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#include "json2proto.h"
#include "util.h"
#include <library/cpp/json/json_value.h>
#include <google/protobuf/message.h>
#include <google/protobuf/descriptor.h>
#include <util/generic/hash.h>
#include <util/generic/maybe.h>
#include <util/string/ascii.h>
#include <util/string/cast.h>
#define JSON_TO_FIELD(EProtoCppType, name, json, JsonCheckType, ProtoSet, JsonGet) \
case FieldDescriptor::EProtoCppType: { \
if (config.CastRobust) { \
reflection->ProtoSet(&proto, &field, json.JsonGet##Robust()); \
break; \
} \
if (!json.JsonCheckType()) { \
if (config.CastFromString && json.IsString()) { \
if (config.DoNotCastEmptyStrings && json.GetString().empty()) { \
/* Empty string is same as "no value" for scalar types.*/ \
break; \
} \
reflection->ProtoSet(&proto, &field, FromString(json.GetString())); \
break; \
} \
ythrow yexception() << "Invalid type of JSON field " << name << ": " \
<< #JsonCheckType << "() failed while " \
<< #EProtoCppType << " is expected."; \
} \
reflection->ProtoSet(&proto, &field, json.JsonGet()); \
break; \
}
static TString GetFieldName(const google::protobuf::FieldDescriptor& field,
const NProtobufJson::TJson2ProtoConfig& config) {
if (config.NameGenerator) {
return config.NameGenerator(field);
}
if (config.UseJsonName) {
Y_ASSERT(!field.json_name().empty());
TString name = field.json_name();
if (!field.has_json_name() && !name.empty()) {
// FIXME: https://st.yandex-team.ru/CONTRIB-139
name[0] = AsciiToLower(name[0]);
}
return name;
}
TString name = field.name();
switch (config.FieldNameMode) {
case NProtobufJson::TJson2ProtoConfig::FieldNameOriginalCase:
break;
case NProtobufJson::TJson2ProtoConfig::FieldNameLowerCase:
name.to_lower();
break;
case NProtobufJson::TJson2ProtoConfig::FieldNameUpperCase:
name.to_upper();
break;
case NProtobufJson::TJson2ProtoConfig::FieldNameCamelCase:
if (!name.empty()) {
name[0] = AsciiToLower(name[0]);
}
break;
case NProtobufJson::TJson2ProtoConfig::FieldNameSnakeCase:
NProtobufJson::ToSnakeCase(&name);
break;
case NProtobufJson::TJson2ProtoConfig::FieldNameSnakeCaseDense:
NProtobufJson::ToSnakeCaseDense(&name);
break;
default:
Y_VERIFY_DEBUG(false, "Unknown FieldNameMode.");
}
return name;
}
static void
JsonString2Field(const NJson::TJsonValue& json,
google::protobuf::Message& proto,
const google::protobuf::FieldDescriptor& field,
const NProtobufJson::TJson2ProtoConfig& config) {
using namespace google::protobuf;
const Reflection* reflection = proto.GetReflection();
Y_ASSERT(!!reflection);
if (!json.IsString() && !config.CastRobust) {
ythrow yexception() << "Invalid type of JSON field '" << field.name() << "': "
<< "IsString() failed while "
<< "CPPTYPE_STRING is expected.";
}
TString value = json.GetStringRobust();
for (size_t i = 0, endI = config.StringTransforms.size(); i < endI; ++i) {
Y_ASSERT(!!config.StringTransforms[i]);
if (!!config.StringTransforms[i]) {
if (field.type() == google::protobuf::FieldDescriptor::TYPE_BYTES) {
config.StringTransforms[i]->TransformBytes(value);
} else {
config.StringTransforms[i]->Transform(value);
}
}
}
if (field.is_repeated())
reflection->AddString(&proto, &field, value);
else
reflection->SetString(&proto, &field, value);
}
static const NProtoBuf::EnumValueDescriptor*
FindEnumValue(const NProtoBuf::EnumDescriptor* enumField,
TStringBuf target, bool (*equals)(TStringBuf, TStringBuf)) {
for (int i = 0; i < enumField->value_count(); i++) {
