Protocol Buffers - Google's data interchange format (grpc依赖)
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3370 lines
137 KiB
3370 lines
137 KiB
// Protocol Buffers - Google's data interchange format |
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// Copyright 2008 Google Inc. All rights reserved. |
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// |
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// Use of this source code is governed by a BSD-style |
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// license that can be found in the LICENSE file or at |
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// https://developers.google.com/open-source/licenses/bsd |
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#include "binary_json_conformance_suite.h" |
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#include <cassert> |
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#include <cctype> |
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#include <cstddef> |
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#include <cstdint> |
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#include <cstring> |
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#include <memory> |
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#include <string> |
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#include <utility> |
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#include <vector> |
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#include "absl/log/absl_check.h" |
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#include "absl/log/absl_log.h" |
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#include "absl/log/die_if_null.h" |
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#include "absl/status/status.h" |
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#include "absl/strings/str_cat.h" |
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#include "absl/strings/string_view.h" |
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#include "absl/strings/substitute.h" |
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#include "conformance/conformance.pb.h" |
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#include "conformance_test.h" |
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#include "google/protobuf/editions/golden/test_messages_proto2_editions.pb.h" |
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#include "google/protobuf/editions/golden/test_messages_proto3_editions.pb.h" |
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#include "google/protobuf/endian.h" |
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#include "google/protobuf/json/json.h" |
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#include "google/protobuf/test_messages_proto2.pb.h" |
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#include "google/protobuf/test_messages_proto2.pb.h" |
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#include "google/protobuf/test_messages_proto3.pb.h" |
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#include "google/protobuf/test_messages_proto3.pb.h" |
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#include "google/protobuf/text_format.h" |
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#include "google/protobuf/unknown_field_set.h" |
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#include "google/protobuf/util/type_resolver_util.h" |
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#include "google/protobuf/wire_format_lite.h" |
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using conformance::ConformanceRequest; |
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using conformance::ConformanceResponse; |
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using conformance::WireFormat; |
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using google::protobuf::Descriptor; |
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using google::protobuf::FieldDescriptor; |
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using google::protobuf::internal::WireFormatLite; |
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using google::protobuf::internal::little_endian::FromHost; |
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using google::protobuf::util::NewTypeResolverForDescriptorPool; |
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using protobuf_test_messages::proto2::TestAllTypesProto2; |
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using protobuf_test_messages::proto3::TestAllTypesProto3; |
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using TestAllTypesProto2Editions = |
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protobuf_test_messages::editions::proto2::TestAllTypesProto2; |
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using TestAllTypesProto3Editions = |
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protobuf_test_messages::editions::proto3::TestAllTypesProto3; |
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namespace { |
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constexpr absl::string_view kTypeUrlPrefix = "type.googleapis.com"; |
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// The number of repetitions to use for performance tests. |
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// Corresponds approx to 500KB wireformat bytes. |
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const size_t kPerformanceRepeatCount = 50000; |
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std::string GetTypeUrl(const Descriptor* message) { |
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return absl::StrCat(kTypeUrlPrefix, "/", message->full_name()); |
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} |
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/* Routines for building arbitrary protos *************************************/ |
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// We would use CodedOutputStream except that we want more freedom to build |
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// arbitrary protos (even invalid ones). |
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// The maximum number of bytes that it takes to encode a 64-bit varint. |
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#define VARINT_MAX_LEN 10 |
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size_t vencode64(uint64_t val, int over_encoded_bytes, char* buf) { |
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if (val == 0) { |
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buf[0] = 0; |
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return 1; |
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} |
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size_t i = 0; |
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while (val) { |
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uint8_t byte = val & 0x7fU; |
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val >>= 7; |
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if (val || over_encoded_bytes) byte |= 0x80U; |
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buf[i++] = byte; |
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} |
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while (over_encoded_bytes--) { |
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assert(i < 10); |
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uint8_t byte = over_encoded_bytes ? 0x80 : 0; |
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buf[i++] = byte; |
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} |
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return i; |
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} |
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std::string varint(uint64_t x) { |
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char buf[VARINT_MAX_LEN]; |
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size_t len = vencode64(x, 0, buf); |
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return std::string(buf, len); |
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} |
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// Encodes a varint that is |extra| bytes longer than it needs to be, but still |
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// valid. |
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std::string longvarint(uint64_t x, int extra) { |
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char buf[VARINT_MAX_LEN]; |
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size_t len = vencode64(x, extra, buf); |
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return std::string(buf, len); |
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} |
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std::string fixed32(void* data) { |
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uint32_t data_le; |
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std::memcpy(&data_le, data, 4); |
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data_le = FromHost(data_le); |
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return std::string(reinterpret_cast<char*>(&data_le), 4); |
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} |
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std::string fixed64(void* data) { |
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uint64_t data_le; |
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std::memcpy(&data_le, data, 8); |
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data_le = FromHost(data_le); |
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return std::string(reinterpret_cast<char*>(&data_le), 8); |
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} |
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std::string delim(const std::string& buf) { |
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return absl::StrCat(varint(buf.size()), buf); |
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} |
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std::string u32(uint32_t u32) { return fixed32(&u32); } |
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std::string u64(uint64_t u64) { return fixed64(&u64); } |
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std::string flt(float f) { return fixed32(&f); } |
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std::string dbl(double d) { return fixed64(&d); } |
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std::string zz32(int32_t x) { |
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return varint(WireFormatLite::ZigZagEncode32(x)); |
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} |
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std::string zz64(int64_t x) { |
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return varint(WireFormatLite::ZigZagEncode64(x)); |
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} |
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std::string tag(uint32_t fieldnum, char wire_type) { |
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return varint((fieldnum << 3) | wire_type); |
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} |
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std::string tag(int fieldnum, char wire_type) { |
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return tag(static_cast<uint32_t>(fieldnum), wire_type); |
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} |
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std::string GetDefaultValue(FieldDescriptor::Type type) { |
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switch (type) { |
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case FieldDescriptor::TYPE_INT32: |
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case FieldDescriptor::TYPE_INT64: |
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case FieldDescriptor::TYPE_UINT32: |
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case FieldDescriptor::TYPE_UINT64: |
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case FieldDescriptor::TYPE_ENUM: |
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case FieldDescriptor::TYPE_BOOL: |
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return varint(0); |
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case FieldDescriptor::TYPE_SINT32: |
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return zz32(0); |
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case FieldDescriptor::TYPE_SINT64: |
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return zz64(0); |
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case FieldDescriptor::TYPE_FIXED32: |
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case FieldDescriptor::TYPE_SFIXED32: |
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return u32(0); |
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case FieldDescriptor::TYPE_FIXED64: |
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case FieldDescriptor::TYPE_SFIXED64: |
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return u64(0); |
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case FieldDescriptor::TYPE_FLOAT: |
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return flt(0); |
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case FieldDescriptor::TYPE_DOUBLE: |
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return dbl(0); |
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case FieldDescriptor::TYPE_STRING: |
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case FieldDescriptor::TYPE_BYTES: |
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case FieldDescriptor::TYPE_MESSAGE: |
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return delim(""); |
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default: |
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return ""; |
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} |
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return ""; |
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} |
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std::string GetNonDefaultValue(FieldDescriptor::Type type) { |
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switch (type) { |
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case FieldDescriptor::TYPE_INT32: |
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case FieldDescriptor::TYPE_INT64: |
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case FieldDescriptor::TYPE_UINT32: |
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case FieldDescriptor::TYPE_UINT64: |
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case FieldDescriptor::TYPE_ENUM: |
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case FieldDescriptor::TYPE_BOOL: |
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return varint(1); |
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case FieldDescriptor::TYPE_SINT32: |
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return zz32(1); |
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case FieldDescriptor::TYPE_SINT64: |
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return zz64(1); |
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case FieldDescriptor::TYPE_FIXED32: |
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case FieldDescriptor::TYPE_SFIXED32: |
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return u32(1); |
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case FieldDescriptor::TYPE_FIXED64: |
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case FieldDescriptor::TYPE_SFIXED64: |
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return u64(1); |
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case FieldDescriptor::TYPE_FLOAT: |
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return flt(1); |
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case FieldDescriptor::TYPE_DOUBLE: |
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return dbl(1); |
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case FieldDescriptor::TYPE_STRING: |
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case FieldDescriptor::TYPE_BYTES: |
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return delim("a"); |
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case FieldDescriptor::TYPE_MESSAGE: |
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return delim( |
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absl::StrCat(tag(1, WireFormatLite::WIRETYPE_VARINT), varint(1234))); |
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default: |
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return ""; |
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} |
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return ""; |
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} |
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#define UNKNOWN_FIELD 666 |
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std::string UpperCase(std::string str) { |
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for (size_t i = 0; i < str.size(); i++) { |
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str[i] = toupper(str[i]); |
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} |
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return str; |
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} |
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bool IsProto3Default(FieldDescriptor::Type type, |
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const std::string& binary_data) { |
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switch (type) { |
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case FieldDescriptor::TYPE_DOUBLE: |
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return binary_data == dbl(0); |
