EXPECT_NE(0, size);
// Fails, but the code path is slightly different because the serialized
// payload is not empty.
EXPECT_EQ(kUpb_DecodeStatus_MissingRequired,
upb_Decode(serialized, size, test_msg,
&upb_test_TestRequiredFields_msg_init, nullptr,
kUpb_DecodeOption_CheckRequired, arena.ptr()));
empty_msg = upb_test_EmptyMessage_new(arena.ptr());
upb_test_TestRequiredFields_set_required_int32(test_msg, 1);
upb_test_TestRequiredFields_set_required_int64(test_msg, 2);
upb_test_TestRequiredFields_set_required_message(test_msg, empty_msg);
// Succeeds, because required fields are present (though not in the input).
EXPECT_EQ(
kUpb_DecodeStatus_Ok,
upb_Decode(nullptr, 0, test_msg, &upb_test_TestRequiredFields_msg_init,
nullptr, kUpb_DecodeOption_CheckRequired, arena.ptr()));
// Serialize a complete payload.
serialized =
upb_test_TestRequiredFields_serialize(test_msg, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
EXPECT_NE(0, size);
upb_test_TestRequiredFields* test_msg2 = upb_test_TestRequiredFields_parse_ex(
serialized, size, nullptr, kUpb_DecodeOption_CheckRequired, arena.ptr());
EXPECT_NE(nullptr, test_msg2);
// When we add an incomplete sub-message, this is not flagged by the parser.
// This makes parser checking unsuitable for MergeFrom().
upb_test_TestRequiredFields_set_optional_message(
test_msg2, upb_test_TestRequiredFields_new(arena.ptr()));
EXPECT_EQ(kUpb_DecodeStatus_Ok,
upb_Decode(serialized, size, test_msg2,
&upb_test_TestRequiredFields_msg_init, nullptr,
kUpb_DecodeOption_CheckRequired, arena.ptr()));
}
TEST(MessageTest, DecodeRequiredFieldsSubMessage) {
upb::Arena arena;
upb_test_TestRequiredFields* test_msg =
upb_test_TestRequiredFields_new(arena.ptr());
upb_test_SubMessageHasRequired* sub_msg =
upb_test_SubMessageHasRequired_new(arena.ptr());
upb_test_EmptyMessage* empty_msg = upb_test_EmptyMessage_new(arena.ptr());
upb_test_SubMessageHasRequired_set_optional_message(sub_msg, test_msg);
size_t size;
char* serialized =
upb_test_SubMessageHasRequired_serialize(sub_msg, arena.ptr(), &size);
EXPECT_NE(0, size);
// No parse error when parsing normally.
EXPECT_NE(nullptr, upb_test_SubMessageHasRequired_parse(serialized, size,
arena.ptr()));
// Parse error when verifying required fields, due to incomplete sub-message.
EXPECT_EQ(nullptr, upb_test_SubMessageHasRequired_parse_ex(
serialized, size, nullptr,
kUpb_DecodeOption_CheckRequired, arena.ptr()));
upb_test_TestRequiredFields_set_required_int32(test_msg, 1);
upb_test_TestRequiredFields_set_required_int64(test_msg, 2);
upb_test_TestRequiredFields_set_required_message(test_msg, empty_msg);
serialized =
upb_test_SubMessageHasRequired_serialize(sub_msg, arena.ptr(), &size);
EXPECT_NE(0, size);
// No parse error; sub-message now is complete.
EXPECT_NE(nullptr, upb_test_SubMessageHasRequired_parse_ex(
serialized, size, nullptr,
kUpb_DecodeOption_CheckRequired, arena.ptr()));
}
TEST(MessageTest, EncodeRequiredFields) {
upb::Arena arena;
upb_test_TestRequiredFields* test_msg =
upb_test_TestRequiredFields_new(arena.ptr());
// Succeeds, we didn't ask for required field checking.
size_t size;
char* serialized =
upb_test_TestRequiredFields_serialize_ex(test_msg, 0, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
EXPECT_EQ(size, 0);
// Fails, we asked for required field checking but the required field is
// missing.
serialized = upb_test_TestRequiredFields_serialize_ex(
test_msg, kUpb_EncodeOption_CheckRequired, arena.ptr(), &size);
ASSERT_TRUE(serialized == nullptr);
// Fails, some required fields are present but not others.
upb_test_TestRequiredFields_set_required_int32(test_msg, 1);
serialized = upb_test_TestRequiredFields_serialize_ex(
test_msg, kUpb_EncodeOption_CheckRequired, arena.ptr(), &size);
ASSERT_TRUE(serialized == nullptr);
// Succeeds, all required fields are set.
