ClickHouse/src/Storages/StorageFuzzJSON.cpp

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#include <Storages/StorageFuzzJSON.h>
#if USE_SIMDJSON || USE_RAPIDJSON
#include <optional>
#include <random>
#include <string_view>
#include <unordered_set>
#include <Columns/ColumnString.h>
#include <Interpreters/evaluateConstantExpression.h>
#include <Storages/NamedCollectionsHelpers.h>
#include <Storages/StorageFactory.h>
#include <Storages/checkAndGetLiteralArgument.h>
#include <Common/JSONParsers/RapidJSONParser.h>
#include <Common/JSONParsers/SimdJSONParser.h>
#include <Common/checkStackSize.h>
#include <Common/escapeString.h>
namespace DB
{
namespace ErrorCodes
{
extern const int BAD_ARGUMENTS;
extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
extern const int LOGICAL_ERROR;
extern const int INCORRECT_DATA;
}
namespace
{
using uniform = std::uniform_int_distribution<size_t>;
struct JSONNode;
using JSONNodeList = std::list<std::shared_ptr<JSONNode>>;
struct JSONValue
{
enum class Type : size_t
{
Fixed = 0,
Array = 1,
Object = 2,
};
static Type getType(const JSONValue & v);
// The node value must be one of the following:
// Examples: 5, true, "abc"
std::optional<Field> fixed;
// Examples: [], ["a"], [1, true]
std::optional<JSONNodeList> array;
// Examples: {}, {"a": [1,2], "b": "c"}
std::optional<JSONNodeList> object;
};
JSONValue::Type JSONValue::getType(const JSONValue & v)
{
if (v.fixed)
{
assert(!v.array);
assert(!v.object);
return JSONValue::Type::Fixed;
}
else if (v.array)
{
assert(!v.fixed);
assert(!v.object);
return JSONValue::Type::Array;
}
else if (v.object)
{
assert(!v.fixed);
assert(!v.array);
return JSONValue::Type::Object;
}
else
throw Exception(ErrorCodes::LOGICAL_ERROR, "Failed to determine JSON node type.");
}
// A node represents either a JSON field (a key-value pair) or a JSON value.
// The key is not set for the JSON root and for the array items.
struct JSONNode
{
std::optional<String> key;
JSONValue value;
};
#if USE_SIMDJSON
using ParserImpl = DB::SimdJSONParser;
#elif USE_RAPIDJSON
using ParserImpl = DB::RapidJSONParser;
#endif
std::optional<Field> getFixedValue(const ParserImpl::Element & e)
{
return e.isBool() ? e.getBool()
: e.isInt64() ? e.getInt64()
: e.isUInt64() ? e.getUInt64()
: e.isDouble() ? e.getDouble()
: e.isString() ? e.getString()
: e.isNull() ? Field()
: std::optional<Field>();
}
void traverse(const ParserImpl::Element & e, std::shared_ptr<JSONNode> node)
{
checkStackSize();
assert(node);
auto & val = node->value;
if (e.isObject())
{
const auto & obj = e.getObject();
if (!val.object)
val.object = JSONNodeList{};
for (const auto [k, v] : obj)
{
auto child = std::make_shared<JSONNode>();
child->key = k;
traverse(v, child);
val.object->push_back(child);
}
}
else if (e.isArray())
{
if (!val.array)
val.array = JSONNodeList{};
const auto arr = e.getArray();
for (const auto a : arr)
{
auto child = std::make_shared<JSONNode>();
traverse(a, child);
val.array->push_back(child);
}
}
else
{
auto field = getFixedValue(e);
if (!field)
throw Exception(ErrorCodes::INCORRECT_DATA, "Failed to parse a fixed JSON value '{}'.", escapeString(e.getString()));
val.fixed = std::move(field);
}
}
std::shared_ptr<JSONNode> parseJSON(const String & json)
{
std::string_view view{json.begin(), json.end()};
ParserImpl::Element document;
ParserImpl p;
if (!p.parse(json, document))
