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#include "clickhouse_config.h"
#if USE_MYSQL
#include <vector>
#include <Core/MySQL/MySQLReplication.h>
#include <Columns/ColumnNullable.h>
#include <Columns/ColumnString.h>
#include <Columns/ColumnsNumber.h>
#include <Columns/ColumnDecimal.h>
#include <Columns/ColumnFixedString.h>
#include <DataTypes/IDataType.h>
#include <DataTypes/DataTypeEnum.h>
#include <DataTypes/DataTypeNullable.h>
#include <DataTypes/DataTypeDateTime.h>
#include <IO/ReadBufferFromString.h>
#include <IO/ReadHelpers.h>
#include <IO/WriteHelpers.h>
#include <IO/Operators.h>
#include <Common/assert_cast.h>
#include <base/range.h>
#include <Common/logger_useful.h>
#error #include <Processors/Sources/MySQLSource.h>
#include <boost/algorithm/string.hpp>
namespace DB
{
namespace ErrorCodes
{
extern const int NUMBER_OF_COLUMNS_DOESNT_MATCH;
extern const int NOT_IMPLEMENTED;
}
StreamSettings::StreamSettings(const Settings & settings, bool auto_close_, bool fetch_by_name_, size_t max_retry_)
: max_read_mysql_row_nums((settings.external_storage_max_read_rows) ? settings.external_storage_max_read_rows : settings.max_block_size)
, max_read_mysql_bytes_size(settings.external_storage_max_read_bytes)
, auto_close(auto_close_)
, fetch_by_name(fetch_by_name_)
, default_num_tries_on_connection_loss(max_retry_)
{
}
MySQLSource::Connection::Connection(
const mysqlxx::PoolWithFailover::Entry & entry_,
const std::string & query_str)
: entry(entry_)
, query{entry->query(query_str)}
, result{query.use()}
{
}
/// Used in MaterializedMySQL and in doInvalidateQuery for dictionary source.
MySQLSource::MySQLSource(
const mysqlxx::PoolWithFailover::Entry & entry,
const std::string & query_str,
const Block & sample_block,
const StreamSettings & settings_)
: ISource(sample_block.cloneEmpty())
, log(&Poco::Logger::get("MySQLSource"))
, connection{std::make_unique<Connection>(entry, query_str)}
, settings{std::make_unique<StreamSettings>(settings_)}
{
description.init(sample_block);
initPositionMappingFromQueryResultStructure();
}
/// For descendant MySQLWithFailoverSource
MySQLSource::MySQLSource(const Block &sample_block_, const StreamSettings & settings_)
: ISource(sample_block_.cloneEmpty())
, log(&Poco::Logger::get("MySQLSource"))
, settings(std::make_unique<StreamSettings>(settings_))
{
description.init(sample_block_);
}
/// Used by MySQL storage / table function and dictionary source.
MySQLWithFailoverSource::MySQLWithFailoverSource(
mysqlxx::PoolWithFailoverPtr pool_,
const std::string & query_str_,
const Block & sample_block_,
const StreamSettings & settings_)
: MySQLSource(sample_block_, settings_)
, pool(pool_)
, query_str(query_str_)
{
}
void MySQLWithFailoverSource::onStart()
{
size_t count_connect_attempts = 0;
/// For recovering from "Lost connection to MySQL server during query" errors
while (true)
{
try
{
connection = std::make_unique<Connection>(pool->get(), query_str);
break;
}
catch (const mysqlxx::ConnectionLost & ecl) /// There are two retriable failures: CR_SERVER_GONE_ERROR, CR_SERVER_LOST
{
LOG_WARNING(log, "Failed connection ({}/{}). Trying to reconnect... (Info: {})", count_connect_attempts, settings->default_num_tries_on_connection_loss, ecl.displayText());
if (++count_connect_attempts > settings->default_num_tries_on_connection_loss)
{
LOG_ERROR(log, "Failed to create connection to MySQL. ({}/{})", count_connect_attempts, settings->default_num_tries_on_connection_loss);
throw;
}
}
catch (const mysqlxx::BadQuery & e)
{
LOG_ERROR(log, "Error processing query '{}': {}", query_str, e.displayText());
throw;
}
}
initPositionMappingFromQueryResultStructure();
}
Chunk MySQLWithFailoverSource::generate()
{
if (!is_initialized)
{
onStart();
is_initialized = true;
}
return MySQLSource::generate();
}
namespace
{
using ValueType = ExternalResultDescription::ValueType;
