ClickHouse/src/Storages/buildQueryTreeForShard.cpp
2023-07-27 21:24:39 +00:00

379 lines
16 KiB
C++

#include <Storages/buildQueryTreeForShard.h>
#include <Analyzer/ColumnNode.h>
#include <Analyzer/FunctionNode.h>
#include <Analyzer/IQueryTreeNode.h>
#include <Analyzer/InDepthQueryTreeVisitor.h>
#include <Analyzer/TableNode.h>
#include <Analyzer/JoinNode.h>
#include <Analyzer/Utils.h>
#include <Functions/FunctionFactory.h>
#include <Interpreters/InterpreterSelectQueryAnalyzer.h>
#include <Storages/removeGroupingFunctionSpecializations.h>
#include <Storages/StorageDistributed.h>
#include <Storages/StorageDummy.h>
#include <Planner/Utils.h>
#include <Processors/Executors/CompletedPipelineExecutor.h>
#include <Processors/QueryPlan/ExpressionStep.h>
#include <Processors/QueryPlan/Optimizations/QueryPlanOptimizationSettings.h>
#include <QueryPipeline/QueryPipelineBuilder.h>
namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
extern const int DISTRIBUTED_IN_JOIN_SUBQUERY_DENIED;
}
namespace
{
/// Visitor that collect column source to columns mapping from query and all subqueries
class CollectColumnSourceToColumnsVisitor : public InDepthQueryTreeVisitor<CollectColumnSourceToColumnsVisitor>
{
public:
struct Columns
{
NameSet column_names;
NamesAndTypes columns;
void addColumn(NameAndTypePair column)
{
if (column_names.contains(column.name))
return;
column_names.insert(column.name);
columns.push_back(std::move(column));
}
};
const std::unordered_map<QueryTreeNodePtr, Columns> & getColumnSourceToColumns() const
{
return column_source_to_columns;
}
void visitImpl(QueryTreeNodePtr & node)
{
auto * column_node = node->as<ColumnNode>();
if (!column_node)
return;
auto column_source = column_node->getColumnSourceOrNull();
if (!column_source)
return;
auto it = column_source_to_columns.find(column_source);
if (it == column_source_to_columns.end())
{
auto [insert_it, _] = column_source_to_columns.emplace(column_source, Columns());
it = insert_it;
}
it->second.addColumn(column_node->getColumn());
}
private:
std::unordered_map<QueryTreeNodePtr, Columns> column_source_to_columns;
};
/** Visitor that rewrites IN and JOINs in query and all subqueries according to distributed_product_mode and
* prefer_global_in_and_join settings.
*
* Additionally collects GLOBAL JOIN and GLOBAL IN query nodes.
*
* If distributed_product_mode = deny, then visitor throws exception if there are multiple distributed tables.
* If distributed_product_mode = local, then visitor collects replacement map for tables that must be replaced
* with local tables.
* If distributed_product_mode = global or prefer_global_in_and_join setting is true, then visitor rewrites JOINs and IN functions that
* contain distributed tables to GLOBAL JOINs and GLOBAL IN functions.
* If distributed_product_mode = allow, then visitor does not rewrite query if there are multiple distributed tables.
*/
class DistributedProductModeRewriteInJoinVisitor : public InDepthQueryTreeVisitorWithContext<DistributedProductModeRewriteInJoinVisitor>
{
public:
using Base = InDepthQueryTreeVisitorWithContext<DistributedProductModeRewriteInJoinVisitor>;
using Base::Base;
explicit DistributedProductModeRewriteInJoinVisitor(const ContextPtr & context_)
: Base(context_)
{}
struct InFunctionOrJoin
{
QueryTreeNodePtr query_node;
size_t subquery_depth = 0;
};
const std::unordered_map<const IQueryTreeNode *, QueryTreeNodePtr> & getReplacementMap() const
{
return replacement_map;
}
const std::vector<InFunctionOrJoin> & getGlobalInOrJoinNodes() const
{
return global_in_or_join_nodes;
}
static bool needChildVisit(QueryTreeNodePtr & parent, QueryTreeNodePtr & child)
{
auto * function_node = parent->as<FunctionNode>();
if (function_node && isNameOfGlobalInFunction(function_node->getFunctionName()))
return false;
auto * join_node = parent->as<JoinNode>();
if (join_node && join_node->getLocality() == JoinLocality::Global && join_node->getRightTableExpression() == child)
return false;
return true;
}
