ClickHouse/dbms/DataStreams/PushingToViewsBlockOutputStream.cpp
Ivan 97f2a2213e
Move all folders inside /dbms one level up (#9974)
* Move some code outside dbms/src folder
* Fix paths
2020-04-02 02:51:21 +03:00

273 lines
11 KiB
C++

#include <DataStreams/AddingDefaultBlockOutputStream.h>
#include <DataStreams/ConvertingBlockInputStream.h>
#include <DataStreams/PushingToViewsBlockOutputStream.h>
#include <DataStreams/SquashingBlockInputStream.h>
#include <DataTypes/NestedUtils.h>
#include <Interpreters/InterpreterSelectQuery.h>
#include <Interpreters/InterpreterInsertQuery.h>
#include <Parsers/ASTInsertQuery.h>
#include <Common/CurrentThread.h>
#include <Common/setThreadName.h>
#include <Common/ThreadPool.h>
#include <Storages/MergeTree/ReplicatedMergeTreeBlockOutputStream.h>
#include <Storages/StorageValues.h>
#include <Storages/LiveView/StorageLiveView.h>
namespace DB
{
PushingToViewsBlockOutputStream::PushingToViewsBlockOutputStream(
const StoragePtr & storage_,
const Context & context_, const ASTPtr & query_ptr_, bool no_destination)
: storage(storage_), context(context_), query_ptr(query_ptr_)
{
/** TODO This is a very important line. At any insertion into the table one of streams should own lock.
* Although now any insertion into the table is done via PushingToViewsBlockOutputStream,
* but it's clear that here is not the best place for this functionality.
*/
addTableLock(storage->lockStructureForShare(true, context.getInitialQueryId()));
/// If the "root" table deduplactes blocks, there are no need to make deduplication for children
/// Moreover, deduplication for AggregatingMergeTree children could produce false positives due to low size of inserting blocks
bool disable_deduplication_for_children = false;
if (!context.getSettingsRef().deduplicate_blocks_in_dependent_materialized_views)
disable_deduplication_for_children = !no_destination && storage->supportsDeduplication();
auto table_id = storage->getStorageID();
Dependencies dependencies = DatabaseCatalog::instance().getDependencies(table_id);
/// We need special context for materialized views insertions
if (!dependencies.empty())
{
views_context = std::make_unique<Context>(context);
// Do not deduplicate insertions into MV if the main insertion is Ok
if (disable_deduplication_for_children)
views_context->setSetting("insert_deduplicate", false);
}
for (const auto & database_table : dependencies)
{
auto dependent_table = DatabaseCatalog::instance().getTable(database_table);
ASTPtr query;
BlockOutputStreamPtr out;
if (auto * materialized_view = dynamic_cast<StorageMaterializedView *>(dependent_table.get()))
{
addTableLock(materialized_view->lockStructureForShare(true, context.getInitialQueryId()));
StoragePtr inner_table = materialized_view->getTargetTable();
auto inner_table_id = inner_table->getStorageID();
query = materialized_view->getInnerQuery();
std::unique_ptr<ASTInsertQuery> insert = std::make_unique<ASTInsertQuery>();
insert->table_id = inner_table_id;
/// Get list of columns we get from select query.
auto header = InterpreterSelectQuery(query, *views_context, SelectQueryOptions().analyze())
.getSampleBlock();
/// Insert only columns returned by select.
auto list = std::make_shared<ASTExpressionList>();
for (auto & column : header)
/// But skip columns which storage doesn't have.
if (inner_table->hasColumn(column.name))
list->children.emplace_back(std::make_shared<ASTIdentifier>(column.name));
insert->columns = std::move(list);
ASTPtr insert_query_ptr(insert.release());
InterpreterInsertQuery interpreter(insert_query_ptr, *views_context);
BlockIO io = interpreter.execute();
out = io.out;
}
else if (dynamic_cast<const StorageLiveView *>(dependent_table.get()))
out = std::make_shared<PushingToViewsBlockOutputStream>(dependent_table, *views_context, ASTPtr(), true);
else
out = std::make_shared<PushingToViewsBlockOutputStream>(dependent_table, *views_context, ASTPtr());
views.emplace_back(ViewInfo{std::move(query), database_table, std::move(out)});
}
/* Do not push to destination table if the flag is set */
if (!no_destination)
{
output = storage->write(query_ptr, context);
replicated_output = dynamic_cast<ReplicatedMergeTreeBlockOutputStream *>(output.get());
}
}
Block PushingToViewsBlockOutputStream::getHeader() const
{
/// If we don't write directly to the destination
/// then expect that we're inserting with precalculated virtual columns
if (output)
return storage->getSampleBlock();
else
return storage->getSampleBlockWithVirtuals();
}
void PushingToViewsBlockOutputStream::write(const Block & block)
{
/** Throw an exception if the sizes of arrays - elements of nested data structures doesn't match.