void insertValue(const IDataType & data_type, IColumn & column, const ValueType type, const mysqlxx::Value & value, size_t & read_bytes_size, enum enum_field_types mysql_type)
{
switch (type)
{
case ValueType::vtUInt8:
assert_cast<ColumnUInt8 &>(column).insertValue(value.getUInt());
read_bytes_size += 1;
break;
case ValueType::vtUInt16:
assert_cast<ColumnUInt16 &>(column).insertValue(value.getUInt());
read_bytes_size += 2;
break;
case ValueType::vtUInt32:
assert_cast<ColumnUInt32 &>(column).insertValue(static_cast<UInt32>(value.getUInt()));
read_bytes_size += 4;
break;
case ValueType::vtUInt64:
{
if (mysql_type == enum_field_types::MYSQL_TYPE_BIT)
{
size_t n = value.size();
UInt64 val = 0UL;
ReadBufferFromMemory payload(const_cast<char *>(value.data()), n);
MySQLReplication::readBigEndianStrict(payload, reinterpret_cast<char *>(&val), n);
assert_cast<ColumnUInt64 &>(column).insertValue(val);
read_bytes_size += n;
}
else
{
assert_cast<ColumnUInt64 &>(column).insertValue(value.getUInt());
read_bytes_size += 8;
}
break;
}
case ValueType::vtInt8:
assert_cast<ColumnInt8 &>(column).insertValue(value.getInt());
read_bytes_size += 1;
break;
case ValueType::vtInt16:
assert_cast<ColumnInt16 &>(column).insertValue(value.getInt());
read_bytes_size += 2;
break;
case ValueType::vtInt32:
assert_cast<ColumnInt32 &>(column).insertValue(static_cast<Int32>(value.getInt()));
read_bytes_size += 4;
break;
case ValueType::vtInt64:
{
if (mysql_type == enum_field_types::MYSQL_TYPE_TIME)
{
String time_str(value.data(), value.size());
bool negative = time_str.starts_with("-");
if (negative) time_str = time_str.substr(1);
std::vector<String> hhmmss;
boost::split(hhmmss, time_str, [](char c) { return c == ':'; });
Int64 v = 0;
if (hhmmss.size() == 3)
v = static_cast<Int64>((std::stoi(hhmmss[0]) * 3600 + std::stoi(hhmmss[1]) * 60 + std::stold(hhmmss[2])) * 1000000);
else
throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Unsupported value format");
if (negative) v = -v;
assert_cast<ColumnInt64 &>(column).insertValue(v);
read_bytes_size += value.size();
}
else
{
assert_cast<ColumnInt64 &>(column).insertValue(value.getInt());
read_bytes_size += 8;
}
break;
}
case ValueType::vtFloat32:
assert_cast<ColumnFloat32 &>(column).insertValue(static_cast<Float32>(value.getDouble()));
read_bytes_size += 4;
break;
case ValueType::vtFloat64:
assert_cast<ColumnFloat64 &>(column).insertValue(value.getDouble());
read_bytes_size += 8;
break;
case ValueType::vtEnum8:
assert_cast<ColumnInt8 &>(column).insertValue(assert_cast<const DataTypeEnum<Int8> &>(data_type).castToValue(value.data()).get<Int8>());
read_bytes_size += assert_cast<ColumnInt8 &>(column).byteSize();
break;
case ValueType::vtEnum16:
assert_cast<ColumnInt16 &>(column).insertValue(assert_cast<const DataTypeEnum<Int16> &>(data_type).castToValue(value.data()).get<Int16>());
read_bytes_size += assert_cast<ColumnInt16 &>(column).byteSize();
break;
case ValueType::vtString:
assert_cast<ColumnString &>(column).insertData(value.data(), value.size());
read_bytes_size += assert_cast<ColumnString &>(column).byteSize();
break;
case ValueType::vtDate:
assert_cast<ColumnUInt16 &>(column).insertValue(UInt16(value.getDate().getDayNum()));
read_bytes_size += 2;
break;
case ValueType::vtDate32:
assert_cast<ColumnInt32 &>(column).insertValue(Int32(value.getDate().getExtenedDayNum()));
read_bytes_size += 4;
break;
case ValueType::vtDateTime:
{
ReadBufferFromString in(value);
time_t time = 0;
readDateTimeText(time, in, assert_cast<const DataTypeDateTime &>(data_type).getTimeZone());
if (time < 0)
time = 0;
assert_cast<ColumnUInt32 &>(column).insertValue(static_cast<UInt32>(time));
read_bytes_size += 4;
break;
}
case ValueType::vtUUID:
assert_cast<ColumnUUID &>(column).insert(parse<UUID>(value.data(), value.size()));
read_bytes_size += assert_cast<ColumnUUID &>(column).byteSize();
break;