{
constexpr size_t max_length = 128LU;
throw Exception(
ErrorCodes::INCORRECT_DATA,
"Failed to parse JSON from the string '{}'{}.",
escapeString(json.substr(0, max_length)),
json.size() >= max_length ? "... (truncated)" : "");
}
auto root = std::make_shared<JSONNode>();
traverse(document, root);
return root;
}
char generateRandomCharacter(pcg64 & rnd, const std::string_view & charset)
{
assert(!charset.empty());
auto idx = uniform(0, charset.size() - 1)(rnd);
return charset[idx];
}
char generateRandomKeyCharacter(pcg64 & rnd)
{
static constexpr std::string_view charset = "0123456789"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"abcdefghijklmnopqrstuvwxyz";
return generateRandomCharacter(rnd, charset);
}
char generateRandomStringValueCharacter(pcg64 & rnd)
{
static constexpr std::string_view charset = "0123456789"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"abcdefghijklmnopqrstuvwxyz"
"!@#$%^&*-+_";
return generateRandomCharacter(rnd, charset);
}
String generateRandomStringValue(UInt64 min_length, UInt64 max_length, pcg64 & rnd)
{
size_t size = min_length + rnd() % (max_length - min_length + 1);
String res;
res.reserve(size);
for (size_t i = 0; i < size; ++i)
res.push_back(generateRandomStringValueCharacter(rnd));
return res;
}
String generateRandomKey(UInt64 min_length, UInt64 max_length, pcg64 & rnd)
{
size_t size = min_length + rnd() % (max_length - min_length + 1);
String res;
res.reserve(size);
for (size_t i = 0; i < size; ++i)
res.push_back(generateRandomKeyCharacter(rnd));
return res;
}
enum class FuzzAction : size_t
{
Skip = 0,
Edit = 1,
Add = 2,
Delete = 3,
};
Field generateRandomFixedValue(const StorageFuzzJSON::Configuration & config, pcg64 & rnd)
{
// TODO (@jkartseva): support more field types.
static std::array<Field::Types::Which, 3> possible_types{
Field::Types::Which::UInt64, Field::Types::Which::String, Field::Types::Which::Bool};
Field f;
auto idx = rnd() % possible_types.size();
switch (possible_types[idx])
{
case Field::Types::Which::UInt64: {
f = rnd();
break;
}
case Field::Types::Which::String:
f = generateRandomStringValue(/*min_length*/ 0, config.max_string_value_length, rnd);
break;
case Field::Types::Which::Bool:
f = bool(rnd() % 2);
break;
default:
}
return f;
}
String fuzzString(UInt64 min_length, UInt64 max_length, pcg64 & rnd, const String & source, std::function<char(pcg64 &)> charGen)
{
String result;
result.reserve(max_length);
using FA = FuzzAction;
auto get_action = [&]() -> FuzzAction
{
static constexpr std::array<FuzzAction, 4> actions{FA::Skip, FA::Edit, FA::Add, FA::Delete};
return actions[uniform(0, 3)(rnd)];
};
size_t i = 0;
while (i < source.size() && result.size() < max_length)
{
auto action = get_action();
switch (action)
{
case FA::Skip: {
result.push_back(source[i++]);
}
break;
case FA::Edit: {
result.push_back(charGen(rnd));
++i;
}
break;
case FA::Add: {
result.push_back(charGen(rnd));
}
break;
default:
++i;
}
}
while (result.size() < min_length)
result.push_back(charGen(rnd));
return result;
}
String fuzzJSONKey(const StorageFuzzJSON::Configuration & config, pcg64 & rnd, const String & key)
{
return fuzzString(config.min_key_length, config.max_key_length, rnd, key, generateRandomKeyCharacter);
}
// Randomly modify structural characters (e.g. '{', '}', '[', ']', ':', '"') to generate output that cannot be parsed as JSON.
