ClickHouse/dbms/src/Storages/StorageDistributed.cpp

491 lines
17 KiB
C++

#include <DataStreams/RemoteBlockInputStream.h>
#include <DataStreams/BlockExtraInfoInputStream.h>
#include <DataStreams/UnionBlockInputStream.h>
#include <Databases/IDatabase.h>
#include <Storages/StorageDistributed.h>
#include <Storages/VirtualColumnFactory.h>
#include <Storages/Distributed/DistributedBlockOutputStream.h>
#include <Storages/Distributed/DirectoryMonitor.h>
#include <Storages/MergeTree/ReshardingWorker.h>
#include <Common/escapeForFileName.h>
#include <Common/typeid_cast.h>
#include <Parsers/ASTInsertQuery.h>
#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/TablePropertiesQueriesASTs.h>
#include <Parsers/ParserAlterQuery.h>
#include <Parsers/parseQuery.h>
#include <Parsers/ASTWeightedZooKeeperPath.h>
#include <Parsers/ASTLiteral.h>
#include <Parsers/ASTExpressionList.h>
#include <Parsers/queryToString.h>
#include <Interpreters/InterpreterSelectQuery.h>
#include <Interpreters/InterpreterAlterQuery.h>
#include <Interpreters/InterpreterDescribeQuery.h>
#include <Interpreters/ExpressionAnalyzer.h>
#include <Interpreters/ClusterProxy/executeQuery.h>
#include <Interpreters/ClusterProxy/SelectStreamFactory.h>
#include <Interpreters/ClusterProxy/DescribeStreamFactory.h>
#include <Interpreters/ClusterProxy/AlterStreamFactory.h>
#include <Core/Field.h>
#include <Poco/DirectoryIterator.h>
#include <memory>
#include <boost/filesystem.hpp>
namespace DB
{
namespace ErrorCodes
{
extern const int STORAGE_REQUIRES_PARAMETER;
extern const int RESHARDING_NO_WORKER;
extern const int RESHARDING_INVALID_PARAMETERS;
extern const int RESHARDING_INITIATOR_CHECK_FAILED;
}
namespace
{
/// select query has database and table names as AST pointers
/// Creates a copy of query, changes database and table names.
ASTPtr rewriteSelectQuery(const ASTPtr & query, const std::string & database, const std::string & table)
{
auto modified_query_ast = typeid_cast<const ASTSelectQuery &>(*query).cloneFirstSelect();
modified_query_ast->replaceDatabaseAndTable(database, table);
return modified_query_ast;
}
/// insert query has database and table names as bare strings
/// Creates a copy of query, changes the database and table names.
ASTPtr rewriteInsertQuery(const ASTPtr & query, const std::string & database, const std::string & table)
{
auto modified_query_ast = query->clone();
auto & actual_query = typeid_cast<ASTInsertQuery &>(*modified_query_ast);
actual_query.database = database;
actual_query.table = table;
/// make sure query is not INSERT SELECT
actual_query.select = nullptr;
return modified_query_ast;
}
/// Calculate maximum number in file names in directory and all subdirectories.
/// To ensure global order of data blocks yet to be sent across server restarts.
UInt64 getMaximumFileNumber(const std::string & path)
{
UInt64 res = 0;
boost::filesystem::recursive_directory_iterator begin(path);
boost::filesystem::recursive_directory_iterator end;
for (auto it = begin; it != end; ++it)
{
const auto & path = it->path();
if (it->status().type() != boost::filesystem::regular_file || !endsWith(path.filename().string(), ".bin"))
continue;
UInt64 num = 0;
try
{
num = parse<UInt64>(path.filename().stem().string());
}
catch (Exception & e)
{
e.addMessage("Unexpected file name " + path.filename().string() + " found at " + path.parent_path().string() + ", should have numeric base name.");
throw;
}
if (num > res)
res = num;
}
return res;
}
void initializeFileNamesIncrement(const std::string & path, SimpleIncrement & increment)
{
if (!path.empty())
increment.set(getMaximumFileNumber(path));
}
}
/// For destruction of std::unique_ptr of type that is incomplete in class definition.
