rocksdb/utilities/document/json_document.cc
Siying Dong 10a12b2a6f Add GPLv2 as an alternative license.
Summary: Closes https://github.com/facebook/rocksdb/pull/2226

Differential Revision: D4967547

Pulled By: siying

fbshipit-source-id: dd3b58ae1e7a106ab6bb6f37ab5c88575b125ab4
2017-07-20 17:18:30 -07:00

612 lines
17 KiB
C++

// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree. An additional grant
// of patent rights can be found in the PATENTS file in the same directory.
// This source code is also licensed under the GPLv2 license found in the
// COPYING file in the root directory of this source tree.
#ifndef ROCKSDB_LITE
#include "rocksdb/utilities/json_document.h"
#ifndef __STDC_FORMAT_MACROS
#define __STDC_FORMAT_MACROS
#endif
#include <assert.h>
#include <inttypes.h>
#include <string.h>
#include <functional>
#include <limits>
#include <map>
#include <memory>
#include <string>
#include <vector>
#include "third-party/fbson/FbsonDocument.h"
#include "third-party/fbson/FbsonJsonParser.h"
#include "third-party/fbson/FbsonUtil.h"
#include "util/coding.h"
using std::placeholders::_1;
namespace {
size_t ObjectNumElem(const fbson::ObjectVal& objectVal) {
size_t size = 0;
for (auto keyValuePair : objectVal) {
(void)keyValuePair;
++size;
}
return size;
}
template <typename Func>
void InitJSONDocument(std::unique_ptr<char[]>* data,
fbson::FbsonValue** value,
Func f) {
// TODO(stash): maybe add function to FbsonDocument to avoid creating array?
fbson::FbsonWriter writer;
bool res __attribute__((unused)) = writer.writeStartArray();
assert(res);
uint32_t bytesWritten __attribute__((unused)) = f(writer);
assert(bytesWritten != 0);
res = writer.writeEndArray();
assert(res);
char* buf = new char[writer.getOutput()->getSize()];
memcpy(buf, writer.getOutput()->getBuffer(), writer.getOutput()->getSize());
*value = ((fbson::FbsonDocument *)buf)->getValue();
assert((*value)->isArray());
assert(((fbson::ArrayVal*)*value)->numElem() == 1);
*value = ((fbson::ArrayVal*)*value)->get(0);
data->reset(buf);
}
void InitString(std::unique_ptr<char[]>* data,
fbson::FbsonValue** value,
const std::string& s) {
InitJSONDocument(data, value, std::bind(
[](fbson::FbsonWriter& writer, const std::string& str) -> uint32_t {
bool res __attribute__((unused)) = writer.writeStartString();
assert(res);
auto bytesWritten = writer.writeString(str.c_str(),
static_cast<uint32_t>(str.length()));
res = writer.writeEndString();
assert(res);
// If the string is empty, then bytesWritten == 0, and assert in
// InitJsonDocument will fail.
return bytesWritten + static_cast<uint32_t>(str.empty());
},
_1, s));
}
bool IsNumeric(fbson::FbsonValue* value) {
return value->isInt8() || value->isInt16() ||
value->isInt32() || value->isInt64();
}
int64_t GetInt64ValFromFbsonNumericType(fbson::FbsonValue* value) {
switch (value->type()) {
case fbson::FbsonType::T_Int8:
return reinterpret_cast<fbson::Int8Val*>(value)->val();
case fbson::FbsonType::T_Int16:
return reinterpret_cast<fbson::Int16Val*>(value)->val();
case fbson::FbsonType::T_Int32:
return reinterpret_cast<fbson::Int32Val*>(value)->val();
case fbson::FbsonType::T_Int64:
return reinterpret_cast<fbson::Int64Val*>(value)->val();
default:
assert(false);
}
return 0;
}
bool IsComparable(fbson::FbsonValue* left, fbson::FbsonValue* right) {
if (left->type() == right->type()) {
return true;
}
if (IsNumeric(left) && IsNumeric(right)) {
return true;
}
return false;
}
void CreateArray(std::unique_ptr<char[]>* data, fbson::FbsonValue** value) {
fbson::FbsonWriter writer;
bool res __attribute__((unused)) = writer.writeStartArray();
assert(res);
res = writer.writeEndArray();
assert(res);
data->reset(new char[writer.getOutput()->getSize()]);
memcpy(data->get(),
writer.getOutput()->getBuffer(),
writer.getOutput()->getSize());
*value = reinterpret_cast<fbson::FbsonDocument*>(data->get())->getValue();
}
void CreateObject(std::unique_ptr<char[]>* data, fbson::FbsonValue** value) {
fbson::FbsonWriter writer;
bool res __attribute__((unused)) = writer.writeStartObject();
assert(res);
res = writer.writeEndObject();
assert(res);
data->reset(new char[writer.getOutput()->getSize()]);
memcpy(data->get(),