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case FieldDescriptor::TYPE_FLOAT: |
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return binary_data == flt(0); |
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case FieldDescriptor::TYPE_BOOL: |
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case FieldDescriptor::TYPE_INT64: |
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case FieldDescriptor::TYPE_UINT64: |
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case FieldDescriptor::TYPE_INT32: |
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case FieldDescriptor::TYPE_UINT32: |
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case FieldDescriptor::TYPE_SINT32: |
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case FieldDescriptor::TYPE_SINT64: |
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case FieldDescriptor::TYPE_ENUM: |
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return binary_data == varint(0); |
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case FieldDescriptor::TYPE_FIXED64: |
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case FieldDescriptor::TYPE_SFIXED64: |
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return binary_data == u64(0); |
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case FieldDescriptor::TYPE_FIXED32: |
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case FieldDescriptor::TYPE_SFIXED32: |
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return binary_data == u32(0); |
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case FieldDescriptor::TYPE_STRING: |
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case FieldDescriptor::TYPE_BYTES: |
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return binary_data == delim(""); |
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default: |
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return false; |
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} |
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} |
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} // anonymous namespace |
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namespace google { |
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namespace protobuf { |
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bool BinaryAndJsonConformanceSuite::ParseJsonResponse( |
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const ConformanceResponse& response, Message* test_message) { |
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std::string binary_protobuf; |
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absl::Status status = |
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json::JsonToBinaryString(type_resolver_.get(), type_url_, |
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response.json_payload(), &binary_protobuf); |
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if (!status.ok()) { |
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return false; |
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} |
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if (!test_message->ParseFromString(binary_protobuf)) { |
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ABSL_LOG(FATAL) << "INTERNAL ERROR: internal JSON->protobuf transcode " |
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<< "yielded unparseable proto."; |
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return false; |
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} |
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return true; |
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} |
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bool BinaryAndJsonConformanceSuite::ParseResponse( |
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const ConformanceResponse& response, |
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const ConformanceRequestSetting& setting, Message* test_message) { |
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const ConformanceRequest& request = setting.GetRequest(); |
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WireFormat requested_output = request.requested_output_format(); |
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const std::string& test_name = setting.GetTestName(); |
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ConformanceLevel level = setting.GetLevel(); |
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switch (response.result_case()) { |
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case ConformanceResponse::kProtobufPayload: { |
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if (requested_output != conformance::PROTOBUF) { |
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ReportFailure(test_name, level, request, response, |
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absl::StrCat("Test was asked for ", |
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WireFormatToString(requested_output), |
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" output but provided PROTOBUF instead.")); |
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return false; |
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} |
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if (!test_message->ParseFromString(response.protobuf_payload())) { |
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ReportFailure(test_name, level, request, response, |
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"Protobuf output we received from test was unparseable."); |
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return false; |
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} |
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break; |
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} |
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case ConformanceResponse::kJsonPayload: { |
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if (requested_output != conformance::JSON) { |
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ReportFailure(test_name, level, request, response, |
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absl::StrCat("Test was asked for ", |
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WireFormatToString(requested_output), |
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" output but provided JSON instead.")); |
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return false; |
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} |
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if (!ParseJsonResponse(response, test_message)) { |
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ReportFailure(test_name, level, request, response, |
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"JSON output we received from test was unparseable."); |
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return false; |
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} |
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break; |
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} |
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default: |
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ABSL_LOG(FATAL) << test_name |
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<< ": unknown payload type: " << response.result_case() |
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<< ", response: " << response; |
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} |
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return true; |
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} |
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void BinaryAndJsonConformanceSuite::RunSuiteImpl() { |
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type_resolver_.reset(NewTypeResolverForDescriptorPool( |
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kTypeUrlPrefix, DescriptorPool::generated_pool())); |
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BinaryAndJsonConformanceSuiteImpl<TestAllTypesProto3>( |
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this, /*run_proto3_tests=*/true); |
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BinaryAndJsonConformanceSuiteImpl<TestAllTypesProto2>( |
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this, /*run_proto3_tests=*/false); |
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if (maximum_edition_ >= Edition::EDITION_2023) { |
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BinaryAndJsonConformanceSuiteImpl<TestAllTypesProto3Editions>( |
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this, /*run_proto3_tests=*/true); |
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BinaryAndJsonConformanceSuiteImpl<TestAllTypesProto2Editions>( |
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this, /*run_proto3_tests=*/false); |
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} |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
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ExpectParseFailureForProtoWithProtoVersion(const std::string& proto, |
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const std::string& test_name, |
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ConformanceLevel level) { |
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MessageType prototype; |
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// We don't expect output, but if the program erroneously accepts the protobuf |
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// we let it send its response as this. We must not leave it unspecified. |
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ConformanceRequestSetting setting( |
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level, conformance::PROTOBUF, conformance::PROTOBUF, |
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conformance::BINARY_TEST, prototype, test_name, proto); |
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const ConformanceRequest& request = setting.GetRequest(); |
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ConformanceResponse response; |
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std::string effective_test_name = |
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absl::StrCat(setting.ConformanceLevelToString(level), ".", |
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setting.GetSyntaxIdentifier(), ".ProtobufInput.", test_name); |
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suite_.RunTest(effective_test_name, request, &response); |
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if (response.result_case() == ConformanceResponse::kParseError) { |
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suite_.ReportSuccess(effective_test_name); |
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} else if (response.result_case() == ConformanceResponse::kSkipped) { |
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suite_.ReportSkip(effective_test_name, request, response); |
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} else { |
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suite_.ReportFailure(effective_test_name, level, request, response, |
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"Should have failed to parse, but didn't."); |
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} |
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} |
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// Expect that this precise protobuf will cause a parse error. |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>::ExpectParseFailureForProto( |
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const std::string& proto, const std::string& test_name, |
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ConformanceLevel level) { |
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ExpectParseFailureForProtoWithProtoVersion(proto, test_name, level); |
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} |
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// Expect that this protobuf will cause a parse error, even if it is followed |
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// by valid protobuf data. We can try running this twice: once with this |
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// data verbatim and once with this data followed by some valid data. |
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// |
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// TODO: implement the second of these. |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl< |
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MessageType>::ExpectHardParseFailureForProto(const std::string& proto, |
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const std::string& test_name, |
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ConformanceLevel level) { |
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return ExpectParseFailureForProto(proto, test_name, level); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunValidJsonTest( |
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const std::string& test_name, ConformanceLevel level, |
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const std::string& input_json, const std::string& equivalent_text_format) { |
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MessageType prototype; |
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RunValidJsonTestWithMessage(test_name, level, input_json, |
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equivalent_text_format, prototype); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
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RunValidJsonTestWithMessage(const std::string& test_name, |
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ConformanceLevel level, |
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const std::string& input_json, |
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const std::string& equivalent_text_format, |
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const Message& prototype) { |
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ConformanceRequestSetting setting1( |
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level, conformance::JSON, conformance::PROTOBUF, conformance::JSON_TEST, |
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prototype, test_name, input_json); |
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suite_.RunValidInputTest(setting1, equivalent_text_format); |
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ConformanceRequestSetting setting2(level, conformance::JSON, |
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conformance::JSON, conformance::JSON_TEST, |
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prototype, test_name, input_json); |
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suite_.RunValidInputTest(setting2, equivalent_text_format); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
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RunValidJsonTestWithProtobufInput( |
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const std::string& test_name, ConformanceLevel level, |
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const MessageType& input, const std::string& equivalent_text_format) { |
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ConformanceRequestSetting setting( |
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level, conformance::PROTOBUF, conformance::JSON, conformance::JSON_TEST, |
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input, test_name, input.SerializeAsString()); |
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suite_.RunValidInputTest(setting, equivalent_text_format); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
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RunValidJsonIgnoreUnknownTest(const std::string& test_name, |
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ConformanceLevel level, |
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const std::string& input_json, |
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const std::string& equivalent_text_format) { |
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MessageType prototype; |
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ConformanceRequestSetting setting( |
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level, conformance::JSON, conformance::PROTOBUF, |
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conformance::JSON_IGNORE_UNKNOWN_PARSING_TEST, prototype, test_name, |
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input_json); |
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suite_.RunValidInputTest(setting, equivalent_text_format); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunValidProtobufTest( |
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const std::string& test_name, ConformanceLevel level, |
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const std::string& input_protobuf, |
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const std::string& equivalent_text_format) { |
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MessageType prototype; |
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ConformanceRequestSetting binary_to_binary( |
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level, conformance::PROTOBUF, conformance::PROTOBUF, |
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conformance::BINARY_TEST, prototype, test_name, input_protobuf); |
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suite_.RunValidInputTest(binary_to_binary, equivalent_text_format); |
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ConformanceRequestSetting binary_to_json( |
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level, conformance::PROTOBUF, conformance::JSON, conformance::BINARY_TEST, |
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prototype, test_name, input_protobuf); |