StorageDistributed::~StorageDistributed() = default;
StorageDistributed::StorageDistributed(
const std::string & name_,
NamesAndTypesListPtr columns_,
const String & remote_database_,
const String & remote_table_,
const String & cluster_name_,
const Context & context_,
const ASTPtr & sharding_key_,
const String & data_path_)
: name(name_), columns(columns_),
remote_database(remote_database_), remote_table(remote_table_),
context(context_), cluster_name(cluster_name_), has_sharding_key(sharding_key_),
sharding_key_expr(sharding_key_ ? ExpressionAnalyzer(sharding_key_, context, nullptr, *columns).getActions(false) : nullptr),
sharding_key_column_name(sharding_key_ ? sharding_key_->getColumnName() : String{}),
path(data_path_.empty() ? "" : (data_path_ + escapeForFileName(name) + '/'))
{
}
StorageDistributed::StorageDistributed(
const std::string & name_,
NamesAndTypesListPtr columns_,
const NamesAndTypesList & materialized_columns_,
const NamesAndTypesList & alias_columns_,
const ColumnDefaults & column_defaults_,
const String & remote_database_,
const String & remote_table_,
const String & cluster_name_,
const Context & context_,
const ASTPtr & sharding_key_,
const String & data_path_)
: IStorage{materialized_columns_, alias_columns_, column_defaults_},
name(name_), columns(columns_),
remote_database(remote_database_), remote_table(remote_table_),
context(context_), cluster_name(cluster_name_), has_sharding_key(sharding_key_),
sharding_key_expr(sharding_key_ ? ExpressionAnalyzer(sharding_key_, context, nullptr, *columns).getActions(false) : nullptr),
sharding_key_column_name(sharding_key_ ? sharding_key_->getColumnName() : String{}),
path(data_path_.empty() ? "" : (data_path_ + escapeForFileName(name) + '/'))
{
}
StoragePtr StorageDistributed::createWithOwnCluster(
const std::string & name_,
NamesAndTypesListPtr columns_,
const String & remote_database_,
const String & remote_table_,
ClusterPtr & owned_cluster_,
const Context & context_)
{
auto res = make_shared(
name_, columns_, remote_database_,
remote_table_, String{}, context_);
res->owned_cluster = owned_cluster_;
return res;
}
BlockInputStreams StorageDistributed::read(
const Names & column_names,
const SelectQueryInfo & query_info,
const Context & context,
QueryProcessingStage::Enum & processed_stage,
const size_t max_block_size,
const unsigned num_streams)
{
auto cluster = getCluster();
const Settings & settings = context.getSettingsRef();
size_t result_size = (cluster->getRemoteShardCount() * settings.max_parallel_replicas) + cluster->getLocalShardCount();
processed_stage = result_size == 1 || settings.distributed_group_by_no_merge
? QueryProcessingStage::Complete
: QueryProcessingStage::WithMergeableState;
const auto & modified_query_ast = rewriteSelectQuery(
query_info.query, remote_database, remote_table);
Tables external_tables;
if (settings.global_subqueries_method == GlobalSubqueriesMethod::PUSH)
external_tables = context.getExternalTables();
ClusterProxy::SelectStreamFactory select_stream_factory(
processed_stage, QualifiedTableName{remote_database, remote_table}, external_tables);
return ClusterProxy::executeQuery(
select_stream_factory, cluster, modified_query_ast, context, settings);
}
BlockOutputStreamPtr StorageDistributed::write(const ASTPtr & query, const Settings & settings)
{
auto cluster = context.getCluster(cluster_name);
/// TODO: !path.empty() can be replaced by !owned_cluster or !cluster_name.empty() ?