* We have to make this assertion before writing to table, because storage engine may assume that they have equal sizes.
* NOTE It'd better to do this check in serialization of nested structures (in place when this assumption is required),
* but currently we don't have methods for serialization of nested structures "as a whole".
*/
Nested::validateArraySizes(block);
if (auto * live_view = dynamic_cast<StorageLiveView *>(storage.get()))
{
StorageLiveView::writeIntoLiveView(*live_view, block, context);
}
else
{
if (output)
/// TODO: to support virtual and alias columns inside MVs, we should return here the inserted block extended
/// with additional columns directly from storage and pass it to MVs instead of raw block.
output->write(block);
}
/// Don't process materialized views if this block is duplicate
if (!context.getSettingsRef().deduplicate_blocks_in_dependent_materialized_views && replicated_output && replicated_output->lastBlockIsDuplicate())
return;
// Insert data into materialized views only after successful insert into main table
const Settings & settings = context.getSettingsRef();
if (settings.parallel_view_processing && views.size() > 1)
{
// Push to views concurrently if enabled, and more than one view is attached
ThreadPool pool(std::min(size_t(settings.max_threads), views.size()));
for (size_t view_num = 0; view_num < views.size(); ++view_num)
{
auto thread_group = CurrentThread::getGroup();
pool.scheduleOrThrowOnError([=, this]
{
setThreadName("PushingToViews");
if (thread_group)
CurrentThread::attachToIfDetached(thread_group);
process(block, view_num);
});
}
// Wait for concurrent view processing
pool.wait();
}
else
{
// Process sequentially
for (size_t view_num = 0; view_num < views.size(); ++view_num)
process(block, view_num);
}
}
void PushingToViewsBlockOutputStream::writePrefix()
{
if (output)
output->writePrefix();
for (auto & view : views)
{
try
{
view.out->writePrefix();
}
catch (Exception & ex)
{
ex.addMessage("while write prefix to view " + view.table_id.getNameForLogs());
throw;
}
}
}
void PushingToViewsBlockOutputStream::writeSuffix()
{
if (output)
output->writeSuffix();
for (auto & view : views)
{
try
{
view.out->writeSuffix();
}
catch (Exception & ex)
{
ex.addMessage("while write prefix to view " + view.table_id.getNameForLogs());
throw;
}
}
}
void PushingToViewsBlockOutputStream::flush()
{
if (output)
output->flush();
for (auto & view : views)
view.out->flush();
}
void PushingToViewsBlockOutputStream::process(const Block & block, size_t view_num)
{
auto & view = views[view_num];
try
{
BlockInputStreamPtr in;
/// We need keep InterpreterSelectQuery, until the processing will be finished, since:
///
/// - We copy Context inside InterpreterSelectQuery to support
/// modification of context (Settings) for subqueries
/// - InterpreterSelectQuery lives shorter than query pipeline.
/// It's used just to build the query pipeline and no longer needed
/// - ExpressionAnalyzer and then, Functions, that created in InterpreterSelectQuery,
/// **can** take a reference to Context from InterpreterSelectQuery
/// (the problem raises only when function uses context from the
/// execute*() method, like FunctionDictGet do)
/// - These objects live inside query pipeline (DataStreams) and the reference become dangling.
std::optional<InterpreterSelectQuery> select;
if (view.query)
{
/// We create a table with the same name as original table and the same alias columns,
/// but it will contain single block (that is INSERT-ed into main table).
/// InterpreterSelectQuery will do processing of alias columns.
Context local_context = *views_context;
local_context.addViewSource(
StorageValues::create(storage->getStorageID(), storage->getColumns(),
block));
select.emplace(view.query, local_context, SelectQueryOptions());
in = std::make_shared<MaterializingBlockInputStream>(select->execute().in);
/// Squashing is needed here because the materialized view query can generate a lot of blocks
/// even when only one block is inserted into the parent table (e.g. if the query is a GROUP BY
/// and two-level aggregation is triggered).
in = std::make_shared<SquashingBlockInputStream>(
in, context.getSettingsRef().min_insert_block_size_rows, context.getSettingsRef().min_insert_block_size_bytes);
in = std::make_shared<ConvertingBlockInputStream>(context, in, view.out->getHeader(), ConvertingBlockInputStream::MatchColumnsMode::Name);
}
else
in = std::make_shared<OneBlockInputStream>(block);
in->readPrefix();
while (Block result_block = in->read())
{
Nested::validateArraySizes(result_block);
view.out->write(result_block);
}
in->readSuffix();
}
catch (Exception & ex)
{
ex.addMessage("while pushing to view " + view.table_id.getNameForLogs());
throw;
}
}
}