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suite_.RunValidInputTest(binary_to_json, equivalent_text_format); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunValidBinaryProtobufTest( |
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const std::string& test_name, ConformanceLevel level, |
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const std::string& input_protobuf) { |
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RunValidBinaryProtobufTest(test_name, level, input_protobuf, input_protobuf); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunValidBinaryProtobufTest( |
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const std::string& test_name, ConformanceLevel level, |
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const std::string& input_protobuf, const std::string& expected_protobuf) { |
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MessageType prototype; |
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ConformanceRequestSetting setting( |
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level, conformance::PROTOBUF, conformance::PROTOBUF, |
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conformance::BINARY_TEST, prototype, test_name, input_protobuf); |
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suite_.RunValidBinaryInputTest(setting, expected_protobuf, true); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
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RunBinaryPerformanceMergeMessageWithField(const std::string& test_name, |
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const std::string& field_proto) { |
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std::string message_tag = tag(27, WireFormatLite::WIRETYPE_LENGTH_DELIMITED); |
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std::string message_proto = absl::StrCat(message_tag, delim(field_proto)); |
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std::string proto; |
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for (size_t i = 0; i < kPerformanceRepeatCount; i++) { |
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proto.append(message_proto); |
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} |
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std::string multiple_repeated_field_proto; |
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for (size_t i = 0; i < kPerformanceRepeatCount; i++) { |
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multiple_repeated_field_proto.append(field_proto); |
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} |
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std::string expected_proto = |
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absl::StrCat(message_tag, delim(multiple_repeated_field_proto)); |
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RunValidBinaryProtobufTest(test_name, RECOMMENDED, proto, expected_proto); |
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} |
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template <typename MessageType> |
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void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
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RunValidProtobufTestWithMessage(const std::string& test_name, |
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ConformanceLevel level, |
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const Message* input, |
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const std::string& equivalent_text_format) { |
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RunValidProtobufTest(test_name, level, input->SerializeAsString(), |
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equivalent_text_format); |
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} |
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// According to proto JSON specification, JSON serializers follow more strict |
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// rules than parsers (e.g., a serializer must serialize int32 values as JSON |
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// numbers while the parser is allowed to accept them as JSON strings). This |
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// method allows strict checking on a proto JSON serializer by inspecting |
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template <typename MessageType> // the JSON output directly. |
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void BinaryAndJsonConformanceSuiteImpl< |
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MessageType>::RunValidJsonTestWithValidator(const std::string& test_name, |
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ConformanceLevel level, |
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const std::string& input_json, |
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const Validator& validator) { |
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MessageType prototype; |
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ConformanceRequestSetting setting(level, conformance::JSON, conformance::JSON, |
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conformance::JSON_TEST, prototype, |
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test_name, input_json); |
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const ConformanceRequest& request = setting.GetRequest(); |
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ConformanceResponse response; |
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std::string effective_test_name = absl::StrCat( |
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setting.ConformanceLevelToString(level), ".", |
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setting.GetSyntaxIdentifier(), ".JsonInput.", test_name, ".Validator"); |
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suite_.RunTest(effective_test_name, request, &response); |
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if (response.result_case() == ConformanceResponse::kSkipped) { |
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suite_.ReportSkip(effective_test_name, request, response); |
|
return; |
|
} |
|
|
|
if (response.result_case() != ConformanceResponse::kJsonPayload) { |
|
suite_.ReportFailure(effective_test_name, level, request, response, |
|
absl::StrCat("Expected JSON payload but got type ", |
|
response.result_case())); |
|
return; |
|
} |
|
Json::Reader reader; |
|
Json::Value value; |
|
if (!reader.parse(response.json_payload(), value)) { |
|
suite_.ReportFailure( |
|
effective_test_name, level, request, response, |
|
absl::StrCat("JSON payload cannot be parsed as valid JSON: ", |
|
reader.getFormattedErrorMessages())); |
|
return; |
|
} |
|
if (!validator(value)) { |
|
suite_.ReportFailure(effective_test_name, level, request, response, |
|
"JSON payload validation failed."); |
|
return; |
|
} |
|
suite_.ReportSuccess(effective_test_name); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::ExpectParseFailureForJson( |
|
const std::string& test_name, ConformanceLevel level, |
|
const std::string& input_json) { |
|
MessageType prototype; |
|
// We don't expect output, but if the program erroneously accepts the protobuf |
|
// we let it send its response as this. We must not leave it unspecified. |
|
ConformanceRequestSetting setting(level, conformance::JSON, conformance::JSON, |
|
conformance::JSON_TEST, prototype, |
|
test_name, input_json); |
|
const ConformanceRequest& request = setting.GetRequest(); |
|
ConformanceResponse response; |
|
std::string effective_test_name = |
|
absl::StrCat(setting.ConformanceLevelToString(level), ".", |
|
SyntaxIdentifier(), ".JsonInput.", test_name); |
|
|
|
suite_.RunTest(effective_test_name, request, &response); |
|
if (response.result_case() == ConformanceResponse::kParseError) { |
|
suite_.ReportSuccess(effective_test_name); |
|
} else if (response.result_case() == ConformanceResponse::kSkipped) { |
|
suite_.ReportSkip(effective_test_name, request, response); |
|
} else { |
|
suite_.ReportFailure(effective_test_name, level, request, response, |
|
"Should have failed to parse, but didn't."); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
|
ExpectSerializeFailureForJson(const std::string& test_name, |
|
ConformanceLevel level, |
|
const std::string& text_format) { |
|
MessageType payload_message; |
|
ABSL_CHECK(TextFormat::ParseFromString(text_format, &payload_message)) |
|
<< "Failed to parse: " << text_format; |
|
|
|
MessageType prototype; |
|
ConformanceRequestSetting setting( |
|
level, conformance::PROTOBUF, conformance::JSON, conformance::JSON_TEST, |
|
prototype, test_name, payload_message.SerializeAsString()); |
|
const ConformanceRequest& request = setting.GetRequest(); |
|
ConformanceResponse response; |
|
std::string effective_test_name = |
|
absl::StrCat(setting.ConformanceLevelToString(level), ".", |
|
SyntaxIdentifier(), ".", test_name, ".JsonOutput"); |
|
|
|
suite_.RunTest(effective_test_name, request, &response); |
|
if (response.result_case() == ConformanceResponse::kSerializeError) { |
|
suite_.ReportSuccess(effective_test_name); |
|
} else if (response.result_case() == ConformanceResponse::kSkipped) { |
|
suite_.ReportSkip(effective_test_name, request, response); |
|
} else { |
|
suite_.ReportFailure(effective_test_name, level, request, response, |
|
"Should have failed to serialize, but didn't."); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestPrematureEOFForType( |
|
FieldDescriptor::Type type) { |
|
// Incomplete values for each wire type. |
|
static constexpr absl::string_view incompletes[6] = { |
|
"\x80", // VARINT |
|
"abcdefg", // 64BIT |
|
"\x80", // DELIMITED (partial length) |
|
"", // START_GROUP (no value required) |
|
"", // END_GROUP (no value required) |
|
"abc" // 32BIT |
|
}; |
|
|
|
const FieldDescriptor* field = GetFieldForType(type, false); |
|
const FieldDescriptor* rep_field = GetFieldForType(type, true); |
|
WireFormatLite::WireType wire_type = WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(type)); |
|
absl::string_view incomplete = incompletes[wire_type]; |
|
const std::string type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(type))); |
|
|
|
ExpectParseFailureForProto( |
|
tag(field->number(), wire_type), |
|
absl::StrCat("PrematureEofBeforeKnownNonRepeatedValue", type_name), |
|
REQUIRED); |
|
|
|
ExpectParseFailureForProto( |
|
tag(rep_field->number(), wire_type), |
|
absl::StrCat("PrematureEofBeforeKnownRepeatedValue", type_name), |
|
REQUIRED); |
|
|
|
ExpectParseFailureForProto( |
|
tag(UNKNOWN_FIELD, wire_type), |
|
absl::StrCat("PrematureEofBeforeUnknownValue", type_name), REQUIRED); |
|
|
|
ExpectParseFailureForProto( |
|
absl::StrCat(tag(field->number(), wire_type), incomplete), |
|
absl::StrCat("PrematureEofInsideKnownNonRepeatedValue", type_name), |
|
REQUIRED); |
|
|
|
ExpectParseFailureForProto( |
|
absl::StrCat(tag(rep_field->number(), wire_type), incomplete), |
|
absl::StrCat("PrematureEofInsideKnownRepeatedValue", type_name), |
|
REQUIRED); |
|
|
|
ExpectParseFailureForProto( |
|
absl::StrCat(tag(UNKNOWN_FIELD, wire_type), incomplete), |
|
absl::StrCat("PrematureEofInsideUnknownValue", type_name), REQUIRED); |
|
|
|
if (wire_type == WireFormatLite::WIRETYPE_LENGTH_DELIMITED) { |
|
ExpectParseFailureForProto( |
|
absl::StrCat(tag(field->number(), wire_type), varint(1)), |
|
absl::StrCat("PrematureEofInDelimitedDataForKnownNonRepeatedValue", |
|
type_name), |
|
REQUIRED); |
|
|
|
ExpectParseFailureForProto( |
|
absl::StrCat(tag(rep_field->number(), wire_type), varint(1)), |
|
absl::StrCat("PrematureEofInDelimitedDataForKnownRepeatedValue", |
|
type_name), |
|
REQUIRED); |
|
|
|
// EOF in the middle of delimited data for unknown value. |
|
ExpectParseFailureForProto( |
|
absl::StrCat(tag(UNKNOWN_FIELD, wire_type), varint(1)), |
|
absl::StrCat("PrematureEofInDelimitedDataForUnknownValue", type_name), |
|
REQUIRED); |
|
|
|
if (type == FieldDescriptor::TYPE_MESSAGE) { |
|
// Submessage ends in the middle of a value. |
|
std::string incomplete_submsg = absl::StrCat( |
|
tag(WireFormatLite::TYPE_INT32, WireFormatLite::WIRETYPE_VARINT), |
|
incompletes[WireFormatLite::WIRETYPE_VARINT]); |
|
ExpectHardParseFailureForProto( |
|
absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
varint(incomplete_submsg.size()), incomplete_submsg), |
|
absl::StrCat("PrematureEofInSubmessageValue", type_name), REQUIRED); |
|
} |
|
} else if (type != FieldDescriptor::TYPE_GROUP) { |
|
// Non-delimited, non-group: eligible for packing. |
|
|
|
// Packed region ends in the middle of a value. |
|
ExpectHardParseFailureForProto( |
|
absl::StrCat( |
|
tag(rep_field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
varint(incomplete.size()), incomplete), |
|
absl::StrCat("PrematureEofInPackedFieldValue", type_name), REQUIRED); |
|
|
|
// EOF in the middle of packed region. |
|
ExpectParseFailureForProto( |
|
absl::StrCat( |
|
tag(rep_field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
varint(1)), |
|
absl::StrCat("PrematureEofInPackedField", type_name), REQUIRED); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestValidDataForType( |
|
FieldDescriptor::Type type, |
|
std::vector<std::pair<std::string, std::string>> values) { |
|
const std::string type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(type))); |
|
WireFormatLite::WireType wire_type = WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(type)); |
|
const FieldDescriptor* field = GetFieldForType(type, false); |
|
const FieldDescriptor* rep_field = GetFieldForType(type, true); |
|
|
|
// Test singular data for singular fields. |
|
for (size_t i = 0; i < values.size(); i++) { |
|
std::string proto = |
|
absl::StrCat(tag(field->number(), wire_type), values[i].first); |
|
// In proto3, default primitive fields should not be encoded. |
|
std::string expected_proto = |
|
run_proto3_tests_ && IsProto3Default(field->type(), values[i].second) |
|
? "" |
|
: absl::StrCat(tag(field->number(), wire_type), values[i].second); |
|
MessageType test_message; |
|
test_message.MergeFromString(expected_proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
RunValidProtobufTest( |
|
absl::StrCat("ValidDataScalar", type_name, "[", i, "]"), REQUIRED, |
|
proto, text); |
|
RunValidBinaryProtobufTest( |
|
absl::StrCat("ValidDataScalarBinary", type_name, "[", i, "]"), |
|
RECOMMENDED, proto, expected_proto); |
|
} |
|
|
|
// Test repeated data for singular fields. |
|
// For scalar message fields, repeated values are merged, which is tested |
|
// separately. |
|
if (type != FieldDescriptor::TYPE_MESSAGE) { |
|
std::string proto; |
|
for (size_t i = 0; i < values.size(); i++) { |
|
proto += absl::StrCat(tag(field->number(), wire_type), values[i].first); |
|
} |
|
std::string expected_proto = |
|
absl::StrCat(tag(field->number(), wire_type), values.back().second); |
|
MessageType test_message; |
|
test_message.MergeFromString(expected_proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
RunValidProtobufTest(absl::StrCat("RepeatedScalarSelectsLast", type_name), |
|
REQUIRED, proto, text); |
|
} |
|
|
|
// Test repeated fields. |
|
if (FieldDescriptor::IsTypePackable(type)) { |
|
const FieldDescriptor* packed_field = |
|
GetFieldForType(type, true, Packed::kTrue); |
|
const FieldDescriptor* unpacked_field = |
|
GetFieldForType(type, true, Packed::kFalse); |
|
|
|
std::string default_proto_packed; |
|
std::string default_proto_unpacked; |
|
std::string default_proto_packed_expected; |
|
std::string default_proto_unpacked_expected; |
|
std::string packed_proto_packed; |
|
std::string packed_proto_unpacked; |
|
std::string packed_proto_expected; |
|
std::string unpacked_proto_packed; |
|
std::string unpacked_proto_unpacked; |
|
std::string unpacked_proto_expected; |
|
|
|
for (size_t i = 0; i < values.size(); i++) { |
|
default_proto_unpacked += |
|
absl::StrCat(tag(rep_field->number(), wire_type), values[i].first); |
|
default_proto_unpacked_expected += |
|
absl::StrCat(tag(rep_field->number(), wire_type), values[i].second); |
|
default_proto_packed += values[i].first; |
|
default_proto_packed_expected += values[i].second; |
|
packed_proto_unpacked += |
|
absl::StrCat(tag(packed_field->number(), wire_type), values[i].first); |
|
packed_proto_packed += values[i].first; |
|
packed_proto_expected += values[i].second; |
|
unpacked_proto_unpacked += absl::StrCat( |
|
tag(unpacked_field->number(), wire_type), values[i].first); |
|
unpacked_proto_packed += values[i].first; |
|
unpacked_proto_expected += absl::StrCat( |
|
tag(unpacked_field->number(), wire_type), values[i].second); |
|
} |
|
default_proto_packed = absl::StrCat( |
|
tag(rep_field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(default_proto_packed)); |
|
default_proto_packed_expected = absl::StrCat( |
|
tag(rep_field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(default_proto_packed_expected)); |
|
packed_proto_packed = absl::StrCat( |
|
tag(packed_field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(packed_proto_packed)); |
|
packed_proto_expected = absl::StrCat( |
|
tag(packed_field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(packed_proto_expected)); |
|
unpacked_proto_packed = |
|
absl::StrCat(tag(unpacked_field->number(), |
|
WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(unpacked_proto_packed)); |
|
|
|
MessageType test_message; |
|
test_message.MergeFromString(default_proto_packed_expected); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
// Ensures both packed and unpacked data can be parsed. |
|
RunValidProtobufTest( |
|
absl::StrCat("ValidDataRepeated", type_name, ".UnpackedInput"), |
|
REQUIRED, default_proto_unpacked, text); |
|
RunValidProtobufTest( |
|
absl::StrCat("ValidDataRepeated", type_name, ".PackedInput"), REQUIRED, |
|