upb_test_EmptyMessage* empty_msg = upb_test_EmptyMessage_new(arena.ptr());
upb_test_TestRequiredFields_set_required_int64(test_msg, 2);
upb_test_TestRequiredFields_set_required_message(test_msg, empty_msg);
serialized = upb_test_TestRequiredFields_serialize_ex(
test_msg, kUpb_EncodeOption_CheckRequired, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
}
TEST(MessageTest, MaxRequiredFields) {
upb::Arena arena;
upb_test_TestMaxRequiredFields* test_msg =
upb_test_TestMaxRequiredFields_new(arena.ptr());
// Fails, we asked for required field checking but the required field is
// missing.
size_t size;
char* serialized = upb_test_TestMaxRequiredFields_serialize_ex(
test_msg, kUpb_EncodeOption_CheckRequired, arena.ptr(), &size);
ASSERT_TRUE(serialized == nullptr);
upb::DefPool defpool;
upb::MessageDefPtr m(upb_test_TestMaxRequiredFields_getmsgdef(defpool.ptr()));
upb_MessageValue val;
val.int32_val = 1;
for (int i = 1; i <= 61; i++) {
upb::FieldDefPtr f = m.FindFieldByNumber(i);
ASSERT_TRUE(f);
upb_Message_SetFieldByDef(test_msg, f.ptr(), val, arena.ptr());
}
// Fails, field 63 still isn't set.
serialized = upb_test_TestMaxRequiredFields_serialize_ex(
test_msg, kUpb_EncodeOption_CheckRequired, arena.ptr(), &size);
ASSERT_TRUE(serialized == nullptr);
// Succeeds, all required fields are set.
upb::FieldDefPtr f = m.FindFieldByNumber(62);
ASSERT_TRUE(f);
upb_Message_SetFieldByDef(test_msg, f.ptr(), val, arena.ptr());
serialized = upb_test_TestMaxRequiredFields_serialize_ex(
test_msg, kUpb_EncodeOption_CheckRequired, arena.ptr(), &size);
ASSERT_TRUE(serialized != nullptr);
}
TEST(MessageTest, MapField) {
upb::Arena arena;
upb_test_TestMapFieldExtra* test_msg_extra =
upb_test_TestMapFieldExtra_new(arena.ptr());
ASSERT_TRUE(upb_test_TestMapFieldExtra_map_field_set(
test_msg_extra, 0, upb_test_TestMapFieldExtra_THREE, arena.ptr()));
size_t size;
char* serialized = upb_test_TestMapFieldExtra_serialize_ex(
test_msg_extra, 0, arena.ptr(), &size);
ASSERT_NE(nullptr, serialized);
ASSERT_NE(0, size);
upb_test_TestMapField* test_msg =
upb_test_TestMapField_parse(serialized, size, arena.ptr());
ASSERT_NE(nullptr, test_msg);
ASSERT_FALSE(upb_test_TestMapField_map_field_get(test_msg, 0, nullptr));
serialized =
upb_test_TestMapField_serialize_ex(test_msg, 0, arena.ptr(), &size);
ASSERT_NE(0, size);
// parse into second instance
upb_test_TestMapFieldExtra* test_msg_extra2 =
upb_test_TestMapFieldExtra_parse(serialized, size, arena.ptr());
ASSERT_TRUE(
upb_test_TestMapFieldExtra_map_field_get(test_msg_extra2, 0, nullptr));
}
// begin:google_only
//
// static void DecodeEncodeArbitrarySchemaAndPayload(
// const upb::fuzz::MiniTableFuzzInput& input, std::string_view proto_payload,
// int decode_options, int encode_options) {
// upb::Arena arena;
// upb_ExtensionRegistry* exts;
// const upb_MiniTable* mini_table =
// upb::fuzz::BuildMiniTable(input, &exts, arena.ptr());
// if (!mini_table) return;
// upb::Status status;
// upb_Message* msg = upb_Message_New(mini_table, arena.ptr());
// upb_Decode(proto_payload.data(), proto_payload.size(), msg, mini_table, exts,
// decode_options, arena.ptr());
// char* ptr;
// size_t size;
// upb_Encode(msg, mini_table, encode_options, arena.ptr(), &ptr, &size);
// }
// FUZZ_TEST(FuzzTest, DecodeEncodeArbitrarySchemaAndPayload);
//
// TEST(FuzzTest, DecodeUnknownProto2EnumExtension) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"\256\354Rt\216\3271\234", "\243\243\267\207\336gV\366w"},
// {"z"},
// "}\212\304d\371\363\341\2329\325B\264\377?\215\223\201\201\226y\201%"
// "\321\363\255;",
// {}},
// "\010", -724543908, -591643538);
// }
//
// TEST(FuzzTest, DecodeExtensionEnsurePresenceInitialized) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"\031", "S", "\364", "", "", "j", "\303", "", "\224", "\277"},
// {},
// "_C-\236$*)C0C>",
// {4041515984, 2147483647, 1929379871, 0, 3715937258, 4294967295}},
// "\010\002", 342248070, -806315555);
// }
//