auto* valueDescriptor = enumField->value(i);
if (equals(valueDescriptor->name(), target)) {
return valueDescriptor;
}
}
return nullptr;
}
static void
JsonEnum2Field(const NJson::TJsonValue& json,
google::protobuf::Message& proto,
const google::protobuf::FieldDescriptor& field,
const NProtobufJson::TJson2ProtoConfig& config) {
using namespace google::protobuf;
const Reflection* reflection = proto.GetReflection();
Y_ASSERT(!!reflection);
const EnumDescriptor* enumField = field.enum_type();
Y_ASSERT(!!enumField);
/// @todo configure name/numerical value
const EnumValueDescriptor* enumFieldValue = nullptr;
if (json.IsInteger()) {
const auto value = json.GetInteger();
enumFieldValue = enumField->FindValueByNumber(value);
if (!enumFieldValue) {
ythrow yexception() << "Invalid integer value of JSON enum field: " << value << ".";
}
} else if (json.IsString()) {
const auto& value = json.GetString();
if (config.EnumValueMode == NProtobufJson::TJson2ProtoConfig::EnumCaseInsensetive) {
enumFieldValue = FindEnumValue(enumField, value, AsciiEqualsIgnoreCase);
} else if (config.EnumValueMode == NProtobufJson::TJson2ProtoConfig::EnumSnakeCaseInsensitive) {
enumFieldValue = FindEnumValue(enumField, value, NProtobufJson::EqualsIgnoringCaseAndUnderscores);
} else {
enumFieldValue = enumField->FindValueByName(value);
}
if (!enumFieldValue) {
ythrow yexception() << "Invalid string value of JSON enum field: " << TStringBuf(value).Head(100) << ".";
}
} else {
ythrow yexception() << "Invalid type of JSON enum field: not an integer/string.";
}
if (field.is_repeated()) {
reflection->AddEnum(&proto, &field, enumFieldValue);
} else {
reflection->SetEnum(&proto, &field, enumFieldValue);
}
}
static void
Json2SingleField(const NJson::TJsonValue& json,
google::protobuf::Message& proto,
const google::protobuf::FieldDescriptor& field,
const NProtobufJson::TJson2ProtoConfig& config,
bool isMapValue = false) {
using namespace google::protobuf;
const Reflection* reflection = proto.GetReflection();
Y_ASSERT(!!reflection);
TString name;
if (!isMapValue) {
name = GetFieldName(field, config);
if (!json.Has(name) || json[name].GetType() == NJson::JSON_UNDEFINED || json[name].GetType() == NJson::JSON_NULL) {
if (field.is_required() && !field.has_default_value() && !reflection->HasField(proto, &field) && config.CheckRequiredFields) {
ythrow yexception() << "JSON has no field for required field "
<< name << ".";
}
return;
}
}
const NJson::TJsonValue& fieldJson = name ? json[name] : json;
switch (field.cpp_type()) {
JSON_TO_FIELD(CPPTYPE_INT32, field.name(), fieldJson, IsInteger, SetInt32, GetInteger);
JSON_TO_FIELD(CPPTYPE_INT64, field.name(), fieldJson, IsInteger, SetInt64, GetInteger);
JSON_TO_FIELD(CPPTYPE_UINT32, field.name(), fieldJson, IsInteger, SetUInt32, GetInteger);
JSON_TO_FIELD(CPPTYPE_UINT64, field.name(), fieldJson, IsUInteger, SetUInt64, GetUInteger);
JSON_TO_FIELD(CPPTYPE_DOUBLE, field.name(), fieldJson, IsDouble, SetDouble, GetDouble);
JSON_TO_FIELD(CPPTYPE_FLOAT, field.name(), fieldJson, IsDouble, SetFloat, GetDouble);
JSON_TO_FIELD(CPPTYPE_BOOL, field.name(), fieldJson, IsBoolean, SetBool, GetBoolean);
case FieldDescriptor::CPPTYPE_STRING: {
JsonString2Field(fieldJson, proto, field, config);
break;
}
case FieldDescriptor::CPPTYPE_ENUM: {
JsonEnum2Field(fieldJson, proto, field, config);
break;
}
case FieldDescriptor::CPPTYPE_MESSAGE: {
Message* innerProto = reflection->MutableMessage(&proto, &field);
Y_ASSERT(!!innerProto);