default_proto_packed, text); |
|
|
|
// proto2 should encode as unpacked by default and proto3 should encode as |
|
// packed by default. |
|
std::string expected_proto = rep_field->is_packed() |
|
? default_proto_packed_expected |
|
: default_proto_unpacked_expected; |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataRepeated", type_name, |
|
".UnpackedInput.DefaultOutput"), |
|
RECOMMENDED, default_proto_unpacked, |
|
expected_proto); |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataRepeated", type_name, |
|
".PackedInput.DefaultOutput"), |
|
RECOMMENDED, default_proto_packed, |
|
expected_proto); |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataRepeated", type_name, |
|
".UnpackedInput.PackedOutput"), |
|
RECOMMENDED, packed_proto_unpacked, |
|
packed_proto_expected); |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataRepeated", type_name, |
|
".PackedInput.PackedOutput"), |
|
RECOMMENDED, packed_proto_packed, |
|
packed_proto_expected); |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataRepeated", type_name, |
|
".UnpackedInput.UnpackedOutput"), |
|
RECOMMENDED, unpacked_proto_unpacked, |
|
unpacked_proto_expected); |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataRepeated", type_name, |
|
".PackedInput.UnpackedOutput"), |
|
RECOMMENDED, unpacked_proto_packed, |
|
unpacked_proto_expected); |
|
} else { |
|
std::string proto; |
|
std::string expected_proto; |
|
for (size_t i = 0; i < values.size(); i++) { |
|
proto += |
|
absl::StrCat(tag(rep_field->number(), wire_type), values[i].first); |
|
expected_proto += |
|
absl::StrCat(tag(rep_field->number(), wire_type), values[i].second); |
|
} |
|
MessageType test_message; |
|
test_message.MergeFromString(expected_proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
RunValidProtobufTest(absl::StrCat("ValidDataRepeated", type_name), REQUIRED, |
|
proto, text); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::TestValidDataForRepeatedScalarMessage() { |
|
std::vector<std::string> values = { |
|
delim(absl::StrCat( |
|
tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat( |
|
tag(1, WireFormatLite::WIRETYPE_VARINT), varint(1234), |
|
tag(2, WireFormatLite::WIRETYPE_VARINT), varint(1234), |
|
tag(31, WireFormatLite::WIRETYPE_VARINT), varint(1234))))), |
|
delim(absl::StrCat( |
|
tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat( |
|
tag(1, WireFormatLite::WIRETYPE_VARINT), varint(4321), |
|
tag(3, WireFormatLite::WIRETYPE_VARINT), varint(4321), |
|
tag(31, WireFormatLite::WIRETYPE_VARINT), varint(4321))))), |
|
}; |
|
|
|
const std::string expected = |
|
R"({ |
|
corecursive: { |
|
optional_int32: 4321, |
|
optional_int64: 1234, |
|
optional_uint32: 4321, |
|
repeated_int32: [1234, 4321], |
|
} |
|
})"; |
|
|
|
std::string proto; |
|
const FieldDescriptor* field = |
|
GetFieldForType(FieldDescriptor::TYPE_MESSAGE, false); |
|
for (size_t i = 0; i < values.size(); i++) { |
|
proto += absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
values[i]); |
|
} |
|
|
|
RunValidProtobufTest("RepeatedScalarMessageMerge", REQUIRED, proto, |
|
absl::StrCat(field->name(), ": ", expected)); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestValidDataForMapType( |
|
FieldDescriptor::Type key_type, FieldDescriptor::Type value_type) { |
|
const std::string key_type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(key_type))); |
|
const std::string value_type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(value_type))); |
|
WireFormatLite::WireType key_wire_type = WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(key_type)); |
|
WireFormatLite::WireType value_wire_type = |
|
WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(value_type)); |
|
|
|
std::string key1_data = |
|
absl::StrCat(tag(1, key_wire_type), GetDefaultValue(key_type)); |
|
std::string value1_data = |
|
absl::StrCat(tag(2, value_wire_type), GetDefaultValue(value_type)); |
|
std::string key2_data = |
|
absl::StrCat(tag(1, key_wire_type), GetNonDefaultValue(key_type)); |
|
std::string value2_data = |
|
absl::StrCat(tag(2, value_wire_type), GetNonDefaultValue(value_type)); |
|
|
|
const FieldDescriptor* field = GetFieldForMapType(key_type, value_type); |
|
|
|
{ |
|
// Tests map with default key and value. |
|
std::string proto = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key1_data, value1_data))); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest(absl::StrCat("ValidDataMap", key_type_name, |
|
value_type_name, ".Default"), |
|
REQUIRED, proto, text); |
|
} |
|
|
|
{ |
|
// Tests map with missing default key and value. |
|
std::string proto = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim("")); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest(absl::StrCat("ValidDataMap", key_type_name, |
|
value_type_name, ".MissingDefault"), |
|
REQUIRED, proto, text); |
|
} |
|
|
|
{ |
|
// Tests map with non-default key and value. |
|
std::string proto = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key2_data, value2_data))); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest(absl::StrCat("ValidDataMap", key_type_name, |
|
value_type_name, ".NonDefault"), |
|
REQUIRED, proto, text); |
|
} |
|
|
|
{ |
|
// Tests map with unordered key and value. |
|
std::string proto = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(value2_data, key2_data))); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest(absl::StrCat("ValidDataMap", key_type_name, |
|
value_type_name, ".Unordered"), |
|
REQUIRED, proto, text); |
|
} |
|
|
|
{ |
|
// Tests map with duplicate key. |
|
std::string proto1 = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key2_data, value1_data))); |
|
std::string proto2 = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key2_data, value2_data))); |
|
std::string proto = absl::StrCat(proto1, proto2); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto2); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest(absl::StrCat("ValidDataMap", key_type_name, |
|
value_type_name, ".DuplicateKey"), |
|
REQUIRED, proto, text); |
|
} |
|
|
|
{ |
|
// Tests map with duplicate key in map entry. |
|
std::string proto = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key1_data, key2_data, value2_data))); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest( |
|
absl::StrCat("ValidDataMap", key_type_name, value_type_name, |
|
".DuplicateKeyInMapEntry"), |
|
REQUIRED, proto, text); |
|
} |
|
|
|
{ |
|
// Tests map with duplicate value in map entry. |
|
std::string proto = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key2_data, value1_data, value2_data))); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest( |
|
absl::StrCat("ValidDataMap", key_type_name, value_type_name, |
|
".DuplicateValueInMapEntry"), |
|
REQUIRED, proto, text); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::TestOverwriteMessageValueMap() { |
|
std::string key_data = absl::StrCat( |
|
tag(1, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), delim("")); |
|
std::string field1_data = |
|
absl::StrCat(tag(1, WireFormatLite::WIRETYPE_VARINT), varint(1)); |
|
std::string field2_data = |
|
absl::StrCat(tag(2, WireFormatLite::WIRETYPE_VARINT), varint(1)); |
|
std::string field31_data = |
|
absl::StrCat(tag(31, WireFormatLite::WIRETYPE_VARINT), varint(1)); |
|
std::string submsg1_data = delim(absl::StrCat(field1_data, field31_data)); |
|
std::string submsg2_data = delim(absl::StrCat(field2_data, field31_data)); |
|
std::string value1_data = absl::StrCat( |
|
tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
submsg1_data))); |
|
std::string value2_data = absl::StrCat( |
|
tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
submsg2_data))); |
|
|
|
const FieldDescriptor* field = GetFieldForMapType( |
|
FieldDescriptor::TYPE_STRING, FieldDescriptor::TYPE_MESSAGE); |
|
|
|
std::string proto1 = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key_data, value1_data))); |
|
std::string proto2 = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(key_data, value2_data))); |
|
std::string proto = absl::StrCat(proto1, proto2); |
|
MessageType test_message; |
|
test_message.MergeFromString(proto2); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest("ValidDataMap.STRING.MESSAGE.MergeValue", REQUIRED, |
|
proto, text); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestValidDataForOneofType( |
|
FieldDescriptor::Type type) { |
|
const std::string type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(type))); |
|
WireFormatLite::WireType wire_type = WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(type)); |
|
|
|
const FieldDescriptor* field = GetFieldForOneofType(type); |
|
const std::string default_value = |
|
absl::StrCat(tag(field->number(), wire_type), GetDefaultValue(type)); |
|
const std::string non_default_value = |
|
absl::StrCat(tag(field->number(), wire_type), GetNonDefaultValue(type)); |
|
|
|
{ |
|
// Tests oneof with default value. |
|
const std::string proto = default_value; |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
RunValidProtobufTest( |
|
absl::StrCat("ValidDataOneof", type_name, ".DefaultValue"), REQUIRED, |
|
proto, text); |
|
RunValidBinaryProtobufTest( |
|
absl::StrCat("ValidDataOneofBinary", type_name, ".DefaultValue"), |
|
RECOMMENDED, proto, proto); |
|
} |
|
|
|
{ |
|
// Tests oneof with non-default value. |
|
const std::string proto = non_default_value; |
|
MessageType test_message; |
|
test_message.MergeFromString(proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
RunValidProtobufTest( |
|
absl::StrCat("ValidDataOneof", type_name, ".NonDefaultValue"), REQUIRED, |
|
proto, text); |
|
RunValidBinaryProtobufTest( |
|
absl::StrCat("ValidDataOneofBinary", type_name, ".NonDefaultValue"), |
|
RECOMMENDED, proto, proto); |
|
} |
|
|
|
{ |
|
// Tests oneof with multiple values of the same field. |
|
const std::string proto = absl::StrCat(default_value, non_default_value); |
|
const std::string expected_proto = non_default_value; |
|
MessageType test_message; |
|
test_message.MergeFromString(expected_proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
RunValidProtobufTest(absl::StrCat("ValidDataOneof", type_name, |
|
".MultipleValuesForSameField"), |
|
REQUIRED, proto, text); |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataOneofBinary", type_name, |
|
".MultipleValuesForSameField"), |
|
RECOMMENDED, proto, expected_proto); |
|
} |
|
|
|
{ |
|
// Tests oneof with multiple values of the different fields. |
|
const FieldDescriptor* other_field = GetFieldForOneofType(type, true); |
|
FieldDescriptor::Type other_type = other_field->type(); |
|
WireFormatLite::WireType other_wire_type = |
|
WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(other_type)); |
|
const std::string other_value = |
|
absl::StrCat(tag(other_field->number(), other_wire_type), |
|
GetDefaultValue(other_type)); |
|
|
|
const std::string proto = absl::StrCat(other_value, non_default_value); |
|
const std::string expected_proto = non_default_value; |
|
MessageType test_message; |
|
test_message.MergeFromString(expected_proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
|
|
RunValidProtobufTest(absl::StrCat("ValidDataOneof", type_name, |
|
".MultipleValuesForDifferentField"), |
|
REQUIRED, proto, text); |
|
RunValidBinaryProtobufTest(absl::StrCat("ValidDataOneofBinary", type_name, |
|
".MultipleValuesForDifferentField"), |
|
RECOMMENDED, proto, expected_proto); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestMergeOneofMessage() { |
|
std::string field1_data = |
|
absl::StrCat(tag(1, WireFormatLite::WIRETYPE_VARINT), varint(1)); |
|
std::string field2a_data = |
|
absl::StrCat(tag(2, WireFormatLite::WIRETYPE_VARINT), varint(1)); |
|
std::string field2b_data = |
|
absl::StrCat(tag(2, WireFormatLite::WIRETYPE_VARINT), varint(1)); |
|
std::string field89_data = |
|
absl::StrCat(tag(89, WireFormatLite::WIRETYPE_VARINT), varint(1)); |
|
std::string submsg1_data = absl::StrCat( |
|
tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(field1_data, field2a_data, field89_data))); |
|
std::string submsg2_data = |
|
absl::StrCat(tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(field2b_data, field89_data))); |
|
std::string merged_data = |
|
absl::StrCat(tag(2, WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(absl::StrCat(field1_data, field2b_data, field89_data, |
|
field89_data))); |
|
|
|
const FieldDescriptor* field = |
|
GetFieldForOneofType(FieldDescriptor::TYPE_MESSAGE); |
|
|
|
std::string proto1 = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(submsg1_data)); |
|
std::string proto2 = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(submsg2_data)); |
|
std::string proto = absl::StrCat(proto1, proto2); |
|
std::string expected_proto = absl::StrCat( |
|
tag(field->number(), WireFormatLite::WIRETYPE_LENGTH_DELIMITED), |
|
delim(merged_data)); |
|
|
|
MessageType test_message; |
|
test_message.MergeFromString(expected_proto); |
|
std::string text; |
|
TextFormat::PrintToString(test_message, &text); |
|
RunValidProtobufTest("ValidDataOneof.MESSAGE.Merge", REQUIRED, proto, text); |
|
RunValidBinaryProtobufTest("ValidDataOneofBinary.MESSAGE.Merge", RECOMMENDED, |
|
proto, expected_proto); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestIllegalTags() { |
|
// field num 0 is illegal |
|
std::string nullfield[] = {"\1DEADBEEF", "\2\1\1", "\3\4", "\5DEAD"}; |
|
for (int i = 0; i < 4; i++) { |
|
std::string name = "IllegalZeroFieldNum_Case_0"; |
|
name.back() += i; |
|
ExpectParseFailureForProto(nullfield[i], name, REQUIRED); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestOneofMessage() { |
|
MessageType message; |
|
message.set_oneof_uint32(0); |
|
RunValidProtobufTestWithMessage("OneofZeroUint32", RECOMMENDED, &message, |
|
"oneof_uint32: 0"); |
|
message.mutable_oneof_nested_message()->set_a(0); |
|
RunValidProtobufTestWithMessage("OneofZeroMessage", RECOMMENDED, &message, |
|
run_proto3_tests_ |
|
? "oneof_nested_message: {}" |
|
: "oneof_nested_message: {a: 0}"); |
|
message.mutable_oneof_nested_message()->set_a(1); |
|
RunValidProtobufTestWithMessage("OneofZeroMessageSetTwice", RECOMMENDED, |
|
&message, "oneof_nested_message: {a: 1}"); |
|
message.set_oneof_string(""); |
|
RunValidProtobufTestWithMessage("OneofZeroString", RECOMMENDED, &message, |
|
"oneof_string: \"\""); |
|
message.set_oneof_bytes(""); |
|
RunValidProtobufTestWithMessage("OneofZeroBytes", RECOMMENDED, &message, |
|
"oneof_bytes: \"\""); |
|
message.set_oneof_bool(false); |
|
RunValidProtobufTestWithMessage("OneofZeroBool", RECOMMENDED, &message, |
|
"oneof_bool: false"); |
|
message.set_oneof_uint64(0); |
|
RunValidProtobufTestWithMessage("OneofZeroUint64", RECOMMENDED, &message, |
|
"oneof_uint64: 0"); |
|
message.set_oneof_float(0.0f); |
|
RunValidProtobufTestWithMessage("OneofZeroFloat", RECOMMENDED, &message, |
|
"oneof_float: 0"); |
|
message.set_oneof_double(0.0); |
|
RunValidProtobufTestWithMessage("OneofZeroDouble", RECOMMENDED, &message, |
|
"oneof_double: 0"); |
|
message.set_oneof_enum(MessageType::FOO); |
|
RunValidProtobufTestWithMessage("OneofZeroEnum", RECOMMENDED, &message, |
|
"oneof_enum: FOO"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestUnknownMessage() { |
|
MessageType message; |
|
message.ParseFromString("\xA8\x1F\x01"); |
|
RunValidBinaryProtobufTest("UnknownVarint", REQUIRED, |
|
message.SerializeAsString()); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::TestUnknownOrdering() { |
|
// Implementations must preserve the ordering of different unknown fields for |
|
// the same field number. This is because some field types will accept |
|
// multiple wire types for the same field. For example, repeated primitive |
|
// fields will accept both length-delimited (packed) and |
|
// varint/fixed32/fixed64 (unpacked) wire types, and reordering these could |
|
// reorder the elements of the repeated field. |
|
MessageType message; |
|
MessageType prototype; |
|
message.mutable_unknown_fields()->AddLengthDelimited(UNKNOWN_FIELD, "abc"); |
|
message.mutable_unknown_fields()->AddVarint(UNKNOWN_FIELD, 123); |
|
message.mutable_unknown_fields()->AddLengthDelimited(UNKNOWN_FIELD, "def"); |
|
message.mutable_unknown_fields()->AddVarint(UNKNOWN_FIELD, 456); |
|
std::string serialized = message.SerializeAsString(); |
|
|
|
ConformanceRequestSetting setting( |
|
REQUIRED, conformance::PROTOBUF, conformance::PROTOBUF, |
|
conformance::BINARY_TEST, prototype, "UnknownOrdering", serialized); |
|
const ConformanceRequest& request = setting.GetRequest(); |
|
ConformanceResponse response; |
|
suite_.RunTest(setting.GetTestName(), request, &response); |
|
MessageType response_message; |
|
if (response.result_case() == ConformanceResponse::kSkipped) { |
|
suite_.ReportSkip(setting.GetTestName(), request, response); |
|
return; |
|
} |
|
suite_.ParseResponse(response, setting, &response_message); |
|
|
|
const UnknownFieldSet& ufs = response_message.unknown_fields(); |
|
if (ufs.field_count() != 4 || ufs.field(0).number() != UNKNOWN_FIELD || |
|
ufs.field(1).number() != UNKNOWN_FIELD || |
|
ufs.field(2).number() != UNKNOWN_FIELD || |
|
ufs.field(3).number() != UNKNOWN_FIELD || |
|
ufs.field(0).type() != UnknownField::Type::TYPE_LENGTH_DELIMITED || |
|
ufs.field(1).type() != UnknownField::Type::TYPE_VARINT || |
|
ufs.field(2).type() != UnknownField::Type::TYPE_LENGTH_DELIMITED || |
|
ufs.field(3).type() != UnknownField::Type::TYPE_VARINT || |
|
ufs.field(0).length_delimited() != "abc" || |
|
ufs.field(1).varint() != 123 || |
|
ufs.field(2).length_delimited() != "def" || |
|
ufs.field(3).varint() != 456) { |
|
suite_.ReportFailure(setting.GetTestName(), setting.GetLevel(), request, |
|
response, "Unknown field mismatch"); |
|
} else { |
|
suite_.ReportSuccess(setting.GetTestName()); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::TestBinaryPerformanceForAlternatingUnknownFields() { |