String fuzzJSONStructure(const StorageFuzzJSON::Configuration & config, pcg64 & rnd, const String & s)
{
return config.should_malform_output ? fuzzString(/*min_length*/ 0, /*max_length*/ s.size(), rnd, s, generateRandomStringValueCharacter)
: s;
}
std::shared_ptr<JSONNode>
generateRandomJSONNode(const StorageFuzzJSON::Configuration & config, pcg64 & rnd, bool with_key, JSONValue::Type type)
{
auto node = std::make_shared<JSONNode>();
if (with_key)
node->key = generateRandomKey(config.min_key_length, config.max_key_length, rnd);
auto & val = node->value;
switch (type)
{
case JSONValue::Type::Fixed: {
val.fixed = generateRandomFixedValue(config, rnd);
break;
}
case JSONValue::Type::Array: {
val.array = JSONNodeList{};
break;
}
case JSONValue::Type::Object: {
val.object = JSONNodeList{};
break;
}
}
return node;
}
template <size_t n>
std::shared_ptr<JSONNode> generateRandomJSONNode(
const StorageFuzzJSON::Configuration & config, pcg64 & rnd, bool with_key, const std::array<JSONValue::Type, n> & possible_types)
{
auto type = possible_types[uniform(0, possible_types.size() - 1)(rnd)];
return generateRandomJSONNode(config, rnd, with_key, type);
}
std::shared_ptr<JSONNode> generateRandomJSONNode(const StorageFuzzJSON::Configuration & config, pcg64 & rnd, bool with_key, size_t depth)
{
if (depth >= config.max_nesting_level)
return generateRandomJSONNode(config, rnd, with_key, JSONValue::Type::Fixed);
static constexpr std::array<JSONValue::Type, 3> possible_types
= {JSONValue::Type::Fixed, JSONValue::Type::Array, JSONValue::Type::Object};
return generateRandomJSONNode(config, rnd, with_key, possible_types);
}
JSONNode & fuzzSingleJSONNode(JSONNode & n, const StorageFuzzJSON::Configuration & config, pcg64 & rnd, size_t depth, size_t & node_count)
{
auto & val = n.value;
static constexpr size_t update_key = 1;
static constexpr size_t update_value = 2;
auto action = 1 + rnd() % static_cast<size_t>(update_key | update_value);
if (n.key && (action & update_key))
n.key = fuzzJSONKey(config, rnd, *n.key);
if ((action & update_value) == 0)
return n;
if (val.fixed)
val.fixed = generateRandomFixedValue(config, rnd);
else if (val.array && val.array->size() < config.max_array_size && node_count + val.array->size() < config.value_number_limit)
{
if (val.array->empty())
val.array->push_back(generateRandomJSONNode(config, rnd, /*with_key*/ false, depth));
else
{
// Use the type of the preceding element.
const auto & prev = val.array->back();
auto value_type = JSONValue::getType(prev->value);
val.array->push_back(generateRandomJSONNode(config, rnd, /*with_key*/ false, value_type));
}
++node_count;
}
else if (val.object && val.object->size() < config.max_object_size && node_count + val.object->size() < config.value_number_limit)
{
val.object->push_back(generateRandomJSONNode(config, rnd, /*with_key*/ true, depth));
++node_count;
}
return n;
}
void fuzzJSONObject(
const std::shared_ptr<JSONNode> & node,
WriteBuffer & out,
const StorageFuzzJSON::Configuration & config,
pcg64 & rnd,
size_t depth,
size_t & node_count)
{
checkStackSize();
++node_count;
bool should_fuzz = rnd() % 100 < 100 * config.probability;
const auto & next_node = should_fuzz && !config.should_reuse_output ? std::make_shared<JSONNode>(*node) : node;
if (should_fuzz)
fuzzSingleJSONNode(*next_node, config, rnd, depth, node_count);
if (next_node->key)
{
writeDoubleQuoted(*next_node->key, out);
out << fuzzJSONStructure(config, rnd, ":");
}
auto & val = next_node->value;
if (val.fixed)
{
if (val.fixed->getType() == Field::Types::Which::String)
{
out << fuzzJSONStructure(config, rnd, "\"");
writeText(val.fixed->get<String>(), out);
out << fuzzJSONStructure(config, rnd, "\"");
}
else
writeFieldText(*val.fixed, out);
}
else
{
if (!val.array && !val.object)
return;
const auto & [op, cl, node_list] = val.array ? std::make_tuple("[", "]", *val.array) : std::make_tuple("{", "}", *val.object);
out << fuzzJSONStructure(config, rnd, op);
bool first = true;
for (const auto & ptr : node_list)
{
if (node_count >= config.value_number_limit)
break;
WriteBufferFromOwnString child_out;
if (!first)
child_out << fuzzJSONStructure(config, rnd, ", ");
first = false;
fuzzJSONObject(ptr, child_out, config, rnd, depth + 1, node_count);
// Should not exceed the maximum length of the output string.