// TEST(FuzzTest, DecodeExtendMessageSetWithNonMessage) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"\n"}, {""}, ".\244", {}}, "\013\032\005\212a#\365\336\020\001\226",
// 14803219, 670718349);
// }
//
// TEST(FuzzTest, DecodeExtendMessageSetWithNonMessage2) {
// DecodeEncodeArbitrarySchemaAndPayload({{"\n", "G", "\n", "\274", ""},
// {"", "\030"},
// "_@",
// {4294967295, 2147483647}},
// std::string("\013\032\000\220", 4),
// 279975758, 1647495141);
// }
//
// TEST(FuzzTest, DecodeExtendMessageSetWithNonMessage3) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"\n"}, {"B", ""}, "\212:b", {11141121}},
// "\013\032\004\357;7\363\020\001\346\240\200\201\271", 399842149,
// -452966025);
// }
//
// TEST(FuzzTest, DecodeExtendMessageSetWithNonMessage4) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"\n", "3\340", "\354"}, {}, "B}G", {4294967295, 4082331310}},
// "\013\032\004\244B\331\255\020\001\220\224\243\350\t", -561523015,
// 1683327312);
// }
//
// TEST(FuzzTest, DecodeExtendMessageSetWithNonMessage5) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"\n"}, {""}, "kB", {0}},
// "x\203\251\006\013\032\002S\376\010\273\'\020\014\365\207\244\234",
// -696925610, -654590577);
// }
//
// TEST(FuzzTest, ExtendMessageSetWithEmptyExtension) {
// DecodeEncodeArbitrarySchemaAndPayload({{"\n"}, {}, "_", {}}, std::string(), 0,
// 0);
// }
//
// TEST(FuzzTest, DecodeEncodeArbitrarySchemaAndPayloadRegression) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"\320", "\320", "\320", "\320", "\320", "%2%%%%%"},
// {"", "", "", "", "", "", "", "", "", "", "", "",
// "", "", "", "", "", "", "", "", "", "", ""},
// "\226\226\226\226\226\226\350\351\350\350\350\350\350\350\350\314",
// {4026531839}},
// std::string("\n\n\n\n\272\n======@@%%%%%%%%%%%%%%%@@@(("
// "qqqqqqqq5555555555qqqqqffq((((((((((((\335@@>"
// "\ru\360ncppppxxxxxxxxx\025\025\025xxxxxppppppp<="
// "\2165\275\275\315\217\361\010\t\000\016\013in\n\n\n\256\263",
// 130),
// 901979906, 65537);
// }
//
// // This test encodes a map field with extra cruft.
// TEST(FuzzTest, DecodeEncodeArbitrarySchemaAndPayloadRegressionInvalidMap) {
// DecodeEncodeArbitrarySchemaAndPayload({{"%%%%///////"}, {}, "", {}},
// std::string("\035|", 2), 65536, 3);
// }
//
// // This test found a case where presence was unset for a mini table field.
// TEST(FuzzTest, DecodeEncodeArbitrarySchemaAndPayloadRegressionMsan) {
// DecodeEncodeArbitrarySchemaAndPayload({{"%-#^#"}, {}, "", {}}, std::string(),
// -1960166338, 16809991);
// }
//
// // This test encodes a map containing a msg wrapping another, empty msg.
// TEST(FuzzTest, DecodeEncodeArbitrarySchemaAndPayloadRegressionMapMap) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"%#G"}, {}, "", {}}, std::string("\022\002\022\000", 4), 0, 0);
// }
//
// TEST(FuzzTest, GroupMap) {
// // Groups should not be allowed as maps, but we previously failed to prevent
// // this.
// DecodeEncodeArbitrarySchemaAndPayload(
// {.mini_descriptors = {"$$FF$", "%-C"},
// .enum_mini_descriptors = {},
// .extensions = "",
// .links = {1}},
// std::string(
// "\023\020\030\233\000\204\330\372#\000`"
// "a\000\000\001\000\000\000ccccccc\030s\273sssssssss\030\030\030\030"
// "\030\030\030\030\215\215\215\215\215\215\215\215\030\030\232\253\253"
// "\232*\334\227\273\231\207\373\t\0051\305\265\335\224\226"),
// 0, 0);
// }
//
// TEST(FuzzTest, MapUnknownFieldSpanBuffers) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"$ 3", "%# "}, {}, "", {1}},
// std::string(
// "\"\002\010\000\000\000\000\000\000\000\000\000\000\000\000\000\000",
// 17),
// 0, 0);
// }
//
// // Another test for mismatched submsg types.
// TEST(FuzzTest, DecodeEncodeArbitrarySchemaAndPayloadRegression22) {
// DecodeEncodeArbitrarySchemaAndPayload(
// {{"$2222222222222222222222", "%,&"}, {}, "", {1}},
// std::string("\035\170\170\170\051\263\001\030\000\035\357\357\340\021\035"
// "\025\331\035\035\035\035\035\035\035\035",
// 25),
// 0, 0);
// }
//
// end:google_only