|
std::string unknown_field_1 = absl::StrCat( |
|
tag(UNKNOWN_FIELD, WireFormatLite::WIRETYPE_VARINT), varint(1234)); |
|
std::string unknown_field_2 = absl::StrCat( |
|
tag(UNKNOWN_FIELD + 1, WireFormatLite::WIRETYPE_VARINT), varint(5678)); |
|
std::string proto; |
|
for (size_t i = 0; i < kPerformanceRepeatCount; i++) { |
|
proto.append(unknown_field_1); |
|
proto.append(unknown_field_2); |
|
} |
|
|
|
RunValidBinaryProtobufTest("TestBinaryPerformanceForAlternatingUnknownFields", |
|
RECOMMENDED, proto); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::Type type) { |
|
const std::string type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(type))); |
|
int field_number = GetFieldForType(type, true, Packed::kFalse)->number(); |
|
std::string rep_field_proto = absl::StrCat( |
|
tag(field_number, WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(type))), |
|
GetNonDefaultValue(type)); |
|
|
|
RunBinaryPerformanceMergeMessageWithField( |
|
absl::StrCat("TestBinaryPerformanceMergeMessageWithRepeatedFieldForType", |
|
type_name), |
|
rep_field_proto); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::Type type) { |
|
const std::string type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(type))); |
|
std::string unknown_field_proto = absl::StrCat( |
|
tag(UNKNOWN_FIELD, WireFormatLite::WireTypeForFieldType( |
|
static_cast<WireFormatLite::FieldType>(type))), |
|
GetNonDefaultValue(type)); |
|
RunBinaryPerformanceMergeMessageWithField( |
|
absl::StrCat("TestBinaryPerformanceMergeMessageWithUnknownFieldForType", |
|
type_name), |
|
unknown_field_proto); |
|
} |
|
|
|
template <typename MessageType> |
|
BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
|
BinaryAndJsonConformanceSuiteImpl(BinaryAndJsonConformanceSuite* suite, |
|
bool run_proto3_tests) |
|
: suite_(*ABSL_DIE_IF_NULL(suite)), run_proto3_tests_(run_proto3_tests) { |
|
suite_.SetTypeUrl(GetTypeUrl(MessageType::GetDescriptor())); |
|
RunAllTests(); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunAllTests() { |
|
if (!suite_.performance_) { |
|
for (int i = 1; i <= FieldDescriptor::MAX_TYPE; i++) { |
|
if (i == FieldDescriptor::TYPE_GROUP) continue; |
|
TestPrematureEOFForType(static_cast<FieldDescriptor::Type>(i)); |
|
} |
|
|
|
TestIllegalTags(); |
|
|
|
int64_t kInt64Min = -9223372036854775808ULL; |
|
int64_t kInt64Max = 9223372036854775807ULL; |
|
uint64_t kUint64Max = 18446744073709551615ULL; |
|
int32_t kInt32Max = 2147483647; |
|
int32_t kInt32Min = -2147483648; |
|
uint32_t kUint32Max = 4294967295UL; |
|
|
|
TestValidDataForType( |
|
FieldDescriptor::TYPE_DOUBLE, |
|
{ |
|
{dbl(0), dbl(0)}, |
|
{dbl(0.1), dbl(0.1)}, |
|
{dbl(1.7976931348623157e+308), dbl(1.7976931348623157e+308)}, |
|
{dbl(2.22507385850720138309e-308), |
|
dbl(2.22507385850720138309e-308)}, |
|
}); |
|
TestValidDataForType( |
|
FieldDescriptor::TYPE_FLOAT, |
|
{ |
|
{flt(0), flt(0)}, |
|
{flt(0.1), flt(0.1)}, |
|
{flt(1.00000075e-36), flt(1.00000075e-36)}, |
|
{flt(3.402823e+38), flt(3.402823e+38)}, // 3.40282347e+38 |
|
{flt(1.17549435e-38f), flt(1.17549435e-38)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_INT64, |
|
{ |
|
{varint(0), varint(0)}, |
|
{varint(12345), varint(12345)}, |
|
{varint(kInt64Max), varint(kInt64Max)}, |
|
{varint(kInt64Min), varint(kInt64Min)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_UINT64, |
|
{ |
|
{varint(0), varint(0)}, |
|
{varint(12345), varint(12345)}, |
|
{varint(kUint64Max), varint(kUint64Max)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_INT32, |
|
{ |
|
{varint(0), varint(0)}, |
|
{varint(12345), varint(12345)}, |
|
{longvarint(12345, 2), varint(12345)}, |
|
{longvarint(12345, 7), varint(12345)}, |
|
{varint(kInt32Max), varint(kInt32Max)}, |
|
{varint(kInt32Min), varint(kInt32Min)}, |
|
{varint(1LL << 33), varint(0)}, |
|
{varint((1LL << 33) - 1), varint(-1)}, |
|
{varint(kInt64Max), varint(-1)}, |
|
{varint(kInt64Min + 1), varint(1)}, |
|
}); |
|
TestValidDataForType( |
|
FieldDescriptor::TYPE_UINT32, |
|
{ |
|
{varint(0), varint(0)}, |
|
{varint(12345), varint(12345)}, |
|
{longvarint(12345, 2), varint(12345)}, |
|
{longvarint(12345, 7), varint(12345)}, |
|
{varint(kUint32Max), varint(kUint32Max)}, // UINT32_MAX |
|
{varint(1LL << 33), varint(0)}, |
|
{varint((1LL << 33) + 1), varint(1)}, |
|
{varint((1LL << 33) - 1), varint((1LL << 32) - 1)}, |
|
{varint(kInt64Max), varint((1LL << 32) - 1)}, |
|
{varint(kInt64Min + 1), varint(1)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_FIXED64, |
|
{ |
|
{u64(0), u64(0)}, |
|
{u64(12345), u64(12345)}, |
|
{u64(kUint64Max), u64(kUint64Max)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_FIXED32, |
|
{ |
|
{u32(0), u32(0)}, |
|
{u32(12345), u32(12345)}, |
|
{u32(kUint32Max), u32(kUint32Max)}, // UINT32_MAX |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_SFIXED64, |
|
{ |
|
{u64(0), u64(0)}, |
|
{u64(12345), u64(12345)}, |
|
{u64(kInt64Max), u64(kInt64Max)}, |
|
{u64(kInt64Min), u64(kInt64Min)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_SFIXED32, |
|
{ |
|
{u32(0), u32(0)}, |
|
{u32(12345), u32(12345)}, |
|
{u32(kInt32Max), u32(kInt32Max)}, |
|
{u32(kInt32Min), u32(kInt32Min)}, |
|
}); |
|
// Bools should be serialized as 0 for false and 1 for true. Parsers should |
|
// also interpret any nonzero value as true. |
|
TestValidDataForType(FieldDescriptor::TYPE_BOOL, |
|
{ |
|
{varint(0), varint(0)}, |
|
{varint(1), varint(1)}, |
|
{varint(-1), varint(1)}, |
|
{varint(12345678), varint(1)}, |
|
{varint(1LL << 33), varint(1)}, |
|
{varint(kInt64Max), varint(1)}, |
|
{varint(kInt64Min), varint(1)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_SINT32, |
|
{ |
|
{zz32(0), zz32(0)}, |
|
{zz32(12345), zz32(12345)}, |
|
{zz32(kInt32Max), zz32(kInt32Max)}, |
|
{zz32(kInt32Min), zz32(kInt32Min)}, |
|
{zz64(kInt32Max + 2LL), zz32(1)}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_SINT64, |
|
{ |
|
{zz64(0), zz64(0)}, |
|
{zz64(12345), zz64(12345)}, |
|
{zz64(kInt64Max), zz64(kInt64Max)}, |
|
{zz64(kInt64Min), zz64(kInt64Min)}, |
|
}); |
|
TestValidDataForType( |
|
FieldDescriptor::TYPE_STRING, |
|
{ |
|
{delim(""), delim("")}, |
|
{delim("Hello world!"), delim("Hello world!")}, |
|
{delim("\'\"\?\\\a\b\f\n\r\t\v"), |
|
delim("\'\"\?\\\a\b\f\n\r\t\v")}, // escape |
|
{delim("谷歌"), delim("谷歌")}, // Google in Chinese |
|
{delim("\u8C37\u6B4C"), delim("谷歌")}, // unicode escape |
|
{delim("\u8c37\u6b4c"), delim("谷歌")}, // lowercase unicode |
|
{delim("\xF0\x9F\x98\x81"), |
|
delim("\xF0\x9F\x98\x81")}, // emoji: 😁 |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_BYTES, |
|
{ |
|
{delim(""), delim("")}, |
|
{delim("Hello world!"), delim("Hello world!")}, |
|
{delim("\x01\x02"), delim("\x01\x02")}, |
|
{delim("\xfb"), delim("\xfb")}, |
|
}); |
|
TestValidDataForType(FieldDescriptor::TYPE_ENUM, |
|
{ |
|
{varint(0), varint(0)}, |
|
{varint(1), varint(1)}, |
|
{varint(2), varint(2)}, |
|
{varint(-1), varint(-1)}, |
|
{varint(kInt64Max), varint(-1)}, |
|
{varint(kInt64Min + 1), varint(1)}, |
|
}); |
|
TestValidDataForRepeatedScalarMessage(); |
|
TestValidDataForType( |
|
FieldDescriptor::TYPE_MESSAGE, |
|
{ |
|
{delim(""), delim("")}, |
|
{delim(absl::StrCat(tag(1, WireFormatLite::WIRETYPE_VARINT), |
|
varint(1234))), |
|
delim(absl::StrCat(tag(1, WireFormatLite::WIRETYPE_VARINT), |
|
varint(1234)))}, |
|
}); |
|
|
|
TestValidDataForMapType(FieldDescriptor::TYPE_INT32, |
|
FieldDescriptor::TYPE_INT32); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_INT64, |
|
FieldDescriptor::TYPE_INT64); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_UINT32, |
|
FieldDescriptor::TYPE_UINT32); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_UINT64, |
|
FieldDescriptor::TYPE_UINT64); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_SINT32, |
|
FieldDescriptor::TYPE_SINT32); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_SINT64, |
|
FieldDescriptor::TYPE_SINT64); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_FIXED32, |
|
FieldDescriptor::TYPE_FIXED32); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_FIXED64, |
|
FieldDescriptor::TYPE_FIXED64); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_SFIXED32, |
|
FieldDescriptor::TYPE_SFIXED32); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_SFIXED64, |
|
FieldDescriptor::TYPE_SFIXED64); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_INT32, |
|
FieldDescriptor::TYPE_FLOAT); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_INT32, |
|
FieldDescriptor::TYPE_DOUBLE); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_BOOL, |
|
FieldDescriptor::TYPE_BOOL); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_STRING, |
|
FieldDescriptor::TYPE_STRING); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_STRING, |
|
FieldDescriptor::TYPE_BYTES); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_STRING, |
|
FieldDescriptor::TYPE_ENUM); |
|
TestValidDataForMapType(FieldDescriptor::TYPE_STRING, |
|
FieldDescriptor::TYPE_MESSAGE); |
|
// Additional test to check overwriting message value map. |
|
TestOverwriteMessageValueMap(); |
|
|
|
TestValidDataForOneofType(FieldDescriptor::TYPE_UINT32); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_BOOL); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_UINT64); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_FLOAT); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_DOUBLE); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_STRING); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_BYTES); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_ENUM); |
|
TestValidDataForOneofType(FieldDescriptor::TYPE_MESSAGE); |
|
// Additional test to check merging oneof message. |
|
TestMergeOneofMessage(); |
|
|
|
// TODO: |
|
// TestValidDataForType(FieldDescriptor::TYPE_GROUP |
|
|
|
// Unknown fields. |
|
// TODO: update this behavior when unknown field's behavior |
|
// changed in open source. Also delete |
|
// Required.Proto3.ProtobufInput.UnknownVarint.ProtobufOutput |
|
// from failure list of python_cpp python java |
|
TestUnknownMessage(); |
|
TestUnknownOrdering(); |
|
TestOneofMessage(); |
|
|
|
RunJsonTests(); |
|
} |
|
// Flag control performance tests to keep them internal and opt-in only |
|
if (suite_.performance_) { |
|
RunBinaryPerformanceTests(); |
|
RunJsonPerformanceTests(); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunBinaryPerformanceTests() { |
|
TestBinaryPerformanceForAlternatingUnknownFields(); |
|
|
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_BOOL); |
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_DOUBLE); |
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_FLOAT); |
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_UINT32); |
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_UINT64); |
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_STRING); |
|
TestBinaryPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_BYTES); |
|
|
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::TYPE_BOOL); |
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::TYPE_DOUBLE); |
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::TYPE_FLOAT); |
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::TYPE_UINT32); |
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::TYPE_UINT64); |
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::TYPE_STRING); |
|
TestBinaryPerformanceMergeMessageWithUnknownFieldForType( |
|
FieldDescriptor::TYPE_BYTES); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunJsonPerformanceTests() { |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_BOOL, "true"); |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_DOUBLE, "123"); |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_FLOAT, "123"); |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_UINT32, "123"); |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_UINT64, "123"); |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_STRING, "\"foo\""); |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::TYPE_BYTES, "\"foo\""); |
|
} |
|
|
|
// This is currently considered valid input by some languages but not others |
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>:: |
|
TestJsonPerformanceMergeMessageWithRepeatedFieldForType( |
|
FieldDescriptor::Type type, std::string field_value) { |
|
const std::string type_name = |
|
UpperCase(absl::StrCat(".", FieldDescriptor::TypeName(type))); |
|
const FieldDescriptor* field = GetFieldForType(type, true, Packed::kFalse); |
|
std::string field_name = field->name(); |
|
|
|
std::string message_field = |
|
absl::StrCat("\"", field_name, "\": [", field_value, "]"); |
|
std::string recursive_message = |
|
absl::StrCat("\"recursive_message\": { ", message_field, "}"); |
|
std::string input = absl::StrCat("{", recursive_message); |
|
for (size_t i = 1; i < kPerformanceRepeatCount; i++) { |
|
absl::StrAppend(&input, ",", recursive_message); |
|
} |
|
absl::StrAppend(&input, "}"); |
|
|
|
std::string textproto_message_field = |
|
absl::StrCat(field_name, ": ", field_value); |
|
std::string expected_textproto = "recursive_message { "; |
|
for (size_t i = 0; i < kPerformanceRepeatCount; i++) { |
|
absl::StrAppend(&expected_textproto, textproto_message_field, " "); |
|
} |
|
absl::StrAppend(&expected_textproto, "}"); |
|
RunValidJsonTest( |
|
absl::StrCat("TestJsonPerformanceMergeMessageWithRepeatedFieldForType", |
|
type_name), |
|
RECOMMENDED, input, expected_textproto); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunJsonTests() { |
|
RunValidJsonTest("HelloWorld", REQUIRED, |
|
"{\"optionalString\":\"Hello, World!\"}", |
|
"optional_string: 'Hello, World!'"); |
|
|
|
// NOTE: The spec for JSON support is still being sorted out, these may not |
|
// all be correct. |
|
RunJsonTestsForFieldNameConvention(); |
|
RunJsonTestsForNonRepeatedTypes(); |
|
RunJsonTestsForRepeatedTypes(); |
|
RunJsonTestsForNullTypes(); |
|
|
|
if (run_proto3_tests_) { |
|
RunJsonTestsForWrapperTypes(); |
|
RunJsonTestsForFieldMask(); |
|
RunJsonTestsForStruct(); |
|
RunJsonTestsForValue(); |
|
RunJsonTestsForAny(); |
|
} else { |
|
// Currently Proto2 only, but should also be run on Proto3-optional. |
|
RunJsonTestsForStoresDefaultPrimitive(); |
|
} |
|
|
|
RunJsonTestsForUnknownEnumStringValues(); |
|
|
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownJsonNumber", REQUIRED, |
|
R"({"unknown": 1})", ""); |
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownJsonString", REQUIRED, |
|
R"({"unknown": "a"})", ""); |
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownJsonTrue", REQUIRED, |
|
R"({"unknown": true})", ""); |
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownJsonFalse", REQUIRED, |
|
R"({"unknown": false})", ""); |
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownJsonNull", REQUIRED, |
|
R"({"unknown": null})", ""); |
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownJsonObject", REQUIRED, |
|
R"({"unknown": {"a": 1}})", ""); |
|
|
|
ExpectParseFailureForJson("RejectTopLevelNull", REQUIRED, "null"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForStoresDefaultPrimitive() { |
|
RunValidJsonTestWithValidator( |
|
"StoresDefaultPrimitive", REQUIRED, |
|
R"({ |
|
"FieldName13": 0 |
|
})", |
|
[](const Json::Value& value) { return value.isMember("FieldName13"); }); |
|
std::vector<const FieldDescriptor*> extensions; |
|
MessageType::GetDescriptor()->file()->pool()->FindAllExtensions( |
|
MessageType::GetDescriptor(), &extensions); |
|
RunValidJsonTestWithValidator("FieldNameExtension", RECOMMENDED, |
|
absl::Substitute(R"({ |
|
"[$0]": 1 |
|
})", |
|
extensions[0]->full_name()), |
|
[&](const Json::Value& value) { |
|
return value.isMember(absl::StrCat( |
|
"[", extensions[0]->full_name(), "]")); |
|
}); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForUnknownEnumStringValues() { |
|
// Tests the handling of unknown enum values when encoded as string labels. |
|
// The expected behavior depends on whether unknown fields are ignored: |
|
// * when ignored, the parser should ignore the unknown enum string value. |
|
// * when not ignored, the parser should fail. |
|
struct TestCase { |
|
// Used in the test name. |
|
std::string enum_location; |
|
// JSON input which will contain the unknown field. |
|
std::string input_json; |
|
}; |
|
const std::vector<TestCase> test_cases = { |
|
{"InOptionalField", R"json({ |
|
"optional_nested_enum": "UNKNOWN_ENUM_VALUE" |
|
})json"}, |
|
{"InRepeatedField", R"json({ |
|
"repeated_nested_enum": ["UNKNOWN_ENUM_VALUE"] |
|
})json"}, |
|
{"InMapValue", R"json({ |
|
"map_string_nested_enum": {"key": "UNKNOWN_ENUM_VALUE"} |
|
})json"}, |
|
}; |
|
for (const TestCase& test_case : test_cases) { |
|
// Unknown enum string value is a parse failure when not ignoring unknown |
|
// fields. |
|
ExpectParseFailureForJson( |
|
absl::StrCat("RejectUnknownEnumStringValue", test_case.enum_location), |
|
RECOMMENDED, test_case.input_json); |
|
// Unknown enum string value is ignored when ignoring unknown fields. |
|
RunValidJsonIgnoreUnknownTest( |
|
absl::StrCat("IgnoreUnknownEnumStringValue", test_case.enum_location), |
|
RECOMMENDED, test_case.input_json, ""); |
|
} |
|
|
|
// This test is similar to "InRepeatedField" from above, but it highlights the |
|
// potentially unexpected behavior in an array with mixed known and unknown |
|
// enum string values. |
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownEnumStringValueInRepeatedPart", |
|
RECOMMENDED, |
|
R"json({ |
|
"repeated_nested_enum": [ |
|
"FOO", |
|
"UNKNOWN_ENUM_VALUE", |
|
"FOO" |
|
]})json", |
|
R"( |
|
repeated_nested_enum: FOO |
|
repeated_nested_enum: FOO |
|
)"); |
|
|
|
// This test is similar to "InMapValue" from above with mixture of known and |
|
// unknown enum string values in the map. |
|
RunValidJsonIgnoreUnknownTest("IgnoreUnknownEnumStringValueInMapPart", |
|
RECOMMENDED, |
|
R"json({ |
|