writer.getOutput()->getBuffer(),
writer.getOutput()->getSize());
*value = reinterpret_cast<fbson::FbsonDocument*>(data->get())->getValue();
}
} // namespace
namespace rocksdb {
// TODO(stash): find smth easier
JSONDocument::JSONDocument() {
InitJSONDocument(&data_,
&value_,
std::bind(&fbson::FbsonWriter::writeNull, _1));
}
JSONDocument::JSONDocument(bool b) {
InitJSONDocument(&data_,
&value_,
std::bind(&fbson::FbsonWriter::writeBool, _1, b));
}
JSONDocument::JSONDocument(double d) {
InitJSONDocument(&data_,
&value_,
std::bind(&fbson::FbsonWriter::writeDouble, _1, d));
}
JSONDocument::JSONDocument(int8_t i) {
InitJSONDocument(&data_,
&value_,
std::bind(&fbson::FbsonWriter::writeInt8, _1, i));
}
JSONDocument::JSONDocument(int16_t i) {
InitJSONDocument(&data_,
&value_,
std::bind(&fbson::FbsonWriter::writeInt16, _1, i));
}
JSONDocument::JSONDocument(int32_t i) {
InitJSONDocument(&data_,
&value_,
std::bind(&fbson::FbsonWriter::writeInt32, _1, i));
}
JSONDocument::JSONDocument(int64_t i) {
InitJSONDocument(&data_,
&value_,
std::bind(&fbson::FbsonWriter::writeInt64, _1, i));
}
JSONDocument::JSONDocument(const std::string& s) {
InitString(&data_, &value_, s);
}
JSONDocument::JSONDocument(const char* s) : JSONDocument(std::string(s)) {
}
void JSONDocument::InitFromValue(const fbson::FbsonValue* val) {
data_.reset(new char[val->numPackedBytes()]);
memcpy(data_.get(), val, val->numPackedBytes());
value_ = reinterpret_cast<fbson::FbsonValue*>(data_.get());
}
// Private constructor
JSONDocument::JSONDocument(fbson::FbsonValue* val, bool makeCopy) {
if (makeCopy) {
InitFromValue(val);
} else {
value_ = val;
}
}
JSONDocument::JSONDocument(Type _type) {
// TODO(icanadi) make all of this better by using templates
switch (_type) {
case kNull:
InitJSONDocument(&data_, &value_,
std::bind(&fbson::FbsonWriter::writeNull, _1));
break;
case kObject:
CreateObject(&data_, &value_);
break;
case kBool:
InitJSONDocument(&data_, &value_,
std::bind(&fbson::FbsonWriter::writeBool, _1, false));
break;
case kDouble:
InitJSONDocument(&data_, &value_,
std::bind(&fbson::FbsonWriter::writeDouble, _1, 0.));
break;
case kArray:
CreateArray(&data_, &value_);
break;
case kInt64:
InitJSONDocument(&data_, &value_,
std::bind(&fbson::FbsonWriter::writeInt64, _1, 0));
break;
case kString:
InitString(&data_, &value_, "");
break;
default:
assert(false);
}
}
JSONDocument::JSONDocument(const JSONDocument& jsonDocument) {
if (jsonDocument.IsOwner()) {
InitFromValue(jsonDocument.value_);
} else {
value_ = jsonDocument.value_;
}
}
JSONDocument::JSONDocument(JSONDocument&& jsonDocument) {
value_ = jsonDocument.value_;
data_.swap(jsonDocument.data_);
}
JSONDocument& JSONDocument::operator=(JSONDocument jsonDocument) {
value_ = jsonDocument.value_;
data_.swap(jsonDocument.data_);
return *this;
}
JSONDocument::Type JSONDocument::type() const {
switch (value_->type()) {
case fbson::FbsonType::T_Null:
return JSONDocument::kNull;
case fbson::FbsonType::T_True:
case fbson::FbsonType::T_False:
return JSONDocument::kBool;
case fbson::FbsonType::T_Int8:
case fbson::FbsonType::T_Int16:
case fbson::FbsonType::T_Int32:
case fbson::FbsonType::T_Int64:
return JSONDocument::kInt64;
case fbson::FbsonType::T_Double:
return JSONDocument::kDouble;
case fbson::FbsonType::T_String:
return JSONDocument::kString;
case fbson::FbsonType::T_Object:
return JSONDocument::kObject;
case fbson::FbsonType::T_Array:
return JSONDocument::kArray;
case fbson::FbsonType::T_Binary:
default:
assert(false);
}
return JSONDocument::kNull;
}
bool JSONDocument::Contains(const std::string& key) const {
assert(IsObject());
auto objectVal = reinterpret_cast<fbson::ObjectVal*>(value_);
return objectVal->find(key.c_str()) != nullptr;
}
JSONDocument JSONDocument::operator[](const std::string& key) const {
assert(IsObject());
auto objectVal = reinterpret_cast<fbson::ObjectVal*>(value_);
auto foundValue = objectVal->find(key.c_str());
assert(foundValue != nullptr);
// No need to save paths in const objects
JSONDocument ans(foundValue, false);
return ans;
}
size_t JSONDocument::Count() const {
assert(IsObject() || IsArray());
if (IsObject()) {
// TODO(stash): add to fbson?