void enterImpl(QueryTreeNodePtr & node)
{
auto * function_node = node->as<FunctionNode>();
auto * join_node = node->as<JoinNode>();
if ((function_node && isNameOfGlobalInFunction(function_node->getFunctionName())) ||
(join_node && join_node->getLocality() == JoinLocality::Global))
{
InFunctionOrJoin in_function_or_join_entry;
in_function_or_join_entry.query_node = node;
in_function_or_join_entry.subquery_depth = getSubqueryDepth();
global_in_or_join_nodes.push_back(std::move(in_function_or_join_entry));
return;
}
if ((function_node && isNameOfLocalInFunction(function_node->getFunctionName())) ||
(join_node && join_node->getLocality() != JoinLocality::Global))
{
InFunctionOrJoin in_function_or_join_entry;
in_function_or_join_entry.query_node = node;
in_function_or_join_entry.subquery_depth = getSubqueryDepth();
in_function_or_join_stack.push_back(in_function_or_join_entry);
return;
}
if (node->getNodeType() == QueryTreeNodeType::TABLE)
tryRewriteTableNodeIfNeeded(node);
}
void leaveImpl(QueryTreeNodePtr & node)
{
if (!in_function_or_join_stack.empty() && node.get() == in_function_or_join_stack.back().query_node.get())
in_function_or_join_stack.pop_back();
}
private:
void tryRewriteTableNodeIfNeeded(const QueryTreeNodePtr & table_node)
{
const auto & table_node_typed = table_node->as<TableNode &>();
const auto * distributed_storage = typeid_cast<const StorageDistributed *>(table_node_typed.getStorage().get());
if (!distributed_storage)
return;
bool distributed_valid_for_rewrite = distributed_storage->getShardCount() >= 2;
if (!distributed_valid_for_rewrite)
return;
auto distributed_product_mode = getSettings().distributed_product_mode;
if (distributed_product_mode == DistributedProductMode::LOCAL)
{
StorageID remote_storage_id = StorageID{distributed_storage->getRemoteDatabaseName(),
distributed_storage->getRemoteTableName()};
auto resolved_remote_storage_id = getContext()->resolveStorageID(remote_storage_id);
const auto & distributed_storage_columns = table_node_typed.getStorageSnapshot()->metadata->getColumns();
auto storage = std::make_shared<StorageDummy>(resolved_remote_storage_id, distributed_storage_columns);
auto replacement_table_expression = std::make_shared<TableNode>(std::move(storage), getContext());
replacement_map.emplace(table_node.get(), std::move(replacement_table_expression));
}
else if ((distributed_product_mode == DistributedProductMode::GLOBAL || getSettings().prefer_global_in_and_join) &&
!in_function_or_join_stack.empty())
{
auto * in_or_join_node_to_modify = in_function_or_join_stack.back().query_node.get();
if (auto * in_function_to_modify = in_or_join_node_to_modify->as<FunctionNode>())
{
auto global_in_function_name = getGlobalInFunctionNameForLocalInFunctionName(in_function_to_modify->getFunctionName());
auto global_in_function_resolver = FunctionFactory::instance().get(global_in_function_name, getContext());
in_function_to_modify->resolveAsFunction(global_in_function_resolver->build(in_function_to_modify->getArgumentColumns()));
}
else if (auto * join_node_to_modify = in_or_join_node_to_modify->as<JoinNode>())
{
join_node_to_modify->setLocality(JoinLocality::Global);
}
global_in_or_join_nodes.push_back(in_function_or_join_stack.back());
}
else if (distributed_product_mode == DistributedProductMode::ALLOW)
{
return;
}
else if (distributed_product_mode == DistributedProductMode::DENY)
{
throw Exception(ErrorCodes::DISTRIBUTED_IN_JOIN_SUBQUERY_DENIED,
"Double-distributed IN/JOIN subqueries is denied (distributed_product_mode = 'deny'). "
"You may rewrite query to use local tables "
"in subqueries, or use GLOBAL keyword, or set distributed_product_mode to suitable value.");
}
}
std::vector<InFunctionOrJoin> in_function_or_join_stack;
std::unordered_map<const IQueryTreeNode *, QueryTreeNodePtr> replacement_map;
std::vector<InFunctionOrJoin> global_in_or_join_nodes;
};
/** Execute subquery node and put result in mutable context temporary table.
* Returns table node that is initialized with temporary table storage.