"map_string_nested_enum": { |
|
"key1": "FOO", |
|
"key2": "UNKNOWN_ENUM_VALUE" |
|
}})json", |
|
R"( |
|
map_string_nested_enum: { |
|
key: "key1" |
|
value: FOO |
|
} |
|
)"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForFieldNameConvention() { |
|
RunValidJsonTest("FieldNameInSnakeCase", REQUIRED, |
|
R"({ |
|
"fieldname1": 1, |
|
"fieldName2": 2, |
|
"FieldName3": 3, |
|
"fieldName4": 4 |
|
})", |
|
R"( |
|
fieldname1: 1 |
|
field_name2: 2 |
|
_field_name3: 3 |
|
field__name4_: 4 |
|
)"); |
|
RunValidJsonTest("FieldNameWithNumbers", REQUIRED, |
|
R"({ |
|
"field0name5": 5, |
|
"field0Name6": 6 |
|
})", |
|
R"( |
|
field0name5: 5 |
|
field_0_name6: 6 |
|
)"); |
|
RunValidJsonTest("FieldNameWithMixedCases", REQUIRED, |
|
R"({ |
|
"fieldName7": 7, |
|
"FieldName8": 8, |
|
"fieldName9": 9, |
|
"FieldName10": 10, |
|
"FIELDNAME11": 11, |
|
"FIELDName12": 12 |
|
})", |
|
R"( |
|
fieldName7: 7 |
|
FieldName8: 8 |
|
field_Name9: 9 |
|
Field_Name10: 10 |
|
FIELD_NAME11: 11 |
|
FIELD_name12: 12 |
|
)"); |
|
RunValidJsonTest("FieldNameWithDoubleUnderscores", RECOMMENDED, |
|
R"({ |
|
"FieldName13": 13, |
|
"FieldName14": 14, |
|
"fieldName15": 15, |
|
"fieldName16": 16, |
|
"fieldName17": 17, |
|
"FieldName18": 18 |
|
})", |
|
R"( |
|
__field_name13: 13 |
|
__Field_name14: 14 |
|
field__name15: 15 |
|
field__Name16: 16 |
|
field_name17__: 17 |
|
Field_name18__: 18 |
|
)"); |
|
// Using the original proto field name in JSON is also allowed. |
|
RunValidJsonTest("OriginalProtoFieldName", REQUIRED, |
|
R"({ |
|
"fieldname1": 1, |
|
"field_name2": 2, |
|
"_field_name3": 3, |
|
"field__name4_": 4, |
|
"field0name5": 5, |
|
"field_0_name6": 6, |
|
"fieldName7": 7, |
|
"FieldName8": 8, |
|
"field_Name9": 9, |
|
"Field_Name10": 10, |
|
"FIELD_NAME11": 11, |
|
"FIELD_name12": 12, |
|
"__field_name13": 13, |
|
"__Field_name14": 14, |
|
"field__name15": 15, |
|
"field__Name16": 16, |
|
"field_name17__": 17, |
|
"Field_name18__": 18 |
|
})", |
|
R"( |
|
fieldname1: 1 |
|
field_name2: 2 |
|
_field_name3: 3 |
|
field__name4_: 4 |
|
field0name5: 5 |
|
field_0_name6: 6 |
|
fieldName7: 7 |
|
FieldName8: 8 |
|
field_Name9: 9 |
|
Field_Name10: 10 |
|
FIELD_NAME11: 11 |
|
FIELD_name12: 12 |
|
__field_name13: 13 |
|
__Field_name14: 14 |
|
field__name15: 15 |
|
field__Name16: 16 |
|
field_name17__: 17 |
|
Field_name18__: 18 |
|
)"); |
|
// Field names can be escaped. |
|
RunValidJsonTest("FieldNameEscaped", REQUIRED, R"({"fieldn\u0061me1": 1})", |
|
"fieldname1: 1"); |
|
// String ends with escape character. |
|
ExpectParseFailureForJson("StringEndsWithEscapeChar", RECOMMENDED, |
|
"{\"optionalString\": \"abc\\"); |
|
// Field names must be quoted (or it's not valid JSON). |
|
ExpectParseFailureForJson("FieldNameNotQuoted", RECOMMENDED, |
|
"{fieldname1: 1}"); |
|
// Trailing comma is not allowed (not valid JSON). |
|
ExpectParseFailureForJson("TrailingCommaInAnObject", RECOMMENDED, |
|
R"({"fieldname1":1,})"); |
|
ExpectParseFailureForJson("TrailingCommaInAnObjectWithSpace", RECOMMENDED, |
|
R"({"fieldname1":1 ,})"); |
|
ExpectParseFailureForJson("TrailingCommaInAnObjectWithSpaceCommaSpace", |
|
RECOMMENDED, R"({"fieldname1":1 , })"); |
|
ExpectParseFailureForJson("TrailingCommaInAnObjectWithNewlines", RECOMMENDED, |
|
R"({ |
|
"fieldname1":1, |
|
})"); |
|
// JSON doesn't support comments. |
|
ExpectParseFailureForJson("JsonWithComments", RECOMMENDED, |
|
R"({ |
|
// This is a comment. |
|
"fieldname1": 1 |
|
})"); |
|
// JSON spec says whitespace doesn't matter, so try a few spacings to be sure. |
|
RunValidJsonTest("OneLineNoSpaces", RECOMMENDED, |
|
"{\"optionalInt32\":1,\"optionalInt64\":2}", |
|
R"( |
|
optional_int32: 1 |
|
optional_int64: 2 |
|
)"); |
|
RunValidJsonTest("OneLineWithSpaces", RECOMMENDED, |
|
"{ \"optionalInt32\" : 1 , \"optionalInt64\" : 2 }", |
|
R"( |
|
optional_int32: 1 |
|
optional_int64: 2 |
|
)"); |
|
RunValidJsonTest("MultilineNoSpaces", RECOMMENDED, |
|
"{\n\"optionalInt32\"\n:\n1\n,\n\"optionalInt64\"\n:\n2\n}", |
|
R"( |
|
optional_int32: 1 |
|
optional_int64: 2 |
|
)"); |
|
RunValidJsonTest( |
|
"MultilineWithSpaces", RECOMMENDED, |
|
"{\n \"optionalInt32\" : 1\n ,\n \"optionalInt64\" : 2\n}\n", |
|
R"( |
|
optional_int32: 1 |
|
optional_int64: 2 |
|
)"); |
|
// Missing comma between key/value pairs. |
|
ExpectParseFailureForJson("MissingCommaOneLine", RECOMMENDED, |
|
"{ \"optionalInt32\": 1 \"optionalInt64\": 2 }"); |
|
ExpectParseFailureForJson( |
|
"MissingCommaMultiline", RECOMMENDED, |
|
"{\n \"optionalInt32\": 1\n \"optionalInt64\": 2\n}"); |
|
// Duplicated field names are not allowed. |
|
ExpectParseFailureForJson("FieldNameDuplicate", RECOMMENDED, |
|
R"({ |
|
"optionalNestedMessage": {a: 1}, |
|
"optionalNestedMessage": {} |
|
})"); |
|
ExpectParseFailureForJson("FieldNameDuplicateDifferentCasing1", RECOMMENDED, |
|
R"({ |
|
"optional_nested_message": {a: 1}, |
|
"optionalNestedMessage": {} |
|
})"); |
|
ExpectParseFailureForJson("FieldNameDuplicateDifferentCasing2", RECOMMENDED, |
|
R"({ |
|
"optionalNestedMessage": {a: 1}, |
|
"optional_nested_message": {} |
|
})"); |
|
// Serializers should use lowerCamelCase by default. |
|
RunValidJsonTestWithValidator("FieldNameInLowerCamelCase", REQUIRED, |
|
R"({ |
|
"fieldname1": 1, |
|
"fieldName2": 2, |
|
"FieldName3": 3, |
|
"fieldName4": 4 |
|
})", |
|
[](const Json::Value& value) { |
|
return value.isMember("fieldname1") && |
|
value.isMember("fieldName2") && |
|
value.isMember("FieldName3") && |
|
value.isMember("fieldName4"); |
|
}); |
|
RunValidJsonTestWithValidator("FieldNameWithNumbers", REQUIRED, |
|
R"({ |
|
"field0name5": 5, |
|
"field0Name6": 6 |
|
})", |
|
[](const Json::Value& value) { |
|
return value.isMember("field0name5") && |
|
value.isMember("field0Name6"); |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"FieldNameWithMixedCases", REQUIRED, |
|
R"({ |
|
"fieldName7": 7, |
|
"FieldName8": 8, |
|
"fieldName9": 9, |
|
"FieldName10": 10, |
|
"FIELDNAME11": 11, |
|
"FIELDName12": 12 |
|
})", |
|
[](const Json::Value& value) { |
|
return value.isMember("fieldName7") && value.isMember("FieldName8") && |
|
value.isMember("fieldName9") && value.isMember("FieldName10") && |
|
value.isMember("FIELDNAME11") && value.isMember("FIELDName12"); |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"FieldNameWithDoubleUnderscores", RECOMMENDED, |
|
R"({ |
|
"FieldName13": 13, |
|
"FieldName14": 14, |
|
"fieldName15": 15, |
|
"fieldName16": 16, |
|
"fieldName17": 17, |
|
"FieldName18": 18 |
|
})", |
|
[](const Json::Value& value) { |
|
return value.isMember("FieldName13") && value.isMember("FieldName14") && |
|
value.isMember("fieldName15") && value.isMember("fieldName16") && |
|
value.isMember("fieldName17") && value.isMember("FieldName18"); |
|
}); |
|
|
|
if (run_proto3_tests_) { |
|
RunValidJsonTestWithValidator("SkipsDefaultPrimitive", REQUIRED, |
|
R"({"FieldName13": 0})", |
|
[](const Json::Value& value) { |
|
return !value.isMember("FieldName13"); |
|
}); |
|
} |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForNonRepeatedTypes() { |
|
// Integer fields. |
|
RunValidJsonTest("Int32FieldMaxValue", REQUIRED, |
|
R"({"optionalInt32": 2147483647})", |
|
"optional_int32: 2147483647"); |
|
RunValidJsonTest("Int32FieldMinValue", REQUIRED, |
|
R"({"optionalInt32": -2147483648})", |
|
"optional_int32: -2147483648"); |
|
RunValidJsonTest("Uint32FieldMaxValue", REQUIRED, |
|
R"({"optionalUint32": 4294967295})", |
|
"optional_uint32: 4294967295"); |
|
RunValidJsonTest("Int64FieldMaxValue", REQUIRED, |
|
R"({"optionalInt64": "9223372036854775807"})", |
|
"optional_int64: 9223372036854775807"); |
|
RunValidJsonTest("Int64FieldMinValue", REQUIRED, |
|
R"({"optionalInt64": "-9223372036854775808"})", |
|
"optional_int64: -9223372036854775808"); |
|
RunValidJsonTest("Uint64FieldMaxValue", REQUIRED, |
|
R"({"optionalUint64": "18446744073709551615"})", |
|
"optional_uint64: 18446744073709551615"); |
|
// While not the largest Int64, this is the largest |
|
// Int64 which can be exactly represented within an |
|
// IEEE-754 64-bit float, which is the expected level |
|
// of interoperability guarantee. Larger values may |
|
// work in some implementations, but should not be |
|
// relied upon. |
|
RunValidJsonTest("Int64FieldMaxValueNotQuoted", REQUIRED, |
|
R"({"optionalInt64": 9223372036854774784})", |
|
"optional_int64: 9223372036854774784"); |
|
RunValidJsonTest("Int64FieldMinValueNotQuoted", REQUIRED, |
|
R"({"optionalInt64": -9223372036854775808})", |
|
"optional_int64: -9223372036854775808"); |
|
// Largest interoperable Uint64; see comment above |
|
// for Int64FieldMaxValueNotQuoted. |
|
RunValidJsonTest("Uint64FieldMaxValueNotQuoted", REQUIRED, |
|
R"({"optionalUint64": 18446744073709549568})", |
|
"optional_uint64: 18446744073709549568"); |
|
// Values can be represented as JSON strings. |
|
RunValidJsonTest("Int32FieldStringValue", REQUIRED, |
|
R"({"optionalInt32": "2147483647"})", |
|
"optional_int32: 2147483647"); |
|
RunValidJsonTest("Int32FieldStringValueEscaped", REQUIRED, |
|
R"({"optionalInt32": "2\u003147483647"})", |
|
"optional_int32: 2147483647"); |
|
|
|
// Parsers reject out-of-bound integer values. |
|
ExpectParseFailureForJson("Int32FieldTooLarge", REQUIRED, |
|
R"({"optionalInt32": 2147483648})"); |
|
ExpectParseFailureForJson("Int32FieldTooSmall", REQUIRED, |
|
R"({"optionalInt32": -2147483649})"); |
|
ExpectParseFailureForJson("Uint32FieldTooLarge", REQUIRED, |
|
R"({"optionalUint32": 4294967296})"); |
|
ExpectParseFailureForJson("Int64FieldTooLarge", REQUIRED, |
|
R"({"optionalInt64": "9223372036854775808"})"); |
|
ExpectParseFailureForJson("Int64FieldTooSmall", REQUIRED, |
|
R"({"optionalInt64": "-9223372036854775809"})"); |
|
ExpectParseFailureForJson("Uint64FieldTooLarge", REQUIRED, |
|
R"({"optionalUint64": "18446744073709551616"})"); |
|
// Parser reject non-integer numeric values as well. |
|
ExpectParseFailureForJson("Int32FieldNotInteger", REQUIRED, |
|
R"({"optionalInt32": 0.5})"); |
|
ExpectParseFailureForJson("Uint32FieldNotInteger", REQUIRED, |
|
R"({"optionalUint32": 0.5})"); |
|
ExpectParseFailureForJson("Int64FieldNotInteger", REQUIRED, |
|
R"({"optionalInt64": "0.5"})"); |
|
ExpectParseFailureForJson("Uint64FieldNotInteger", REQUIRED, |
|
R"({"optionalUint64": "0.5"})"); |
|
|
|
// Integers but represented as float values are accepted. |
|
RunValidJsonTest("Int32FieldFloatTrailingZero", REQUIRED, |
|
R"({"optionalInt32": 100000.000})", |
|
"optional_int32: 100000"); |
|
RunValidJsonTest("Int32FieldExponentialFormat", REQUIRED, |
|
R"({"optionalInt32": 1e5})", "optional_int32: 100000"); |
|
RunValidJsonTest("Int32FieldMaxFloatValue", REQUIRED, |
|
R"({"optionalInt32": 2.147483647e9})", |
|
"optional_int32: 2147483647"); |
|
RunValidJsonTest("Int32FieldMinFloatValue", REQUIRED, |
|
R"({"optionalInt32": -2.147483648e9})", |
|
"optional_int32: -2147483648"); |
|
RunValidJsonTest("Uint32FieldMaxFloatValue", REQUIRED, |
|
R"({"optionalUint32": 4.294967295e9})", |
|
"optional_uint32: 4294967295"); |
|
|
|
// Parser reject non-numeric values. |
|
ExpectParseFailureForJson("Int32FieldNotNumber", REQUIRED, |
|
R"({"optionalInt32": "3x3"})"); |
|
ExpectParseFailureForJson("Uint32FieldNotNumber", REQUIRED, |
|
R"({"optionalUint32": "3x3"})"); |
|
ExpectParseFailureForJson("Int64FieldNotNumber", REQUIRED, |
|
R"({"optionalInt64": "3x3"})"); |
|
ExpectParseFailureForJson("Uint64FieldNotNumber", REQUIRED, |
|
R"({"optionalUint64": "3x3"})"); |
|
// JSON does not allow "+" on numeric values. |
|
ExpectParseFailureForJson("Int32FieldPlusSign", REQUIRED, |
|
R"({"optionalInt32": +1})"); |
|
// JSON doesn't allow leading 0s. |
|
ExpectParseFailureForJson("Int32FieldLeadingZero", REQUIRED, |
|
R"({"optionalInt32": 01})"); |
|
ExpectParseFailureForJson("Int32FieldNegativeWithLeadingZero", REQUIRED, |
|
R"({"optionalInt32": -01})"); |
|
// String values must follow the same syntax rule. Specifically leading |
|
// or trailing spaces are not allowed. |
|
ExpectParseFailureForJson("Int32FieldLeadingSpace", REQUIRED, |
|
R"({"optionalInt32": " 1"})"); |
|
ExpectParseFailureForJson("Int32FieldTrailingSpace", REQUIRED, |
|
R"({"optionalInt32": "1 "})"); |
|
|
|
// 64-bit values are serialized as strings. |
|
RunValidJsonTestWithValidator( |
|
"Int64FieldBeString", RECOMMENDED, R"({"optionalInt64": 1})", |
|
[](const Json::Value& value) { |
|
return value["optionalInt64"].type() == Json::stringValue && |
|
value["optionalInt64"].asString() == "1"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"Uint64FieldBeString", RECOMMENDED, R"({"optionalUint64": 1})", |
|
[](const Json::Value& value) { |
|
return value["optionalUint64"].type() == Json::stringValue && |
|
value["optionalUint64"].asString() == "1"; |
|
}); |
|
|
|
// Bool fields. |
|
RunValidJsonTest("BoolFieldTrue", REQUIRED, R"({"optionalBool":true})", |
|
"optional_bool: true"); |
|
RunValidJsonTest("BoolFieldFalse", REQUIRED, R"({"optionalBool":false})", |
|
"optional_bool: false"); |
|
|
|
// Other forms are not allowed. |
|
ExpectParseFailureForJson("BoolFieldIntegerZero", RECOMMENDED, |
|
R"({"optionalBool":0})"); |
|
ExpectParseFailureForJson("BoolFieldIntegerOne", RECOMMENDED, |
|
R"({"optionalBool":1})"); |
|
ExpectParseFailureForJson("BoolFieldCamelCaseTrue", RECOMMENDED, |
|
R"({"optionalBool":True})"); |
|
ExpectParseFailureForJson("BoolFieldCamelCaseFalse", RECOMMENDED, |
|
R"({"optionalBool":False})"); |
|
ExpectParseFailureForJson("BoolFieldAllCapitalTrue", RECOMMENDED, |
|
R"({"optionalBool":TRUE})"); |
|
ExpectParseFailureForJson("BoolFieldAllCapitalFalse", RECOMMENDED, |
|
R"({"optionalBool":FALSE})"); |
|
ExpectParseFailureForJson("BoolFieldDoubleQuotedTrue", RECOMMENDED, |
|
R"({"optionalBool":"true"})"); |
|
ExpectParseFailureForJson("BoolFieldDoubleQuotedFalse", RECOMMENDED, |
|
R"({"optionalBool":"false"})"); |
|
|
|
// Float fields. |
|
RunValidJsonTest("FloatFieldMinPositiveValue", REQUIRED, |
|
R"({"optionalFloat": 1.175494e-38})", |
|
"optional_float: 1.175494e-38"); |
|
RunValidJsonTest("FloatFieldMaxNegativeValue", REQUIRED, |
|
R"({"optionalFloat": -1.175494e-38})", |
|
"optional_float: -1.175494e-38"); |
|
RunValidJsonTest("FloatFieldMaxPositiveValue", REQUIRED, |
|
R"({"optionalFloat": 3.402823e+38})", |
|
"optional_float: 3.402823e+38"); |
|
RunValidJsonTest("FloatFieldMinNegativeValue", REQUIRED, |
|
R"({"optionalFloat": 3.402823e+38})", |
|
"optional_float: 3.402823e+38"); |
|
// Values can be quoted. |
|
RunValidJsonTest("FloatFieldQuotedValue", REQUIRED, |
|
R"({"optionalFloat": "1"})", "optional_float: 1"); |
|
// Special values. |
|
RunValidJsonTest("FloatFieldNan", REQUIRED, R"({"optionalFloat": "NaN"})", |
|
"optional_float: nan"); |
|
RunValidJsonTest("FloatFieldInfinity", REQUIRED, |
|
R"({"optionalFloat": "Infinity"})", "optional_float: inf"); |
|
RunValidJsonTest("FloatFieldNegativeInfinity", REQUIRED, |
|
R"({"optionalFloat": "-Infinity"})", "optional_float: -inf"); |
|
// Non-canonical Nan will be correctly normalized. |
|
{ |
|
MessageType message; |
|
// IEEE floating-point standard 32-bit quiet NaN: |
|
// 0111 1111 1xxx xxxx xxxx xxxx xxxx xxxx |
|
message.set_optional_float(WireFormatLite::DecodeFloat(0x7FA12345)); |
|
RunValidJsonTestWithProtobufInput("FloatFieldNormalizeQuietNan", REQUIRED, |
|
message, "optional_float: nan"); |
|
// IEEE floating-point standard 64-bit signaling NaN: |
|
// 1111 1111 1xxx xxxx xxxx xxxx xxxx xxxx |
|
message.set_optional_float(WireFormatLite::DecodeFloat(0xFFB54321)); |
|
RunValidJsonTestWithProtobufInput("FloatFieldNormalizeSignalingNan", |
|
REQUIRED, message, "optional_float: nan"); |
|
} |
|
|
|
// Special values must be quoted. |
|
ExpectParseFailureForJson("FloatFieldNanNotQuoted", RECOMMENDED, |
|
R"({"optionalFloat": NaN})"); |
|
ExpectParseFailureForJson("FloatFieldInfinityNotQuoted", RECOMMENDED, |
|
R"({"optionalFloat": Infinity})"); |
|
ExpectParseFailureForJson("FloatFieldNegativeInfinityNotQuoted", RECOMMENDED, |
|
R"({"optionalFloat": -Infinity})"); |
|
// Parsers should reject out-of-bound values. |
|
ExpectParseFailureForJson("FloatFieldTooSmall", REQUIRED, |
|
R"({"optionalFloat": -3.502823e+38})"); |
|
ExpectParseFailureForJson("FloatFieldTooLarge", REQUIRED, |
|
R"({"optionalFloat": 3.502823e+38})"); |
|
|
|
// Double fields. |
|
RunValidJsonTest("DoubleFieldMinPositiveValue", REQUIRED, |
|
R"({"optionalDouble": 2.22507e-308})", |
|
"optional_double: 2.22507e-308"); |
|
RunValidJsonTest("DoubleFieldMaxNegativeValue", REQUIRED, |
|
R"({"optionalDouble": -2.22507e-308})", |
|
"optional_double: -2.22507e-308"); |
|
RunValidJsonTest("DoubleFieldMaxPositiveValue", REQUIRED, |
|
R"({"optionalDouble": 1.79769e+308})", |
|
"optional_double: 1.79769e+308"); |
|
RunValidJsonTest("DoubleFieldMinNegativeValue", REQUIRED, |
|
R"({"optionalDouble": -1.79769e+308})", |
|
"optional_double: -1.79769e+308"); |
|
// Values can be quoted. |
|
RunValidJsonTest("DoubleFieldQuotedValue", REQUIRED, |
|
R"({"optionalDouble": "1"})", "optional_double: 1"); |
|
// Special values. |
|
RunValidJsonTest("DoubleFieldNan", REQUIRED, R"({"optionalDouble": "NaN"})", |
|
"optional_double: nan"); |
|
RunValidJsonTest("DoubleFieldInfinity", REQUIRED, |
|
R"({"optionalDouble": "Infinity"})", "optional_double: inf"); |
|
RunValidJsonTest("DoubleFieldNegativeInfinity", REQUIRED, |
|
R"({"optionalDouble": "-Infinity"})", |
|
"optional_double: -inf"); |
|
// Non-canonical Nan will be correctly normalized. |
|
{ |
|
MessageType message; |
|
message.set_optional_double( |
|
WireFormatLite::DecodeDouble(int64_t{0x7FFA123456789ABC})); |
|
RunValidJsonTestWithProtobufInput("DoubleFieldNormalizeQuietNan", REQUIRED, |
|
message, "optional_double: nan"); |
|
message.set_optional_double( |
|
WireFormatLite::DecodeDouble(uint64_t{0xFFFBCBA987654321})); |
|
RunValidJsonTestWithProtobufInput("DoubleFieldNormalizeSignalingNan", |
|
REQUIRED, message, |