NProtobufJson::MergeJson2Proto(fieldJson, *innerProto, config);
break;
}
default:
ythrow yexception() << "Unknown protobuf field type: "
<< static_cast<int>(field.cpp_type()) << ".";
}
}
static void
SetKey(NProtoBuf::Message& proto,
const NProtoBuf::FieldDescriptor& field,
const TString& key) {
using namespace google::protobuf;
using namespace NProtobufJson;
const Reflection* reflection = proto.GetReflection();
TString result;
switch (field.cpp_type()) {
case FieldDescriptor::CPPTYPE_INT32:
reflection->SetInt32(&proto, &field, FromString<int32>(key));
break;
case FieldDescriptor::CPPTYPE_INT64:
reflection->SetInt64(&proto, &field, FromString<int64>(key));
break;
case FieldDescriptor::CPPTYPE_UINT32:
reflection->SetUInt32(&proto, &field, FromString<uint32>(key));
break;
case FieldDescriptor::CPPTYPE_UINT64:
reflection->SetUInt64(&proto, &field, FromString<uint64>(key));
break;
case FieldDescriptor::CPPTYPE_BOOL:
reflection->SetBool(&proto, &field, FromString<bool>(key));
break;
case FieldDescriptor::CPPTYPE_STRING:
reflection->SetString(&proto, &field, key);
break;
default:
ythrow yexception() << "Unsupported key type.";
}
}
static void
Json2RepeatedFieldValue(const NJson::TJsonValue& jsonValue,
google::protobuf::Message& proto,
const google::protobuf::FieldDescriptor& field,
const NProtobufJson::TJson2ProtoConfig& config,
const google::protobuf::Reflection* reflection,
const TMaybe<TString>& key = {}) {
using namespace google::protobuf;
switch (field.cpp_type()) {
JSON_TO_FIELD(CPPTYPE_INT32, field.name(), jsonValue, IsInteger, AddInt32, GetInteger);
JSON_TO_FIELD(CPPTYPE_INT64, field.name(), jsonValue, IsInteger, AddInt64, GetInteger);
JSON_TO_FIELD(CPPTYPE_UINT32, field.name(), jsonValue, IsInteger, AddUInt32, GetInteger);
JSON_TO_FIELD(CPPTYPE_UINT64, field.name(), jsonValue, IsUInteger, AddUInt64, GetUInteger);
JSON_TO_FIELD(CPPTYPE_DOUBLE, field.name(), jsonValue, IsDouble, AddDouble, GetDouble);
JSON_TO_FIELD(CPPTYPE_FLOAT, field.name(), jsonValue, IsDouble, AddFloat, GetDouble);
JSON_TO_FIELD(CPPTYPE_BOOL, field.name(), jsonValue, IsBoolean, AddBool, GetBoolean);
case FieldDescriptor::CPPTYPE_STRING: {
JsonString2Field(jsonValue, proto, field, config);
break;
}
case FieldDescriptor::CPPTYPE_ENUM: {
JsonEnum2Field(jsonValue, proto, field, config);
break;
}
case FieldDescriptor::CPPTYPE_MESSAGE: {
Message* innerProto = reflection->AddMessage(&proto, &field);
Y_ASSERT(!!innerProto);
if (key.Defined()) {
const FieldDescriptor* keyField = innerProto->GetDescriptor()->FindFieldByName("key");
Y_ENSURE(keyField, "Map entry key field not found: " << field.name());
SetKey(*innerProto, *keyField, *key);
const FieldDescriptor* valueField = innerProto->GetDescriptor()->FindFieldByName("value");
Y_ENSURE(valueField, "Map entry value field not found.");
Json2SingleField(jsonValue, *innerProto, *valueField, config, /*isMapValue=*/true);
} else {
NProtobufJson::MergeJson2Proto(jsonValue, *innerProto, config);
}
break;
}
default:
ythrow yexception() << "Unknown protobuf field type: "
<< static_cast<int>(field.cpp_type()) << ".";
}
}
static void
Json2RepeatedField(const NJson::TJsonValue& json,
google::protobuf::Message& proto,
const google::protobuf::FieldDescriptor& field,
const NProtobufJson::TJson2ProtoConfig& config) {
using namespace google::protobuf;
TString name = GetFieldName(field, config);
if (!json.Has(name))
return;
const NJson::TJsonValue& fieldJson = json[name];