bool write_enabled = !path.empty() && (((cluster->getLocalShardCount() + cluster->getRemoteShardCount()) < 2) || has_sharding_key);
if (!write_enabled)
throw Exception{
"Method write is not supported by storage " + getName() +
" with more than one shard and no sharding key provided",
ErrorCodes::STORAGE_REQUIRES_PARAMETER};
/// DistributedBlockOutputStream will not own cluster, but will own ConnectionPools of the cluster
return std::make_shared<DistributedBlockOutputStream>(
*this, rewriteInsertQuery(query, remote_database, remote_table), cluster, settings.insert_distributed_sync, settings.insert_distributed_timeout);
}
void StorageDistributed::alter(const AlterCommands & params, const String & database_name, const String & table_name, const Context & context)
{
for (const auto & param : params)
if (param.type == AlterCommand::MODIFY_PRIMARY_KEY)
throw Exception("Storage engine " + getName() + " doesn't support primary key.", ErrorCodes::NOT_IMPLEMENTED);
auto lock = lockStructureForAlter(__PRETTY_FUNCTION__);
params.apply(*columns, materialized_columns, alias_columns, column_defaults);
context.getDatabase(database_name)->alterTable(
context, table_name,
*columns, materialized_columns, alias_columns, column_defaults, {});
}
void StorageDistributed::startup()
{
createDirectoryMonitors();
initializeFileNamesIncrement(path, file_names_increment);
}
void StorageDistributed::shutdown()
{
cluster_nodes_data.clear();
}
void StorageDistributed::reshardPartitions(
const ASTPtr & query, const String & database_name,
const Field & partition,
const WeightedZooKeeperPaths & weighted_zookeeper_paths,
const ASTPtr & sharding_key_expr, bool do_copy, const Field & coordinator,
const Context & context)
{
auto & resharding_worker = context.getReshardingWorker();
if (!resharding_worker.isStarted())
throw Exception{"Resharding background thread is not running", ErrorCodes::RESHARDING_NO_WORKER};
if (!coordinator.isNull())
throw Exception{"Use of COORDINATE WITH is forbidden in ALTER TABLE ... RESHARD"
" queries for distributed tables",
ErrorCodes::RESHARDING_INVALID_PARAMETERS};
auto cluster = getCluster();
/// resharding_worker doesn't need to own cluster, here only meta-information of cluster is used
std::string coordinator_id = resharding_worker.createCoordinator(*cluster);
std::atomic<bool> has_notified_error{false};
std::string dumped_coordinator_state;
auto handle_exception = [&](const std::string & msg = "")
{
try
{
if (!has_notified_error)
resharding_worker.setStatus(coordinator_id, ReshardingWorker::STATUS_ERROR, msg);
dumped_coordinator_state = resharding_worker.dumpCoordinatorState(coordinator_id);
resharding_worker.deleteCoordinator(coordinator_id);
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
};
try
{
/// Create query ALTER TABLE ... RESHARD [COPY] PARTITION ... COORDINATE WITH ...
ASTPtr alter_query_ptr = std::make_shared<ASTAlterQuery>();
auto & alter_query = static_cast<ASTAlterQuery &>(*alter_query_ptr);
alter_query.database = remote_database;
alter_query.table = remote_table;
alter_query.parameters.emplace_back();
ASTAlterQuery::Parameters & parameters = alter_query.parameters.back();
parameters.type = ASTAlterQuery::RESHARD_PARTITION;
if (!partition.isNull())
parameters.partition = std::make_shared<ASTLiteral>(StringRange(), partition);
ASTPtr expr_list = std::make_shared<ASTExpressionList>();
for (const auto & entry : weighted_zookeeper_paths)
{
ASTPtr weighted_path_ptr = std::make_shared<ASTWeightedZooKeeperPath>();
auto & weighted_path = static_cast<ASTWeightedZooKeeperPath &>(*weighted_path_ptr);
weighted_path.path = entry.first;
weighted_path.weight = entry.second;
expr_list->children.push_back(weighted_path_ptr);
}
parameters.weighted_zookeeper_paths = expr_list;
parameters.sharding_key_expr = sharding_key_expr;
parameters.do_copy = do_copy;
parameters.coordinator = std::make_shared<ASTLiteral>(StringRange(), Field(coordinator_id));
resharding_worker.registerQuery(coordinator_id, queryToString(alter_query_ptr));
ClusterProxy::AlterStreamFactory alter_stream_factory;
BlockInputStreams streams = ClusterProxy::executeQuery(
alter_stream_factory, cluster, alter_query_ptr, context, context.getSettingsRef());
/// This callback is called if an exception has occurred while attempting to read
/// a block from a shard. This is to avoid a potential deadlock if other shards are
/// waiting inside a barrier. Actually, even without this solution, we would avoid
/// such a deadlock because we would eventually time out while trying to get remote
/// blocks. Nevertheless this is not the ideal way of sorting out this issue since
/// we would then not get to know the actual cause of the failure.