if (out.count() + child_out.count() >= config.max_output_length)
break;
out << child_out.str();
}
out << fuzzJSONStructure(config, rnd, cl);
}
}
void fuzzJSONObject(std::shared_ptr<JSONNode> n, WriteBuffer & out, const StorageFuzzJSON::Configuration & config, pcg64 & rnd)
{
size_t node_count = 0;
return fuzzJSONObject(n, out, config, rnd, /*depth*/ 0, node_count);
}
class FuzzJSONSource : public ISource
{
public:
FuzzJSONSource(
UInt64 block_size_, Block block_header_, const StorageFuzzJSON::Configuration & config_, std::shared_ptr<JSONNode> json_root_)
: ISource(block_header_)
, block_size(block_size_)
, block_header(std::move(block_header_))
, config(config_)
, rnd(config.random_seed)
, json_root(json_root_)
{
}
String getName() const override { return "FuzzJSON"; }
protected:
Chunk generate() override
{
Columns columns;
columns.reserve(block_header.columns());
for (const auto & col : block_header)
{
chassert(col.type->getTypeId() == TypeIndex::String);
columns.emplace_back(createColumn());
}
return {std::move(columns), block_size};
}
private:
ColumnPtr createColumn();
UInt64 block_size;
Block block_header;
StorageFuzzJSON::Configuration config;
pcg64 rnd;
std::shared_ptr<JSONNode> json_root;
};
ColumnPtr FuzzJSONSource::createColumn()
{
auto column = ColumnString::create();
ColumnString::Chars & data_to = column->getChars();
ColumnString::Offsets & offsets_to = column->getOffsets();
offsets_to.resize(block_size);
IColumn::Offset offset = 0;
for (size_t row_num = 0; row_num < block_size; ++row_num)
{
WriteBufferFromOwnString out;
fuzzJSONObject(json_root, out, config, rnd);
auto data = out.str();
size_t data_len = data.size();
IColumn::Offset next_offset = offset + data_len + 1;
data_to.resize(next_offset);
std::copy(data.begin(), data.end(), &data_to[offset]);
data_to[offset + data_len] = 0;
offsets_to[row_num] = next_offset;
offset = next_offset;
}
return column;
}
}
StorageFuzzJSON::StorageFuzzJSON(
const StorageID & table_id_, const ColumnsDescription & columns_, const String & comment_, const Configuration & config_)
: IStorage(table_id_), config(config_)
{
StorageInMemoryMetadata storage_metadata;
storage_metadata.setColumns(columns_);
storage_metadata.setComment(comment_);
setInMemoryMetadata(storage_metadata);
}
Pipe StorageFuzzJSON::read(
const Names & column_names,
const StorageSnapshotPtr & storage_snapshot,
SelectQueryInfo & /*query_info*/,
ContextPtr /*context*/,
QueryProcessingStage::Enum /*processed_stage*/,
size_t max_block_size,
size_t num_streams)
{
storage_snapshot->check(column_names);
Pipes pipes;
pipes.reserve(num_streams);
const ColumnsDescription & our_columns = storage_snapshot->metadata->getColumns();
Block block_header;
for (const auto & name : column_names)
{
const auto & name_type = our_columns.get(name);
MutableColumnPtr column = name_type.type->createColumn();
block_header.insert({std::move(column), name_type.type, name_type.name});
}
for (UInt64 i = 0; i < num_streams; ++i)
pipes.emplace_back(std::make_shared<FuzzJSONSource>(max_block_size, block_header, config, parseJSON(config.json_str)));
return Pipe::unitePipes(std::move(pipes));
}
static constexpr std::array<std::string_view, 14> optional_configuration_keys
= {"json_str",
"random_seed",
"reuse_output",
"malform_output",
"probability",
"max_output_length",
"max_nesting_level",
"max_array_size",
"max_object_size",
"max_string_value_length",
"min_key_length",
"max_key_length"};
void StorageFuzzJSON::processNamedCollectionResult(Configuration & configuration, const NamedCollection & collection)
{
validateNamedCollection(
collection,
std::unordered_set<std::string>(),
std::unordered_set<std::string>(optional_configuration_keys.begin(), optional_configuration_keys.end()));
if (collection.has("json_str"))
configuration.json_str = collection.get<String>("json_str");
if (collection.has("random_seed"))
configuration.random_seed = collection.get<UInt64>("random_seed");
if (collection.has("reuse_output"))
configuration.should_reuse_output = static_cast<bool>(collection.get<UInt64>("reuse_output"));
if (collection.has("malform_output"))
configuration.should_malform_output = static_cast<bool>(collection.get<UInt64>("malform_output"));
if (collection.has("probability"))
{
configuration.probability = collection.get<Float64>("probability");
if (configuration.probability < 0.0 || configuration.probability > 1.0)