case ValueType::vtDateTime64:[[fallthrough]];
case ValueType::vtDecimal32: [[fallthrough]];
case ValueType::vtDecimal64: [[fallthrough]];
case ValueType::vtDecimal128:[[fallthrough]];
case ValueType::vtDecimal256:
{
ReadBuffer buffer(const_cast<char *>(value.data()), value.size(), 0);
data_type.getDefaultSerialization()->deserializeWholeText(column, buffer, FormatSettings{});
read_bytes_size += column.sizeOfValueIfFixed();
break;
}
case ValueType::vtFixedString:
assert_cast<ColumnFixedString &>(column).insertData(value.data(), value.size());
read_bytes_size += column.sizeOfValueIfFixed();
break;
default:
throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Unsupported value type");
}
}
void insertDefaultValue(IColumn & column, const IColumn & sample_column) { column.insertFrom(sample_column, 0); }
}
Chunk MySQLSource::generate()
{
auto row = connection->result.fetch();
if (!row)
{
if (settings->auto_close)
connection->entry.disconnect();
return {};
}
MutableColumns columns(description.sample_block.columns());
for (const auto i : collections::range(0, columns.size()))
columns[i] = description.sample_block.getByPosition(i).column->cloneEmpty();
size_t num_rows = 0;
size_t read_bytes_size = 0;
while (row)
{
for (size_t index = 0; index < position_mapping.size(); ++index)
{
const auto value = row[position_mapping[index]];
const auto & sample = description.sample_block.getByPosition(index);
bool is_type_nullable = description.types[index].second;
if (!value.isNull())
{
if (is_type_nullable)
{
ColumnNullable & column_nullable = assert_cast<ColumnNullable &>(*columns[index]);
const auto & data_type = assert_cast<const DataTypeNullable &>(*sample.type);
insertValue(*data_type.getNestedType(), column_nullable.getNestedColumn(), description.types[index].first, value, read_bytes_size, row.getFieldType(position_mapping[index]));
column_nullable.getNullMapData().emplace_back(false);
}
else
{
insertValue(*sample.type, *columns[index], description.types[index].first, value, read_bytes_size, row.getFieldType(position_mapping[index]));
}
}
else
{
insertDefaultValue(*columns[index], *sample.column);
if (is_type_nullable)
{
ColumnNullable & column_nullable = assert_cast<ColumnNullable &>(*columns[index]);
column_nullable.getNullMapData().back() = true;
}
}
}
++num_rows;
if (num_rows == settings->max_read_mysql_row_nums || (settings->max_read_mysql_bytes_size && read_bytes_size >= settings->max_read_mysql_bytes_size))
break;
row = connection->result.fetch();
}
return Chunk(std::move(columns), num_rows);
}
void MySQLSource::initPositionMappingFromQueryResultStructure()
{
position_mapping.resize(description.sample_block.columns());
if (!settings->fetch_by_name)
{
if (description.sample_block.columns() != connection->result.getNumFields())
throw Exception(
ErrorCodes::NUMBER_OF_COLUMNS_DOESNT_MATCH,
"mysqlxx::UseQueryResult contains {} columns while {} expected",
connection->result.getNumFields(),
description.sample_block.columns());
for (const auto idx : collections::range(0, connection->result.getNumFields()))
position_mapping[idx] = idx;
}
else
{
const auto & sample_names = description.sample_block.getNames();
std::unordered_set<std::string> missing_names(sample_names.begin(), sample_names.end());
size_t fields_size = connection->result.getNumFields();
for (const size_t & idx : collections::range(0, fields_size))
{
const auto & field_name = connection->result.getFieldName(idx);
if (description.sample_block.has(field_name))
{
const auto & position = description.sample_block.getPositionByName(field_name);
position_mapping[position] = idx;
missing_names.erase(field_name);
}
}
if (!missing_names.empty())
throw Exception(
ErrorCodes::NUMBER_OF_COLUMNS_DOESNT_MATCH,
"mysqlxx::UseQueryResult must contain columns: {}",
fmt::join(missing_names, ", "));
}
}
}
#endif
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