auto exception_callback = [&resharding_worker, coordinator_id, &has_notified_error]()
{
try
{
resharding_worker.setStatus(coordinator_id, ReshardingWorker::STATUS_ERROR);
has_notified_error = true;
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
};
streams[0] = std::make_shared<UnionBlockInputStream<>>(
streams, nullptr, context.getSettingsRef().max_distributed_connections, exception_callback);
streams.resize(1);
auto stream_ptr = dynamic_cast<IProfilingBlockInputStream *>(&*streams[0]);
if (stream_ptr == nullptr)
throw Exception{"StorageDistributed: Internal error", ErrorCodes::LOGICAL_ERROR};
auto & stream = *stream_ptr;
stream.readPrefix();
while (!stream.isCancelled() && stream.read())
;
if (!stream.isCancelled())
stream.readSuffix();
}
catch (const Exception & ex)
{
handle_exception(ex.message());
LOG_ERROR(log, dumped_coordinator_state);
throw;
}
catch (const std::exception & ex)
{
handle_exception(ex.what());
LOG_ERROR(log, dumped_coordinator_state);
throw;
}
catch (...)
{
handle_exception();
LOG_ERROR(log, dumped_coordinator_state);
throw;
}
}
BlockInputStreams StorageDistributed::describe(const Context & context, const Settings & settings)
{
/// Create DESCRIBE TABLE query.
auto cluster = getCluster();
ASTPtr describe_query_ptr = std::make_shared<ASTDescribeQuery>();
auto & describe_query = static_cast<ASTDescribeQuery &>(*describe_query_ptr);
describe_query.database = remote_database;
describe_query.table = remote_table;
ClusterProxy::DescribeStreamFactory describe_stream_factory;
return ClusterProxy::executeQuery(
describe_stream_factory, cluster, describe_query_ptr, context, settings);
}
NameAndTypePair StorageDistributed::getColumn(const String & column_name) const
{
if (const auto & type = VirtualColumnFactory::tryGetType(column_name))
return { column_name, type };
return getRealColumn(column_name);
}
bool StorageDistributed::hasColumn(const String & column_name) const
{
return VirtualColumnFactory::hasColumn(column_name) || IStorage::hasColumn(column_name);
}
void StorageDistributed::createDirectoryMonitors()
{
if (path.empty())
return;
Poco::File{path}.createDirectory();
boost::filesystem::directory_iterator begin(path);
boost::filesystem::directory_iterator end;
for (auto it = begin; it != end; ++it)
if (it->status().type() == boost::filesystem::directory_file)
requireDirectoryMonitor(it->path().filename().string());
}
void StorageDistributed::requireDirectoryMonitor(const std::string & name)
{
cluster_nodes_data[name].requireDirectoryMonitor(name, *this);
}
ConnectionPoolPtr StorageDistributed::requireConnectionPool(const std::string & name)
{
auto & node_data = cluster_nodes_data[name];
node_data.requireConnectionPool(name, *this);
return node_data.conneciton_pool;
}
size_t StorageDistributed::getShardCount() const
{
return getCluster()->getRemoteShardCount();
}
ClusterPtr StorageDistributed::getCluster() const
{
return (owned_cluster) ? owned_cluster : context.getCluster(cluster_name);
}
void StorageDistributed::ClusterNodeData::requireConnectionPool(const std::string & name, const StorageDistributed & storage)
{
if (!conneciton_pool)
conneciton_pool = StorageDistributedDirectoryMonitor::createPool(name, storage);
}
void StorageDistributed::ClusterNodeData::requireDirectoryMonitor(const std::string & name, StorageDistributed & storage)
{
requireConnectionPool(name, storage);
if (!directory_monitor)
directory_monitor = std::make_unique<StorageDistributedDirectoryMonitor>(storage, name, conneciton_pool);
}
}