|
"optional_double: nan"); |
|
} |
|
|
|
// Special values must be quoted. |
|
ExpectParseFailureForJson("DoubleFieldNanNotQuoted", RECOMMENDED, |
|
R"({"optionalDouble": NaN})"); |
|
ExpectParseFailureForJson("DoubleFieldInfinityNotQuoted", RECOMMENDED, |
|
R"({"optionalDouble": Infinity})"); |
|
ExpectParseFailureForJson("DoubleFieldNegativeInfinityNotQuoted", RECOMMENDED, |
|
R"({"optionalDouble": -Infinity})"); |
|
|
|
// Parsers should reject out-of-bound values. |
|
ExpectParseFailureForJson("DoubleFieldTooSmall", REQUIRED, |
|
R"({"optionalDouble": -1.89769e+308})"); |
|
ExpectParseFailureForJson("DoubleFieldTooLarge", REQUIRED, |
|
R"({"optionalDouble": +1.89769e+308})"); |
|
|
|
// Enum fields. |
|
RunValidJsonTest("EnumField", REQUIRED, R"({"optionalNestedEnum": "FOO"})", |
|
"optional_nested_enum: FOO"); |
|
|
|
// Enum fields with alias |
|
if (run_proto3_tests_) { |
|
RunValidJsonTest("EnumFieldWithAlias", REQUIRED, |
|
R"({"optionalAliasedEnum": "ALIAS_BAZ"})", |
|
"optional_aliased_enum: ALIAS_BAZ"); |
|
RunValidJsonTest("EnumFieldWithAliasUseAlias", REQUIRED, |
|
R"({"optionalAliasedEnum": "MOO"})", |
|
"optional_aliased_enum: ALIAS_BAZ"); |
|
RunValidJsonTest("EnumFieldWithAliasLowerCase", REQUIRED, |
|
R"({"optionalAliasedEnum": "moo"})", |
|
"optional_aliased_enum: ALIAS_BAZ"); |
|
RunValidJsonTest("EnumFieldWithAliasDifferentCase", REQUIRED, |
|
R"({"optionalAliasedEnum": "bAz"})", |
|
"optional_aliased_enum: ALIAS_BAZ"); |
|
} |
|
|
|
// Enum values must be represented as strings. |
|
ExpectParseFailureForJson("EnumFieldNotQuoted", REQUIRED, |
|
R"({"optionalNestedEnum": FOO})"); |
|
// Numeric values are allowed. |
|
RunValidJsonTest("EnumFieldNumericValueZero", REQUIRED, |
|
R"({"optionalNestedEnum": 0})", "optional_nested_enum: FOO"); |
|
RunValidJsonTest("EnumFieldNumericValueNonZero", REQUIRED, |
|
R"({"optionalNestedEnum": 1})", "optional_nested_enum: BAR"); |
|
|
|
if (run_proto3_tests_) { |
|
// Unknown enum values are represented as numeric values. |
|
RunValidJsonTestWithValidator( |
|
"EnumFieldUnknownValue", REQUIRED, R"({"optionalNestedEnum": 123})", |
|
[](const Json::Value& value) { |
|
return value["optionalNestedEnum"].type() == Json::intValue && |
|
value["optionalNestedEnum"].asInt() == 123; |
|
}); |
|
} |
|
|
|
// String fields. |
|
RunValidJsonTest("StringField", REQUIRED, |
|
R"({"optionalString": "Hello world!"})", |
|
R"(optional_string: "Hello world!")"); |
|
RunValidJsonTest("StringFieldUnicode", REQUIRED, |
|
// Google in Chinese. |
|
R"({"optionalString": "谷歌"})", |
|
R"(optional_string: "谷歌")"); |
|
RunValidJsonTest("StringFieldEscape", REQUIRED, |
|
R"({"optionalString": "\"\\\/\b\f\n\r\t"})", |
|
R"(optional_string: "\"\\/\b\f\n\r\t")"); |
|
RunValidJsonTest("StringFieldUnicodeEscape", REQUIRED, |
|
R"({"optionalString": "\u8C37\u6B4C"})", |
|
R"(optional_string: "谷歌")"); |
|
RunValidJsonTest("StringFieldUnicodeEscapeWithLowercaseHexLetters", REQUIRED, |
|
R"({"optionalString": "\u8c37\u6b4c"})", |
|
R"(optional_string: "谷歌")"); |
|
RunValidJsonTest( |
|
"StringFieldSurrogatePair", REQUIRED, |
|
// The character is an emoji: grinning face with smiling eyes. 😁 |
|
R"({"optionalString": "\uD83D\uDE01"})", |
|
R"(optional_string: "\xF0\x9F\x98\x81")"); |
|
RunValidJsonTest("StringFieldEmbeddedNull", REQUIRED, |
|
R"({"optionalString": "Hello\u0000world!"})", |
|
R"(optional_string: "Hello\000world!")"); |
|
|
|
// Unicode escapes must start with "\u" (lowercase u). |
|
ExpectParseFailureForJson("StringFieldUppercaseEscapeLetter", RECOMMENDED, |
|
R"({"optionalString": "\U8C37\U6b4C"})"); |
|
ExpectParseFailureForJson("StringFieldInvalidEscape", RECOMMENDED, |
|
R"({"optionalString": "\uXXXX\u6B4C"})"); |
|
ExpectParseFailureForJson("StringFieldUnterminatedEscape", RECOMMENDED, |
|
R"({"optionalString": "\u8C3"})"); |
|
ExpectParseFailureForJson("StringFieldUnpairedHighSurrogate", RECOMMENDED, |
|
R"({"optionalString": "\uD800"})"); |
|
ExpectParseFailureForJson("StringFieldUnpairedLowSurrogate", RECOMMENDED, |
|
R"({"optionalString": "\uDC00"})"); |
|
ExpectParseFailureForJson("StringFieldSurrogateInWrongOrder", RECOMMENDED, |
|
R"({"optionalString": "\uDE01\uD83D"})"); |
|
ExpectParseFailureForJson("StringFieldNotAString", REQUIRED, |
|
R"({"optionalString": 12345})"); |
|
|
|
// Bytes fields. |
|
RunValidJsonTest("BytesField", REQUIRED, R"({"optionalBytes": "AQI="})", |
|
R"(optional_bytes: "\x01\x02")"); |
|
RunValidJsonTest("BytesFieldBase64Url", RECOMMENDED, |
|
R"({"optionalBytes": "-_"})", R"(optional_bytes: "\xfb")"); |
|
|
|
// Message fields. |
|
RunValidJsonTest("MessageField", REQUIRED, |
|
R"({"optionalNestedMessage": {"a": 1234}})", |
|
"optional_nested_message: {a: 1234}"); |
|
|
|
// Oneof fields. |
|
ExpectParseFailureForJson("OneofFieldDuplicate", REQUIRED, |
|
R"({"oneofUint32": 1, "oneofString": "test"})"); |
|
RunValidJsonTest("OneofFieldNullFirst", REQUIRED, |
|
R"({"oneofUint32": null, "oneofString": "test"})", |
|
"oneof_string: \"test\""); |
|
RunValidJsonTest("OneofFieldNullSecond", REQUIRED, |
|
R"({"oneofString": "test", "oneofUint32": null})", |
|
"oneof_string: \"test\""); |
|
RunValidJsonTest("OneofZeroUint32", RECOMMENDED, R"({"oneofUint32": 0})", |
|
"oneof_uint32: 0"); |
|
RunValidJsonTest("OneofZeroMessage", RECOMMENDED, |
|
R"({"oneofNestedMessage": {}})", "oneof_nested_message: {}"); |
|
RunValidJsonTest("OneofZeroString", RECOMMENDED, R"({"oneofString": ""})", |
|
"oneof_string: \"\""); |
|
RunValidJsonTest("OneofZeroBytes", RECOMMENDED, R"({"oneofBytes": ""})", |
|
"oneof_bytes: \"\""); |
|
RunValidJsonTest("OneofZeroBool", RECOMMENDED, R"({"oneofBool": false})", |
|
"oneof_bool: false"); |
|
RunValidJsonTest("OneofZeroUint64", RECOMMENDED, R"({"oneofUint64": 0})", |
|
"oneof_uint64: 0"); |
|
RunValidJsonTest("OneofZeroFloat", RECOMMENDED, R"({"oneofFloat": 0.0})", |
|
"oneof_float: 0"); |
|
RunValidJsonTest("OneofZeroDouble", RECOMMENDED, R"({"oneofDouble": 0.0})", |
|
"oneof_double: 0"); |
|
RunValidJsonTest("OneofZeroEnum", RECOMMENDED, R"({"oneofEnum":"FOO"})", |
|
"oneof_enum: FOO"); |
|
|
|
// Map fields. |
|
RunValidJsonTest("Int32MapField", REQUIRED, |
|
R"({"mapInt32Int32": {"1": 2, "3": 4}})", |
|
"map_int32_int32: {key: 1 value: 2}" |
|
"map_int32_int32: {key: 3 value: 4}"); |
|
ExpectParseFailureForJson("Int32MapFieldKeyNotQuoted", RECOMMENDED, |
|
R"({"mapInt32Int32": {1: 2, 3: 4}})"); |
|
RunValidJsonTest("Uint32MapField", REQUIRED, |
|
R"({"mapUint32Uint32": {"1": 2, "3": 4}})", |
|
"map_uint32_uint32: {key: 1 value: 2}" |
|
"map_uint32_uint32: {key: 3 value: 4}"); |
|
ExpectParseFailureForJson("Uint32MapFieldKeyNotQuoted", RECOMMENDED, |
|
R"({"mapUint32Uint32": {1: 2, 3: 4}})"); |
|
RunValidJsonTest("Int64MapField", REQUIRED, |
|
R"({"mapInt64Int64": {"1": 2, "3": 4}})", |
|
"map_int64_int64: {key: 1 value: 2}" |
|
"map_int64_int64: {key: 3 value: 4}"); |
|
ExpectParseFailureForJson("Int64MapFieldKeyNotQuoted", RECOMMENDED, |
|
R"({"mapInt64Int64": {1: 2, 3: 4}})"); |
|
RunValidJsonTest("Uint64MapField", REQUIRED, |
|
R"({"mapUint64Uint64": {"1": 2, "3": 4}})", |
|
"map_uint64_uint64: {key: 1 value: 2}" |
|
"map_uint64_uint64: {key: 3 value: 4}"); |
|
ExpectParseFailureForJson("Uint64MapFieldKeyNotQuoted", RECOMMENDED, |
|
R"({"mapUint64Uint64": {1: 2, 3: 4}})"); |
|
RunValidJsonTest("BoolMapField", REQUIRED, |
|
R"({"mapBoolBool": {"true": true, "false": false}})", |
|
"map_bool_bool: {key: true value: true}" |
|
"map_bool_bool: {key: false value: false}"); |
|
ExpectParseFailureForJson("BoolMapFieldKeyNotQuoted", RECOMMENDED, |
|
R"({"mapBoolBool": {true: true, false: false}})"); |
|
RunValidJsonTest("MessageMapField", REQUIRED, |
|
R"({ |
|
"mapStringNestedMessage": { |
|
"hello": {"a": 1234}, |
|
"world": {"a": 5678} |
|
} |
|
})", |
|
R"( |
|
map_string_nested_message: { |
|
key: "hello" |
|
value: {a: 1234} |
|
} |
|
map_string_nested_message: { |
|
key: "world" |
|
value: {a: 5678} |
|
} |
|
)"); |
|
// Since Map keys are represented as JSON strings, escaping should be allowed. |
|
RunValidJsonTest("Int32MapEscapedKey", REQUIRED, |
|
R"({"mapInt32Int32": {"\u0031": 2}})", |
|
"map_int32_int32: {key: 1 value: 2}"); |
|
RunValidJsonTest("Int64MapEscapedKey", REQUIRED, |
|
R"({"mapInt64Int64": {"\u0031": 2}})", |
|
"map_int64_int64: {key: 1 value: 2}"); |
|
RunValidJsonTest("BoolMapEscapedKey", REQUIRED, |
|
R"({"mapBoolBool": {"tr\u0075e": true}})", |
|
"map_bool_bool: {key: true value: true}"); |
|
|
|
// http://www.rfc-editor.org/rfc/rfc7159.txt says strings have to use double |
|
// quotes. |
|
ExpectParseFailureForJson("StringFieldSingleQuoteKey", RECOMMENDED, |
|
R"({'optionalString': "Hello world!"})"); |
|
ExpectParseFailureForJson("StringFieldSingleQuoteValue", RECOMMENDED, |
|
R"({"optionalString": 'Hello world!'})"); |
|
ExpectParseFailureForJson("StringFieldSingleQuoteBoth", RECOMMENDED, |
|
R"({'optionalString': 'Hello world!'})"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForRepeatedTypes() { |
|
// Repeated fields. |
|
RunValidJsonTest("PrimitiveRepeatedField", REQUIRED, |
|
R"({"repeatedInt32": [1, 2, 3, 4]})", |
|
"repeated_int32: [1, 2, 3, 4]"); |
|
RunValidJsonTest("EnumRepeatedField", REQUIRED, |
|
R"({"repeatedNestedEnum": ["FOO", "BAR", "BAZ"]})", |
|
"repeated_nested_enum: [FOO, BAR, BAZ]"); |
|
RunValidJsonTest("StringRepeatedField", REQUIRED, |
|
R"({"repeatedString": ["Hello", "world"]})", |
|
R"(repeated_string: ["Hello", "world"])"); |
|
RunValidJsonTest("BytesRepeatedField", REQUIRED, |
|
R"({"repeatedBytes": ["AAEC", "AQI="]})", |
|
R"(repeated_bytes: ["\x00\x01\x02", "\x01\x02"])"); |
|
RunValidJsonTest("MessageRepeatedField", REQUIRED, |
|
R"({"repeatedNestedMessage": [{"a": 1234}, {"a": 5678}]})", |
|
"repeated_nested_message: {a: 1234}" |
|
"repeated_nested_message: {a: 5678}"); |
|
|
|
// Repeated field elements are of incorrect type. |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingIntegersGotBool", REQUIRED, |
|
R"({"repeatedInt32": [1, false, 3, 4]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingIntegersGotString", REQUIRED, |
|
R"({"repeatedInt32": [1, 2, "name", 4]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingIntegersGotMessage", REQUIRED, |
|
R"({"repeatedInt32": [1, 2, 3, {"a": 4}]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingStringsGotInt", REQUIRED, |
|
R"({"repeatedString": ["1", 2, "3", "4"]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingStringsGotBool", REQUIRED, |
|
R"({"repeatedString": ["1", "2", false, "4"]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingStringsGotMessage", REQUIRED, |
|
R"({"repeatedString": ["1", 2, "3", {"a": 4}]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingMessagesGotInt", REQUIRED, |
|
R"({"repeatedNestedMessage": [{"a": 1}, 2]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingMessagesGotBool", REQUIRED, |
|
R"({"repeatedNestedMessage": [{"a": 1}, false]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldWrongElementTypeExpectingMessagesGotString", REQUIRED, |
|
R"({"repeatedNestedMessage": [{"a": 1}, "2"]})"); |
|
// Trailing comma in the repeated field is not allowed. |
|
ExpectParseFailureForJson("RepeatedFieldTrailingComma", RECOMMENDED, |
|
R"({"repeatedInt32": [1, 2, 3, 4,]})"); |
|
ExpectParseFailureForJson("RepeatedFieldTrailingCommaWithSpace", RECOMMENDED, |
|
"{\"repeatedInt32\": [1, 2, 3, 4 ,]}"); |
|
ExpectParseFailureForJson("RepeatedFieldTrailingCommaWithSpaceCommaSpace", |
|
RECOMMENDED, |
|
"{\"repeatedInt32\": [1, 2, 3, 4 , ]}"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldTrailingCommaWithNewlines", RECOMMENDED, |
|
"{\"repeatedInt32\": [\n 1,\n 2,\n 3,\n 4,\n]}"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForNullTypes() { |
|
// "null" is accepted for all fields types. |
|
RunValidJsonTest("AllFieldAcceptNull", REQUIRED, |
|
R"({ |
|
"optionalInt32": null, |
|
"optionalInt64": null, |
|
"optionalUint32": null, |
|
"optionalUint64": null, |
|
"optionalSint32": null, |
|
"optionalSint64": null, |
|
"optionalFixed32": null, |
|
"optionalFixed64": null, |
|
"optionalSfixed32": null, |
|
"optionalSfixed64": null, |
|
"optionalFloat": null, |
|
"optionalDouble": null, |
|
"optionalBool": null, |
|
"optionalString": null, |
|
"optionalBytes": null, |
|
"optionalNestedEnum": null, |
|
"optionalNestedMessage": null, |
|
"repeatedInt32": null, |
|
"repeatedInt64": null, |
|
"repeatedUint32": null, |
|
"repeatedUint64": null, |
|
"repeatedSint32": null, |
|
"repeatedSint64": null, |
|
"repeatedFixed32": null, |
|
"repeatedFixed64": null, |
|
"repeatedSfixed32": null, |
|
"repeatedSfixed64": null, |
|
"repeatedFloat": null, |
|
"repeatedDouble": null, |
|
"repeatedBool": null, |
|
"repeatedString": null, |
|
"repeatedBytes": null, |
|
"repeatedNestedEnum": null, |
|
"repeatedNestedMessage": null, |
|
"mapInt32Int32": null, |
|
"mapBoolBool": null, |
|
"mapStringNestedMessage": null |
|
})", |
|
""); |
|
|
|
// Repeated field elements cannot be null. |
|
ExpectParseFailureForJson("RepeatedFieldPrimitiveElementIsNull", RECOMMENDED, |
|
R"({"repeatedInt32": [1, null, 2]})"); |
|
ExpectParseFailureForJson( |
|
"RepeatedFieldMessageElementIsNull", RECOMMENDED, |
|
R"({"repeatedNestedMessage": [{"a":1}, null, {"a":2}]})"); |
|
// Map field keys cannot be null. |
|
ExpectParseFailureForJson("MapFieldKeyIsNull", RECOMMENDED, |
|
R"({"mapInt32Int32": {null: 1}})"); |
|
// Map field values cannot be null. |
|
ExpectParseFailureForJson("MapFieldValueIsNull", RECOMMENDED, |
|
R"({"mapInt32Int32": {"0": null}})"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForWrapperTypes() { |
|
RunValidJsonTest("OptionalBoolWrapper", REQUIRED, |
|
R"({"optionalBoolWrapper": false})", |
|
"optional_bool_wrapper: {value: false}"); |
|
RunValidJsonTest("OptionalInt32Wrapper", REQUIRED, |
|
R"({"optionalInt32Wrapper": 0})", |
|
"optional_int32_wrapper: {value: 0}"); |
|
RunValidJsonTest("OptionalUint32Wrapper", REQUIRED, |
|
R"({"optionalUint32Wrapper": 0})", |
|
"optional_uint32_wrapper: {value: 0}"); |
|
RunValidJsonTest("OptionalInt64Wrapper", REQUIRED, |
|
R"({"optionalInt64Wrapper": 0})", |
|
"optional_int64_wrapper: {value: 0}"); |
|
RunValidJsonTest("OptionalUint64Wrapper", REQUIRED, |
|
R"({"optionalUint64Wrapper": 0})", |
|
"optional_uint64_wrapper: {value: 0}"); |
|
RunValidJsonTest("OptionalFloatWrapper", REQUIRED, |
|
R"({"optionalFloatWrapper": 0})", |
|
"optional_float_wrapper: {value: 0}"); |
|
RunValidJsonTest("OptionalDoubleWrapper", REQUIRED, |
|
R"({"optionalDoubleWrapper": 0})", |
|
"optional_double_wrapper: {value: 0}"); |
|
RunValidJsonTest("OptionalStringWrapper", REQUIRED, |
|
R"({"optionalStringWrapper": ""})", |
|
R"(optional_string_wrapper: {value: ""})"); |
|
RunValidJsonTest("OptionalBytesWrapper", REQUIRED, |
|
R"({"optionalBytesWrapper": ""})", |
|
R"(optional_bytes_wrapper: {value: ""})"); |
|
RunValidJsonTest("OptionalWrapperTypesWithNonDefaultValue", REQUIRED, |
|
R"({ |
|
"optionalBoolWrapper": true, |
|
"optionalInt32Wrapper": 1, |
|
"optionalUint32Wrapper": 1, |
|
"optionalInt64Wrapper": "1", |
|
"optionalUint64Wrapper": "1", |
|
"optionalFloatWrapper": 1, |
|
"optionalDoubleWrapper": 1, |
|
"optionalStringWrapper": "1", |
|
"optionalBytesWrapper": "AQI=" |
|
})", |
|
R"( |
|
optional_bool_wrapper: {value: true} |
|
optional_int32_wrapper: {value: 1} |
|
optional_uint32_wrapper: {value: 1} |
|
optional_int64_wrapper: {value: 1} |
|
optional_uint64_wrapper: {value: 1} |
|
optional_float_wrapper: {value: 1} |
|
optional_double_wrapper: {value: 1} |
|
optional_string_wrapper: {value: "1"} |
|
optional_bytes_wrapper: {value: "\x01\x02"} |
|
)"); |
|
RunValidJsonTest("RepeatedBoolWrapper", REQUIRED, |
|
R"({"repeatedBoolWrapper": [true, false]})", |
|
"repeated_bool_wrapper: {value: true}" |
|
"repeated_bool_wrapper: {value: false}"); |
|
RunValidJsonTest("RepeatedInt32Wrapper", REQUIRED, |
|
R"({"repeatedInt32Wrapper": [0, 1]})", |
|
"repeated_int32_wrapper: {value: 0}" |
|
"repeated_int32_wrapper: {value: 1}"); |
|
RunValidJsonTest("RepeatedUint32Wrapper", REQUIRED, |
|
R"({"repeatedUint32Wrapper": [0, 1]})", |
|
"repeated_uint32_wrapper: {value: 0}" |
|
"repeated_uint32_wrapper: {value: 1}"); |
|
RunValidJsonTest("RepeatedInt64Wrapper", REQUIRED, |
|
R"({"repeatedInt64Wrapper": [0, 1]})", |
|
"repeated_int64_wrapper: {value: 0}" |
|
"repeated_int64_wrapper: {value: 1}"); |
|
RunValidJsonTest("RepeatedUint64Wrapper", REQUIRED, |
|
R"({"repeatedUint64Wrapper": [0, 1]})", |
|
"repeated_uint64_wrapper: {value: 0}" |
|
"repeated_uint64_wrapper: {value: 1}"); |
|
RunValidJsonTest("RepeatedFloatWrapper", REQUIRED, |
|
R"({"repeatedFloatWrapper": [0, 1]})", |
|
"repeated_float_wrapper: {value: 0}" |
|
"repeated_float_wrapper: {value: 1}"); |
|
RunValidJsonTest("RepeatedDoubleWrapper", REQUIRED, |
|
R"({"repeatedDoubleWrapper": [0, 1]})", |
|
"repeated_double_wrapper: {value: 0}" |
|
"repeated_double_wrapper: {value: 1}"); |
|
RunValidJsonTest("RepeatedStringWrapper", REQUIRED, |
|
R"({"repeatedStringWrapper": ["", "AQI="]})", |
|
R"( |
|
repeated_string_wrapper: {value: ""} |
|
repeated_string_wrapper: {value: "AQI="} |
|
)"); |
|
RunValidJsonTest("RepeatedBytesWrapper", REQUIRED, |
|
R"({"repeatedBytesWrapper": ["", "AQI="]})", |
|
R"( |
|
repeated_bytes_wrapper: {value: ""} |
|
repeated_bytes_wrapper: {value: "\x01\x02"} |
|
)"); |
|
RunValidJsonTest("WrapperTypesWithNullValue", REQUIRED, |
|
R"({ |
|
"optionalBoolWrapper": null, |
|
"optionalInt32Wrapper": null, |
|
"optionalUint32Wrapper": null, |
|
"optionalInt64Wrapper": null, |
|
"optionalUint64Wrapper": null, |
|
"optionalFloatWrapper": null, |
|
"optionalDoubleWrapper": null, |
|
"optionalStringWrapper": null, |
|
"optionalBytesWrapper": null, |
|
"repeatedBoolWrapper": null, |
|
"repeatedInt32Wrapper": null, |
|
"repeatedUint32Wrapper": null, |
|
"repeatedInt64Wrapper": null, |
|