const fbson::ObjectVal& objectVal =
*reinterpret_cast<fbson::ObjectVal*>(value_);
return ObjectNumElem(objectVal);
} else if (IsArray()) {
auto arrayVal = reinterpret_cast<fbson::ArrayVal*>(value_);
return arrayVal->numElem();
}
assert(false);
return 0;
}
JSONDocument JSONDocument::operator[](size_t i) const {
assert(IsArray());
auto arrayVal = reinterpret_cast<fbson::ArrayVal*>(value_);
auto foundValue = arrayVal->get(static_cast<int>(i));
JSONDocument ans(foundValue, false);
return ans;
}
bool JSONDocument::IsNull() const {
return value_->isNull();
}
bool JSONDocument::IsArray() const {
return value_->isArray();
}
bool JSONDocument::IsBool() const {
return value_->isTrue() || value_->isFalse();
}
bool JSONDocument::IsDouble() const {
return value_->isDouble();
}
bool JSONDocument::IsInt64() const {
return value_->isInt8() || value_->isInt16() ||
value_->isInt32() || value_->isInt64();
}
bool JSONDocument::IsObject() const {
return value_->isObject();
}
bool JSONDocument::IsString() const {
return value_->isString();
}
bool JSONDocument::GetBool() const {
assert(IsBool());
return value_->isTrue();
}
double JSONDocument::GetDouble() const {
assert(IsDouble());
return ((fbson::DoubleVal*)value_)->val();
}
int64_t JSONDocument::GetInt64() const {
assert(IsInt64());
return GetInt64ValFromFbsonNumericType(value_);
}
std::string JSONDocument::GetString() const {
assert(IsString());
fbson::StringVal* stringVal = (fbson::StringVal*)value_;
return std::string(stringVal->getBlob(), stringVal->getBlobLen());
}
namespace {
// FbsonValue can be int8, int16, int32, int64
bool CompareNumeric(fbson::FbsonValue* left, fbson::FbsonValue* right) {
assert(IsNumeric(left) && IsNumeric(right));
return GetInt64ValFromFbsonNumericType(left) ==
GetInt64ValFromFbsonNumericType(right);
}
bool CompareSimpleTypes(fbson::FbsonValue* left, fbson::FbsonValue* right) {
if (IsNumeric(left)) {
return CompareNumeric(left, right);
}
if (left->numPackedBytes() != right->numPackedBytes()) {
return false;
}
return memcmp(left, right, left->numPackedBytes()) == 0;
}
bool CompareFbsonValue(fbson::FbsonValue* left, fbson::FbsonValue* right) {
if (!IsComparable(left, right)) {
return false;
}
switch (left->type()) {
case fbson::FbsonType::T_True:
case fbson::FbsonType::T_False:
case fbson::FbsonType::T_Null:
return true;
case fbson::FbsonType::T_Int8:
case fbson::FbsonType::T_Int16:
case fbson::FbsonType::T_Int32:
case fbson::FbsonType::T_Int64:
return CompareNumeric(left, right);
case fbson::FbsonType::T_String:
case fbson::FbsonType::T_Double:
return CompareSimpleTypes(left, right);
case fbson::FbsonType::T_Object:
{
auto leftObject = reinterpret_cast<fbson::ObjectVal*>(left);
auto rightObject = reinterpret_cast<fbson::ObjectVal*>(right);
if (ObjectNumElem(*leftObject) != ObjectNumElem(*rightObject)) {
return false;
}
for (auto && keyValue : *leftObject) {
std::string str(keyValue.getKeyStr(), keyValue.klen());
if (rightObject->find(str.c_str()) == nullptr) {
return false;
}
if (!CompareFbsonValue(keyValue.value(),
rightObject->find(str.c_str()))) {
return false;
}
}
return true;
}
case fbson::FbsonType::T_Array:
{
auto leftArr = reinterpret_cast<fbson::ArrayVal*>(left);
auto rightArr = reinterpret_cast<fbson::ArrayVal*>(right);
if (leftArr->numElem() != rightArr->numElem()) {
return false;
}
for (int i = 0; i < static_cast<int>(leftArr->numElem()); ++i) {
if (!CompareFbsonValue(leftArr->get(i), rightArr->get(i))) {
return false;
}
}
return true;
}
default:
assert(false);
}
return false;
}
} // namespace