if (fieldJson.GetType() == NJson::JSON_UNDEFINED || fieldJson.GetType() == NJson::JSON_NULL)
return;
bool isMap = fieldJson.GetType() == NJson::JSON_MAP;
if (isMap) {
if (!config.MapAsObject) {
ythrow yexception() << "Map as object representation is not allowed, field: " << field.name();
} else if (!field.is_map() && !fieldJson.GetMap().empty()) {
ythrow yexception() << "Field " << field.name() << " is not a map.";
}
}
if (fieldJson.GetType() != NJson::JSON_ARRAY && !config.MapAsObject && !config.VectorizeScalars && !config.ValueVectorizer) {
ythrow yexception() << "JSON field doesn't represent an array for "
<< name
<< "(actual type is "
<< static_cast<int>(fieldJson.GetType()) << ").";
}
const Reflection* reflection = proto.GetReflection();
Y_ASSERT(!!reflection);
if (isMap) {
const THashMap<TString, NJson::TJsonValue> jsonMap = fieldJson.GetMap();
for (const auto& x : jsonMap) {
const TString& key = x.first;
const NJson::TJsonValue& jsonValue = x.second;
Json2RepeatedFieldValue(jsonValue, proto, field, config, reflection, key);
}
} else {
if (config.ReplaceRepeatedFields) {
reflection->ClearField(&proto, &field);
}
if (fieldJson.GetType() == NJson::JSON_ARRAY) {
const NJson::TJsonValue::TArray& jsonArray = fieldJson.GetArray();
for (const NJson::TJsonValue& jsonValue : jsonArray) {
Json2RepeatedFieldValue(jsonValue, proto, field, config, reflection);
}
} else if (config.ValueVectorizer) {
for (const NJson::TJsonValue& jsonValue : config.ValueVectorizer(fieldJson)) {
Json2RepeatedFieldValue(jsonValue, proto, field, config, reflection);
}
} else if (config.VectorizeScalars) {
Json2RepeatedFieldValue(fieldJson, proto, field, config, reflection);
}
}
}
namespace NProtobufJson {
void MergeJson2Proto(const NJson::TJsonValue& json, google::protobuf::Message& proto, const TJson2ProtoConfig& config) {
if (json.IsNull()) {
return;
}
const google::protobuf::Descriptor* descriptor = proto.GetDescriptor();
Y_ASSERT(!!descriptor);
Y_ENSURE(json.IsMap(), "Failed to merge json to proto for message: " << descriptor->full_name() << ", expected json map.");
for (int f = 0, endF = descriptor->field_count(); f < endF; ++f) {
const google::protobuf::FieldDescriptor* field = descriptor->field(f);
Y_ASSERT(!!field);
if (field->is_repeated()) {
Json2RepeatedField(json, proto, *field, config);
} else {
Json2SingleField(json, proto, *field, config);
}
}
if (!config.AllowUnknownFields) {
THashMap<TString, bool> knownFields;
for (int f = 0, endF = descriptor->field_count(); f < endF; ++f) {
const google::protobuf::FieldDescriptor* field = descriptor->field(f);
knownFields[GetFieldName(*field, config)] = 1;
}
for (const auto& f : json.GetMap()) {
Y_ENSURE(knownFields.contains(f.first), "unknown field " << f.first);
}
}
}
void MergeJson2Proto(const TStringBuf& json, google::protobuf::Message& proto, const TJson2ProtoConfig& config) {
NJson::TJsonReaderConfig jsonCfg;
jsonCfg.DontValidateUtf8 = true;
jsonCfg.AllowComments = config.AllowComments;
NJson::TJsonValue jsonValue;
ReadJsonTree(json, &jsonCfg, &jsonValue, /* throwOnError = */ true);
MergeJson2Proto(jsonValue, proto, config);
}
void Json2Proto(const NJson::TJsonValue& json, google::protobuf::Message& proto, const TJson2ProtoConfig& config) {
proto.Clear();
MergeJson2Proto(json, proto, config);
}
void Json2Proto(const TStringBuf& json, google::protobuf::Message& proto, const TJson2ProtoConfig& config) {
proto.Clear();
MergeJson2Proto(json, proto, config);
}
}
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