throw Exception(ErrorCodes::BAD_ARGUMENTS, "The value of the 'probability' argument must be within the interval [0, 1].");
}
if (collection.has("max_output_length"))
{
configuration.max_output_length = collection.get<UInt64>("max_output_length");
if (configuration.max_output_length < 2 || configuration.max_output_length > configuration.output_length_limit)
throw Exception(
ErrorCodes::BAD_ARGUMENTS,
"The value of the 'max_output_length' argument must be within the interval [2, {}.]",
configuration.output_length_limit);
}
if (collection.has("max_nesting_level"))
configuration.max_nesting_level = collection.get<UInt64>("max_nesting_level");
if (collection.has("max_array_size"))
configuration.max_array_size = collection.get<UInt64>("max_array_size");
if (collection.has("max_object_size"))
configuration.max_object_size = collection.get<UInt64>("max_object_size");
if (collection.has("max_string_value_length"))
{
auto max_string_value_length = collection.get<UInt64>("max_string_value_length");
if (max_string_value_length > configuration.output_length_limit)
throw Exception(
ErrorCodes::BAD_ARGUMENTS,
"The value of the 'max_string_value_length' argument must be at most {}.",
configuration.output_length_limit);
configuration.max_string_value_length = std::min(max_string_value_length, configuration.max_output_length);
}
if (collection.has("max_key_length"))
{
auto max_key_length = collection.get<UInt64>("max_key_length");
if (max_key_length > configuration.output_length_limit)
throw Exception(
ErrorCodes::BAD_ARGUMENTS,
"The value of the 'max_key_length' argument must be less or equal than {}.",
configuration.output_length_limit);
configuration.max_key_length = std::min(max_key_length, configuration.max_output_length);
configuration.min_key_length = std::min(configuration.min_key_length, configuration.max_key_length);
}
if (collection.has("min_key_length"))
{
auto min_key_length = collection.get<UInt64>("min_key_length");
if (min_key_length == 0)
throw Exception(ErrorCodes::BAD_ARGUMENTS, "The value of the 'min_key_length' argument must be at least 1.");
if (collection.has("max_key_length") && collection.get<UInt64>("max_key_length") < min_key_length)
throw Exception(
ErrorCodes::BAD_ARGUMENTS,
"The value of the 'min_key_length' argument must be less or equal than "
"the value of the 'max_key_lenght' argument.");
configuration.min_key_length = min_key_length;
configuration.max_key_length = std::max(configuration.max_key_length, configuration.min_key_length);
}
}
StorageFuzzJSON::Configuration StorageFuzzJSON::getConfiguration(ASTs & engine_args, ContextPtr local_context)
{
StorageFuzzJSON::Configuration configuration{};
if (auto named_collection = tryGetNamedCollectionWithOverrides(engine_args, local_context))
{
StorageFuzzJSON::processNamedCollectionResult(configuration, *named_collection);
}
else
{
// Supported signatures:
//
// FuzzJSON('json_str')
// FuzzJSON('json_str', 'random_seed')
if (engine_args.empty() || engine_args.size() > 2)
throw Exception(
ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH,
"FuzzJSON requires 1 to 2 arguments: "
"json_str, random_seed");
for (auto & engine_arg : engine_args)
engine_arg = evaluateConstantExpressionOrIdentifierAsLiteral(engine_arg, local_context);
auto first_arg = checkAndGetLiteralArgument<String>(engine_args[0], "json_str");
configuration.json_str = std::move(first_arg);
if (engine_args.size() == 2)
{
const auto & literal = engine_args[1]->as<const ASTLiteral &>();
if (!literal.value.isNull())
configuration.random_seed = checkAndGetLiteralArgument<UInt64>(literal, "random_seed");
}
}
return configuration;
}
void registerStorageFuzzJSON(StorageFactory & factory)
{
factory.registerStorage(
"FuzzJSON",
[](const StorageFactory::Arguments & args) -> std::shared_ptr<StorageFuzzJSON>
{
ASTs & engine_args = args.engine_args;
if (engine_args.empty())
throw Exception(ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH, "Storage FuzzJSON must have arguments.");
StorageFuzzJSON::Configuration configuration = StorageFuzzJSON::getConfiguration(engine_args, args.getLocalContext());
for (const auto& col : args.columns)
if (col.type->getTypeId() != TypeIndex::String)
throw Exception(ErrorCodes::BAD_ARGUMENTS, "'StorageFuzzJSON' supports only columns of String type, got {}.", col.type->getName());
return std::make_shared<StorageFuzzJSON>(args.table_id, args.columns, args.comment, configuration);
});
}
}
#endif