bool JSONDocument::operator==(const JSONDocument& rhs) const {
return CompareFbsonValue(value_, rhs.value_);
}
bool JSONDocument::operator!=(const JSONDocument& rhs) const {
return !(*this == rhs);
}
JSONDocument JSONDocument::Copy() const {
return JSONDocument(value_, true);
}
bool JSONDocument::IsOwner() const {
return data_.get() != nullptr;
}
std::string JSONDocument::DebugString() const {
fbson::FbsonToJson fbsonToJson;
return fbsonToJson.json(value_);
}
JSONDocument::ItemsIteratorGenerator JSONDocument::Items() const {
assert(IsObject());
return ItemsIteratorGenerator(*(reinterpret_cast<fbson::ObjectVal*>(value_)));
}
// TODO(icanadi) (perf) allocate objects with arena
JSONDocument* JSONDocument::ParseJSON(const char* json) {
fbson::FbsonJsonParser parser;
if (!parser.parse(json)) {
return nullptr;
}
auto fbsonVal = fbson::FbsonDocument::createValue(
parser.getWriter().getOutput()->getBuffer(),
static_cast<uint32_t>(parser.getWriter().getOutput()->getSize()));
if (fbsonVal == nullptr) {
return nullptr;
}
return new JSONDocument(fbsonVal, true);
}
void JSONDocument::Serialize(std::string* dst) const {
// first byte is reserved for header
// currently, header is only version number. that will help us provide
// backwards compatility. we might also store more information here if
// necessary
dst->push_back(kSerializationFormatVersion);
dst->push_back(FBSON_VER);
dst->append(reinterpret_cast<char*>(value_), value_->numPackedBytes());
}
const char JSONDocument::kSerializationFormatVersion = 2;
JSONDocument* JSONDocument::Deserialize(const Slice& src) {
Slice input(src);
if (src.size() == 0) {
return nullptr;
}
char header = input[0];
if (header == 1) {
assert(false);
}
input.remove_prefix(1);
auto value = fbson::FbsonDocument::createValue(input.data(),
static_cast<uint32_t>(input.size()));
if (value == nullptr) {
return nullptr;
}
return new JSONDocument(value, true);
}
class JSONDocument::const_item_iterator::Impl {
public:
typedef fbson::ObjectVal::const_iterator It;
explicit Impl(It it) : it_(it) {}
const char* getKeyStr() const {
return it_->getKeyStr();
}
uint8_t klen() const {
return it_->klen();
}
It& operator++() {
return ++it_;
}
bool operator!=(const Impl& other) {
return it_ != other.it_;
}
fbson::FbsonValue* value() const {
return it_->value();
}
private:
It it_;
};
JSONDocument::const_item_iterator::const_item_iterator(Impl* impl)
: it_(impl) {}
JSONDocument::const_item_iterator::const_item_iterator(const_item_iterator&& a)
: it_(std::move(a.it_)) {}
JSONDocument::const_item_iterator&
JSONDocument::const_item_iterator::operator++() {
++(*it_);
return *this;
}
bool JSONDocument::const_item_iterator::operator!=(
const const_item_iterator& other) {
return *it_ != *(other.it_);
}
JSONDocument::const_item_iterator::~const_item_iterator() {
}
JSONDocument::const_item_iterator::value_type
JSONDocument::const_item_iterator::operator*() {
return JSONDocument::const_item_iterator::value_type(std::string(it_->getKeyStr(), it_->klen()),
JSONDocument(it_->value(), false));
}
JSONDocument::ItemsIteratorGenerator::ItemsIteratorGenerator(
const fbson::ObjectVal& object)
: object_(object) {}
JSONDocument::const_item_iterator
JSONDocument::ItemsIteratorGenerator::begin() const {
return const_item_iterator(new const_item_iterator::Impl(object_.begin()));
}
JSONDocument::const_item_iterator
JSONDocument::ItemsIteratorGenerator::end() const {
return const_item_iterator(new const_item_iterator::Impl(object_.end()));
}
} // namespace rocksdb
#endif // ROCKSDB_LITE