*/
TableNodePtr executeSubqueryNode(const QueryTreeNodePtr & subquery_node,
ContextMutablePtr & mutable_context,
size_t subquery_depth)
{
auto subquery_hash = subquery_node->getTreeHash();
String temporary_table_name = fmt::format("_data_{}_{}", subquery_hash.first, subquery_hash.second);
const auto & external_tables = mutable_context->getExternalTables();
auto external_table_it = external_tables.find(temporary_table_name);
if (external_table_it != external_tables.end())
{
auto temporary_table_expression_node = std::make_shared<TableNode>(external_table_it->second, mutable_context);
temporary_table_expression_node->setTemporaryTableName(temporary_table_name);
return temporary_table_expression_node;
}
auto subquery_options = SelectQueryOptions(QueryProcessingStage::Complete, subquery_depth, true /*is_subquery*/);
auto context_copy = Context::createCopy(mutable_context);
updateContextForSubqueryExecution(context_copy);
InterpreterSelectQueryAnalyzer interpreter(subquery_node, context_copy, subquery_options);
auto & query_plan = interpreter.getQueryPlan();
auto sample_block_with_unique_names = query_plan.getCurrentDataStream().header;
makeUniqueColumnNamesInBlock(sample_block_with_unique_names);
if (!blocksHaveEqualStructure(sample_block_with_unique_names, query_plan.getCurrentDataStream().header))
{
auto actions_dag = ActionsDAG::makeConvertingActions(
query_plan.getCurrentDataStream().header.getColumnsWithTypeAndName(),
sample_block_with_unique_names.getColumnsWithTypeAndName(),
ActionsDAG::MatchColumnsMode::Position);
auto converting_step = std::make_unique<ExpressionStep>(query_plan.getCurrentDataStream(), std::move(actions_dag));
query_plan.addStep(std::move(converting_step));
}
Block sample = interpreter.getSampleBlock();
NamesAndTypesList columns = sample.getNamesAndTypesList();
auto external_storage_holder = TemporaryTableHolder(
mutable_context,
ColumnsDescription{columns},
ConstraintsDescription{},
nullptr /*query*/,
true /*create_for_global_subquery*/);
StoragePtr external_storage = external_storage_holder.getTable();
auto temporary_table_expression_node = std::make_shared<TableNode>(external_storage, mutable_context);
temporary_table_expression_node->setTemporaryTableName(temporary_table_name);
auto table_out = external_storage->write({}, external_storage->getInMemoryMetadataPtr(), mutable_context, /*async_insert=*/false);
auto optimization_settings = QueryPlanOptimizationSettings::fromContext(mutable_context);
auto build_pipeline_settings = BuildQueryPipelineSettings::fromContext(mutable_context);
auto pipeline = QueryPipelineBuilder::getPipeline(std::move(*query_plan.buildQueryPipeline(optimization_settings, build_pipeline_settings)));
pipeline.complete(std::move(table_out));
CompletedPipelineExecutor executor(pipeline);
executor.execute();
mutable_context->addExternalTable(temporary_table_name, std::move(external_storage_holder));
return temporary_table_expression_node;
}
}
QueryTreeNodePtr buildQueryTreeForShard(SelectQueryInfo & query_info, QueryTreeNodePtr query_tree_to_modify)
{
auto & planner_context = query_info.planner_context;
CollectColumnSourceToColumnsVisitor collect_column_source_to_columns_visitor;
collect_column_source_to_columns_visitor.visit(query_tree_to_modify);
const auto & column_source_to_columns = collect_column_source_to_columns_visitor.getColumnSourceToColumns();
DistributedProductModeRewriteInJoinVisitor visitor(planner_context->getQueryContext());
visitor.visit(query_tree_to_modify);
auto replacement_map = visitor.getReplacementMap();
const auto & global_in_or_join_nodes = visitor.getGlobalInOrJoinNodes();
for (const auto & global_in_or_join_node : global_in_or_join_nodes)
{
if (auto * join_node = global_in_or_join_node.query_node->as<JoinNode>())
{
auto join_right_table_expression = join_node->getRightTableExpression();
auto join_right_table_expression_node_type = join_right_table_expression->getNodeType();
QueryTreeNodePtr subquery_node;
if (join_right_table_expression_node_type == QueryTreeNodeType::QUERY ||
join_right_table_expression_node_type == QueryTreeNodeType::UNION)
{
subquery_node = join_right_table_expression;
}
else if (join_right_table_expression_node_type == QueryTreeNodeType::TABLE ||
join_right_table_expression_node_type == QueryTreeNodeType::TABLE_FUNCTION)
{
const auto & columns = column_source_to_columns.at(join_right_table_expression).columns;
subquery_node = buildSubqueryToReadColumnsFromTableExpression(columns,
join_right_table_expression,
planner_context->getQueryContext());
}
else
{
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Expected JOIN right table expression to be table, table function, query or union node. Actual {}",
join_right_table_expression->formatASTForErrorMessage());
}
auto temporary_table_expression_node = executeSubqueryNode(subquery_node,
planner_context->getMutableQueryContext(),
global_in_or_join_node.subquery_depth);
temporary_table_expression_node->setAlias(join_right_table_expression->getAlias());
replacement_map.emplace(join_right_table_expression.get(), std::move(temporary_table_expression_node));
continue;
}
else if (auto * in_function_node = global_in_or_join_node.query_node->as<FunctionNode>())
{
auto & in_function_subquery_node = in_function_node->getArguments().getNodes().at(1);
auto in_function_node_type = in_function_subquery_node->getNodeType();
if (in_function_node_type != QueryTreeNodeType::QUERY && in_function_node_type != QueryTreeNodeType::UNION)
continue;
auto temporary_table_expression_node = executeSubqueryNode(in_function_subquery_node,
planner_context->getMutableQueryContext(),
global_in_or_join_node.subquery_depth);
in_function_subquery_node = std::move(temporary_table_expression_node);
}
else
{
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Expected global IN or JOIN query node. Actual {}",
global_in_or_join_node.query_node->formatASTForErrorMessage());
}
}
if (!replacement_map.empty())
query_tree_to_modify = query_tree_to_modify->cloneAndReplace(replacement_map);
removeGroupingFunctionSpecializations(query_tree_to_modify);
return query_tree_to_modify;
}
}