"repeatedUint64Wrapper": null, |
|
"repeatedFloatWrapper": null, |
|
"repeatedDoubleWrapper": null, |
|
"repeatedStringWrapper": null, |
|
"repeatedBytesWrapper": null |
|
})", |
|
""); |
|
|
|
// Duration |
|
RunValidJsonTest( |
|
"DurationMinValue", REQUIRED, |
|
R"({"optionalDuration": "-315576000000.999999999s"})", |
|
"optional_duration: {seconds: -315576000000 nanos: -999999999}"); |
|
RunValidJsonTest( |
|
"DurationMaxValue", REQUIRED, |
|
R"({"optionalDuration": "315576000000.999999999s"})", |
|
"optional_duration: {seconds: 315576000000 nanos: 999999999}"); |
|
RunValidJsonTest("DurationRepeatedValue", REQUIRED, |
|
R"({"repeatedDuration": ["1.5s", "-1.5s"]})", |
|
"repeated_duration: {seconds: 1 nanos: 500000000}" |
|
"repeated_duration: {seconds: -1 nanos: -500000000}"); |
|
RunValidJsonTest("DurationNull", REQUIRED, R"({"optionalDuration": null})", |
|
""); |
|
RunValidJsonTest("DurationNegativeSeconds", REQUIRED, |
|
R"({"optionalDuration": "-5s"})", |
|
"optional_duration: {seconds: -5 nanos: 0}"); |
|
RunValidJsonTest("DurationNegativeNanos", REQUIRED, |
|
R"({"optionalDuration": "-0.5s"})", |
|
"optional_duration: {seconds: 0 nanos: -500000000}"); |
|
|
|
ExpectParseFailureForJson("DurationMissingS", REQUIRED, |
|
R"({"optionalDuration": "1"})"); |
|
ExpectParseFailureForJson( |
|
"DurationJsonInputTooSmall", REQUIRED, |
|
R"({"optionalDuration": "-315576000001.000000000s"})"); |
|
ExpectParseFailureForJson( |
|
"DurationJsonInputTooLarge", REQUIRED, |
|
R"({"optionalDuration": "315576000001.000000000s"})"); |
|
ExpectSerializeFailureForJson( |
|
"DurationProtoInputTooSmall", REQUIRED, |
|
"optional_duration: {seconds: -315576000001 nanos: 0}"); |
|
ExpectSerializeFailureForJson( |
|
"DurationProtoInputTooLarge", REQUIRED, |
|
"optional_duration: {seconds: 315576000001 nanos: 0}"); |
|
|
|
RunValidJsonTestWithValidator( |
|
"DurationHasZeroFractionalDigit", RECOMMENDED, |
|
R"({"optionalDuration": "1.000000000s"})", [](const Json::Value& value) { |
|
return value["optionalDuration"].asString() == "1s"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"DurationHas3FractionalDigits", RECOMMENDED, |
|
R"({"optionalDuration": "1.010000000s"})", [](const Json::Value& value) { |
|
return value["optionalDuration"].asString() == "1.010s"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"DurationHas6FractionalDigits", RECOMMENDED, |
|
R"({"optionalDuration": "1.000010000s"})", [](const Json::Value& value) { |
|
return value["optionalDuration"].asString() == "1.000010s"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"DurationHas9FractionalDigits", RECOMMENDED, |
|
R"({"optionalDuration": "1.000000010s"})", [](const Json::Value& value) { |
|
return value["optionalDuration"].asString() == "1.000000010s"; |
|
}); |
|
|
|
// Timestamp |
|
RunValidJsonTest("TimestampMinValue", REQUIRED, |
|
R"({"optionalTimestamp": "0001-01-01T00:00:00Z"})", |
|
"optional_timestamp: {seconds: -62135596800}"); |
|
RunValidJsonTest( |
|
"TimestampMaxValue", REQUIRED, |
|
R"({"optionalTimestamp": "9999-12-31T23:59:59.999999999Z"})", |
|
"optional_timestamp: {seconds: 253402300799 nanos: 999999999}"); |
|
RunValidJsonTest( |
|
"TimestampRepeatedValue", REQUIRED, |
|
R"({ |
|
"repeatedTimestamp": [ |
|
"0001-01-01T00:00:00Z", |
|
"9999-12-31T23:59:59.999999999Z" |
|
] |
|
})", |
|
"repeated_timestamp: {seconds: -62135596800}" |
|
"repeated_timestamp: {seconds: 253402300799 nanos: 999999999}"); |
|
RunValidJsonTest("TimestampLeap", REQUIRED, |
|
R"({"optionalTimestamp": "1993-02-10T00:00:00.000Z"})", |
|
"optional_timestamp: {seconds: 729302400}"); |
|
RunValidJsonTest("TimestampWithPositiveOffset", REQUIRED, |
|
R"({"optionalTimestamp": "1970-01-01T08:00:01+08:00"})", |
|
"optional_timestamp: {seconds: 1}"); |
|
RunValidJsonTest("TimestampWithNegativeOffset", REQUIRED, |
|
R"({"optionalTimestamp": "1969-12-31T16:00:01-08:00"})", |
|
"optional_timestamp: {seconds: 1}"); |
|
RunValidJsonTest("TimestampNull", REQUIRED, R"({"optionalTimestamp": null})", |
|
""); |
|
|
|
ExpectParseFailureForJson("TimestampJsonInputTooSmall", REQUIRED, |
|
R"({"optionalTimestamp": "0000-01-01T00:00:00Z"})"); |
|
ExpectParseFailureForJson( |
|
"TimestampJsonInputTooLarge", REQUIRED, |
|
R"({"optionalTimestamp": "10000-01-01T00:00:00Z"})"); |
|
ExpectParseFailureForJson("TimestampJsonInputMissingZ", REQUIRED, |
|
R"({"optionalTimestamp": "0001-01-01T00:00:00"})"); |
|
ExpectParseFailureForJson("TimestampJsonInputMissingT", REQUIRED, |
|
R"({"optionalTimestamp": "0001-01-01 00:00:00Z"})"); |
|
ExpectParseFailureForJson("TimestampJsonInputLowercaseZ", REQUIRED, |
|
R"({"optionalTimestamp": "0001-01-01T00:00:00z"})"); |
|
ExpectParseFailureForJson("TimestampJsonInputLowercaseT", REQUIRED, |
|
R"({"optionalTimestamp": "0001-01-01t00:00:00Z"})"); |
|
ExpectSerializeFailureForJson("TimestampProtoInputTooSmall", REQUIRED, |
|
"optional_timestamp: {seconds: -62135596801}"); |
|
ExpectSerializeFailureForJson("TimestampProtoInputTooLarge", REQUIRED, |
|
"optional_timestamp: {seconds: 253402300800}"); |
|
RunValidJsonTestWithValidator( |
|
"TimestampZeroNormalized", RECOMMENDED, |
|
R"({"optionalTimestamp": "1969-12-31T16:00:00-08:00"})", |
|
[](const Json::Value& value) { |
|
return value["optionalTimestamp"].asString() == "1970-01-01T00:00:00Z"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"TimestampHasZeroFractionalDigit", RECOMMENDED, |
|
R"({"optionalTimestamp": "1970-01-01T00:00:00.000000000Z"})", |
|
[](const Json::Value& value) { |
|
return value["optionalTimestamp"].asString() == "1970-01-01T00:00:00Z"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"TimestampHas3FractionalDigits", RECOMMENDED, |
|
R"({"optionalTimestamp": "1970-01-01T00:00:00.010000000Z"})", |
|
[](const Json::Value& value) { |
|
return value["optionalTimestamp"].asString() == |
|
"1970-01-01T00:00:00.010Z"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"TimestampHas6FractionalDigits", RECOMMENDED, |
|
R"({"optionalTimestamp": "1970-01-01T00:00:00.000010000Z"})", |
|
[](const Json::Value& value) { |
|
return value["optionalTimestamp"].asString() == |
|
"1970-01-01T00:00:00.000010Z"; |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"TimestampHas9FractionalDigits", RECOMMENDED, |
|
R"({"optionalTimestamp": "1970-01-01T00:00:00.000000010Z"})", |
|
[](const Json::Value& value) { |
|
return value["optionalTimestamp"].asString() == |
|
"1970-01-01T00:00:00.000000010Z"; |
|
}); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl< |
|
MessageType>::RunJsonTestsForFieldMask() { |
|
RunValidJsonTest("FieldMask", REQUIRED, |
|
R"({"optionalFieldMask": "foo,barBaz"})", |
|
R"(optional_field_mask: {paths: "foo" paths: "bar_baz"})"); |
|
RunValidJsonTest("EmptyFieldMask", REQUIRED, R"({"optionalFieldMask": ""})", |
|
R"(optional_field_mask: {})"); |
|
ExpectParseFailureForJson("FieldMaskInvalidCharacter", RECOMMENDED, |
|
R"({"optionalFieldMask": "foo,bar_bar"})"); |
|
ExpectSerializeFailureForJson("FieldMaskPathsDontRoundTrip", RECOMMENDED, |
|
R"(optional_field_mask: {paths: "fooBar"})"); |
|
ExpectSerializeFailureForJson("FieldMaskNumbersDontRoundTrip", RECOMMENDED, |
|
R"(optional_field_mask: {paths: "foo_3_bar"})"); |
|
ExpectSerializeFailureForJson("FieldMaskTooManyUnderscore", RECOMMENDED, |
|
R"(optional_field_mask: {paths: "foo__bar"})"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunJsonTestsForStruct() { |
|
RunValidJsonTest("Struct", REQUIRED, |
|
R"({ |
|
"optionalStruct": { |
|
"nullValue": null, |
|
"intValue": 1234, |
|
"boolValue": true, |
|
"doubleValue": 1234.5678, |
|
"stringValue": "Hello world!", |
|
"listValue": [1234, "5678"], |
|
"objectValue": { |
|
"value": 0 |
|
} |
|
} |
|
})", |
|
R"( |
|
optional_struct: { |
|
fields: { |
|
key: "nullValue" |
|
value: {null_value: NULL_VALUE} |
|
} |
|
fields: { |
|
key: "intValue" |
|
value: {number_value: 1234} |
|
} |
|
fields: { |
|
key: "boolValue" |
|
value: {bool_value: true} |
|
} |
|
fields: { |
|
key: "doubleValue" |
|
value: {number_value: 1234.5678} |
|
} |
|
fields: { |
|
key: "stringValue" |
|
value: {string_value: "Hello world!"} |
|
} |
|
fields: { |
|
key: "listValue" |
|
value: { |
|
list_value: { |
|
values: { |
|
number_value: 1234 |
|
} |
|
values: { |
|
string_value: "5678" |
|
} |
|
} |
|
} |
|
} |
|
fields: { |
|
key: "objectValue" |
|
value: { |
|
struct_value: { |
|
fields: { |
|
key: "value" |
|
value: { |
|
number_value: 0 |
|
} |
|
} |
|
} |
|
} |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("StructWithEmptyListValue", REQUIRED, |
|
R"({ |
|
"optionalStruct": { |
|
"listValue": [] |
|
} |
|
})", |
|
R"( |
|
optional_struct: { |
|
fields: { |
|
key: "listValue" |
|
value: { |
|
list_value: { |
|
} |
|
} |
|
} |
|
} |
|
)"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunJsonTestsForValue() { |
|
RunValidJsonTest("ValueAcceptInteger", REQUIRED, R"({"optionalValue": 1})", |
|
"optional_value: { number_value: 1}"); |
|
RunValidJsonTest("ValueAcceptFloat", REQUIRED, R"({"optionalValue": 1.5})", |
|
"optional_value: { number_value: 1.5}"); |
|
RunValidJsonTest("ValueAcceptBool", REQUIRED, R"({"optionalValue": false})", |
|
"optional_value: { bool_value: false}"); |
|
RunValidJsonTest("ValueAcceptNull", REQUIRED, R"({"optionalValue": null})", |
|
"optional_value: { null_value: NULL_VALUE}"); |
|
RunValidJsonTest("ValueAcceptString", REQUIRED, |
|
R"({"optionalValue": "hello"})", |
|
R"(optional_value: { string_value: "hello"})"); |
|
RunValidJsonTest("ValueAcceptList", REQUIRED, |
|
R"({"optionalValue": [0, "hello"]})", |
|
R"( |
|
optional_value: { |
|
list_value: { |
|
values: { |
|
number_value: 0 |
|
} |
|
values: { |
|
string_value: "hello" |
|
} |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("ValueAcceptObject", REQUIRED, |
|
R"({"optionalValue": {"value": 1}})", |
|
R"( |
|
optional_value: { |
|
struct_value: { |
|
fields: { |
|
key: "value" |
|
value: { |
|
number_value: 1 |
|
} |
|
} |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("RepeatedValue", REQUIRED, |
|
R"({ |
|
"repeatedValue": [["a"]] |
|
})", |
|
R"( |
|
repeated_value: [ |
|
{ |
|
list_value: { |
|
values: [ |
|
{ string_value: "a"} |
|
] |
|
} |
|
} |
|
] |
|
)"); |
|
RunValidJsonTest("RepeatedListValue", REQUIRED, |
|
R"({ |
|
"repeatedListValue": [["a"]] |
|
})", |
|
R"( |
|
repeated_list_value: [ |
|
{ |
|
values: [ |
|
{ string_value: "a"} |
|
] |
|
} |
|
] |
|
)"); |
|
RunValidJsonTestWithValidator("NullValueInOtherOneofOldFormat", RECOMMENDED, |
|
R"({"oneofNullValue": "NULL_VALUE"})", |
|
[](const Json::Value& value) { |
|
return (value.isMember("oneofNullValue") && |
|
value["oneofNullValue"].isNull()); |
|
}); |
|
RunValidJsonTestWithValidator("NullValueInOtherOneofNewFormat", RECOMMENDED, |
|
R"({"oneofNullValue": null})", |
|
[](const Json::Value& value) { |
|
return (value.isMember("oneofNullValue") && |
|
value["oneofNullValue"].isNull()); |
|
}); |
|
RunValidJsonTestWithValidator( |
|
"NullValueInNormalMessage", RECOMMENDED, R"({"optionalNullValue": null})", |
|
[](const Json::Value& value) { return value.empty(); }); |
|
ExpectSerializeFailureForJson("ValueRejectNanNumberValue", RECOMMENDED, |
|
"optional_value: { number_value: nan}"); |
|
ExpectSerializeFailureForJson("ValueRejectInfNumberValue", RECOMMENDED, |
|
"optional_value: { number_value: inf}"); |
|
} |
|
|
|
template <typename MessageType> |
|
void BinaryAndJsonConformanceSuiteImpl<MessageType>::RunJsonTestsForAny() { |
|
std::string type_url = GetTypeUrl(MessageType::GetDescriptor()); |
|
RunValidJsonTest("Any", REQUIRED, |
|
absl::Substitute(R"({ |
|
"optionalAny": { |
|
"@type": "$0", |
|
"optionalInt32": 12345 |
|
} |
|
})", |
|
GetTypeUrl(MessageType::GetDescriptor())), |
|
absl::Substitute(R"( |
|
optional_any: { |
|
[$0] { |
|
optional_int32: 12345 |
|
} |
|
} |
|
)", |
|
type_url)); |
|
RunValidJsonTest("AnyNested", REQUIRED, |
|
absl::Substitute(R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.Any", |
|
"value": { |
|
"@type": "$0", |
|
"optionalInt32": 12345 |
|
} |
|
} |
|
})", |
|
type_url), |
|
absl::Substitute(R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.Any] { |
|
[$0] { |
|
optional_int32: 12345 |
|
} |
|
} |
|
} |
|
)", |
|
type_url)); |
|
// The special "@type" tag is not required to appear first. |
|
RunValidJsonTest("AnyUnorderedTypeTag", REQUIRED, |
|
absl::Substitute(R"({ |
|
"optionalAny": { |
|
"optionalInt32": 12345, |
|
"@type": "$0" |
|
} |
|
})", |
|
type_url), |
|
absl::Substitute(R"( |
|
optional_any: { |
|
[$0] { |
|
optional_int32: 12345 |
|
} |
|
} |
|
)", |
|
type_url)); |
|
// Well-known types in Any. |
|
RunValidJsonTest("AnyWithInt32ValueWrapper", REQUIRED, |
|
R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.Int32Value", |
|
"value": 12345 |
|
} |
|
})", |
|
R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.Int32Value] { |
|
value: 12345 |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("AnyWithDuration", REQUIRED, |
|
R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.Duration", |
|
"value": "1.5s" |
|
} |
|
})", |
|
R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.Duration] { |
|
seconds: 1 |
|
nanos: 500000000 |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("AnyWithTimestamp", REQUIRED, |
|
R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.Timestamp", |
|
"value": "1970-01-01T00:00:00Z" |
|
} |
|
})", |
|
R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.Timestamp] { |
|
seconds: 0 |
|
nanos: 0 |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("AnyWithFieldMask", REQUIRED, |
|
R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.FieldMask", |
|
"value": "foo,barBaz" |
|
} |
|
})", |
|
R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.FieldMask] { |
|
paths: ["foo", "bar_baz"] |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("AnyWithStruct", REQUIRED, |
|
R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.Struct", |
|
"value": { |
|
"foo": 1 |
|
} |
|
} |
|
})", |
|
R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.Struct] { |
|
fields: { |
|
key: "foo" |
|
value: { |
|
number_value: 1 |
|
} |
|
} |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("AnyWithValueForJsonObject", REQUIRED, |
|
R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.Value", |
|
"value": { |
|
"foo": 1 |
|
} |
|
} |
|
})", |
|
R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.Value] { |
|
struct_value: { |
|
fields: { |
|
key: "foo" |
|
value: { |
|
number_value: 1 |
|
} |
|
} |
|
} |
|
} |
|
} |
|
)"); |
|
RunValidJsonTest("AnyWithValueForInteger", REQUIRED, |
|
R"({ |
|
"optionalAny": { |
|
"@type": "type.googleapis.com/google.protobuf.Value", |
|
"value": 1 |
|
} |
|
})", |
|
R"( |
|
optional_any: { |
|
[type.googleapis.com/google.protobuf.Value] { |
|
number_value: 1 |
|
} |
|
} |
|
)"); |
|
} |
|
|
|
template <typename MessageType> |
|
const FieldDescriptor* |
|
BinaryAndJsonConformanceSuiteImpl<MessageType>::GetFieldForType( |
|
FieldDescriptor::Type type, bool repeated, Packed packed) const { |
|
const Descriptor* d = MessageType::GetDescriptor(); |
|
for (int i = 0; i < d->field_count(); i++) { |
|
const FieldDescriptor* f = d->field(i); |
|
if (f->type() == type && f->is_repeated() == repeated) { |
|
if ((packed == Packed::kTrue && !f->is_packed()) || |
|
(packed == Packed::kFalse && f->is_packed())) { |
|
continue; |
|
} |
|
return f; |
|
} |
|
} |
|
|
|
absl::string_view packed_string = ""; |
|
const absl::string_view repeated_string = |
|
repeated ? "Repeated " : "Singular "; |
|
if (packed == Packed::kTrue) { |
|
packed_string = "Packed "; |
|
} |
|
if (packed == Packed::kFalse) { |
|
packed_string = "Unpacked "; |
|
} |
|
ABSL_LOG(FATAL) << "Couldn't find field with type: " << repeated_string |
|
<< packed_string << FieldDescriptor::TypeName(type) << " for " |
|
<< d->full_name(); |
|
return nullptr; |
|
} |
|
|
|
template <typename MessageType> |
|
const FieldDescriptor* |
|
BinaryAndJsonConformanceSuiteImpl<MessageType>::GetFieldForMapType( |
|
FieldDescriptor::Type key_type, FieldDescriptor::Type value_type) const { |
|
const Descriptor* d = MessageType::GetDescriptor(); |
|
for (int i = 0; i < d->field_count(); i++) { |
|
const FieldDescriptor* f = d->field(i); |
|
if (f->is_map()) { |
|
const Descriptor* map_entry = f->message_type(); |
|
const FieldDescriptor* key = map_entry->field(0); |
|
const FieldDescriptor* value = map_entry->field(1); |
|
if (key->type() == key_type && value->type() == value_type) { |
|
return f; |
|
} |
|
} |
|
} |
|
|
|
ABSL_LOG(FATAL) << "Couldn't find map field with type: " |
|
<< FieldDescriptor::TypeName(key_type) << " and " |
|
<< FieldDescriptor::TypeName(key_type) << " for " |
|
<< d->full_name(); |
|
return nullptr; |
|
} |
|
|
|
template <typename MessageType> |
|
const FieldDescriptor* |
|
BinaryAndJsonConformanceSuiteImpl<MessageType>::GetFieldForOneofType( |
|
FieldDescriptor::Type type, bool exclusive) const { |
|
const Descriptor* d = MessageType::GetDescriptor(); |
|
for (int i = 0; i < d->field_count(); i++) { |
|
const FieldDescriptor* f = d->field(i); |
|
if (f->containing_oneof() && ((f->type() == type) ^ exclusive)) { |
|
return f; |
|
} |
|
} |
|
|
|
ABSL_LOG(FATAL) << "Couldn't find oneof field with type: " |
|
<< FieldDescriptor::TypeName(type) << " for " |
|
<< d->full_name(); |
|
return nullptr; |
|
} |
|
|
|
template <typename MessageType> |
|
std::string BinaryAndJsonConformanceSuiteImpl<MessageType>::SyntaxIdentifier() |
|
const { |
|
if constexpr (std::is_same<MessageType, TestAllTypesProto2>::value) { |
|
return "Proto2"; |
|
} else if constexpr (std::is_same<MessageType, TestAllTypesProto3>::value) { |
|
return "Proto3"; |
|
} else if constexpr (std::is_same<MessageType, |
|
TestAllTypesProto2Editions>::value) { |
|
return "Editions_Proto2"; |
|
} else { |
|
return "Editions_Proto3"; |
|
} |
|
} |
|
|
|
} // namespace protobuf |
|
} // namespace google
|
|
|