ClickHouse/programs/copier/TaskTable.cpp

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#include "TaskTable.h"
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#include "ClusterPartition.h"
#include "TaskCluster.h"
#include <Parsers/ASTFunction.h>
#include <boost/algorithm/string/join.hpp>
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namespace DB
{
namespace ErrorCodes
{
extern const int UNKNOWN_ELEMENT_IN_CONFIG;
extern const int LOGICAL_ERROR;
}
TaskTable::TaskTable(TaskCluster & parent, const Poco::Util::AbstractConfiguration & config,
const String & prefix_, const String & table_key)
: task_cluster(parent)
{
String table_prefix = prefix_ + "." + table_key + ".";
name_in_config = table_key;
number_of_splits = config.getUInt64(table_prefix + "number_of_splits", 3);
allow_to_copy_alias_and_materialized_columns = config.getBool(table_prefix + "allow_to_copy_alias_and_materialized_columns", false);
allow_to_drop_target_partitions = config.getBool(table_prefix + "allow_to_drop_target_partitions", false);
cluster_pull_name = config.getString(table_prefix + "cluster_pull");
cluster_push_name = config.getString(table_prefix + "cluster_push");
table_pull.first = config.getString(table_prefix + "database_pull");
table_pull.second = config.getString(table_prefix + "table_pull");
table_push.first = config.getString(table_prefix + "database_push");
table_push.second = config.getString(table_prefix + "table_push");
/// Used as node name in ZooKeeper
table_id = escapeForFileName(cluster_push_name)
+ "." + escapeForFileName(table_push.first)
+ "." + escapeForFileName(table_push.second);
engine_push_str = config.getString(table_prefix + "engine", "rand()");
{
ParserStorage parser_storage{ParserStorage::TABLE_ENGINE};
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engine_push_ast = parseQuery(parser_storage, engine_push_str, 0, DBMS_DEFAULT_MAX_PARSER_DEPTH);
engine_push_partition_key_ast = extractPartitionKey(engine_push_ast);
primary_key_comma_separated = boost::algorithm::join(extractPrimaryKeyColumnNames(engine_push_ast), ", ");
is_replicated_table = isReplicatedTableEngine(engine_push_ast);
}
sharding_key_str = config.getString(table_prefix + "sharding_key");
auxiliary_engine_split_asts.reserve(number_of_splits);
{
ParserExpressionWithOptionalAlias parser_expression(false);
sharding_key_ast = parseQuery(parser_expression, sharding_key_str, 0, DBMS_DEFAULT_MAX_PARSER_DEPTH);
main_engine_split_ast = createASTStorageDistributed(cluster_push_name, table_push.first, table_push.second,
sharding_key_ast);
for (const auto piece_number : collections::range(0, number_of_splits))
{
auxiliary_engine_split_asts.emplace_back
(
createASTStorageDistributed(cluster_push_name, table_push.first,
table_push.second + "_piece_" + toString(piece_number), sharding_key_ast)
);
}
}
where_condition_str = config.getString(table_prefix + "where_condition", "");
if (!where_condition_str.empty())
{
ParserExpressionWithOptionalAlias parser_expression(false);
where_condition_ast = parseQuery(parser_expression, where_condition_str, 0, DBMS_DEFAULT_MAX_PARSER_DEPTH);
// Will use canonical expression form
where_condition_str = queryToString(where_condition_ast);
}
String enabled_partitions_prefix = table_prefix + "enabled_partitions";
has_enabled_partitions = config.has(enabled_partitions_prefix);
if (has_enabled_partitions)
{
Strings keys;
config.keys(enabled_partitions_prefix, keys);
if (keys.empty())
{
/// Parse list of partition from space-separated string
String partitions_str = config.getString(table_prefix + "enabled_partitions");
boost::trim_if(partitions_str, isWhitespaceASCII);
boost::split(enabled_partitions, partitions_str, isWhitespaceASCII, boost::token_compress_on);
}
else
{
/// Parse sequence of <partition>...</partition>
for (const String &key : keys)
{
if (!startsWith(key, "partition"))
throw Exception(ErrorCodes::UNKNOWN_ELEMENT_IN_CONFIG, "Unknown key {} in {}", key, enabled_partitions_prefix);
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enabled_partitions.emplace_back(config.getString(enabled_partitions_prefix + "." + key));
}
}
std::copy(enabled_partitions.begin(), enabled_partitions.end(), std::inserter(enabled_partitions_set, enabled_partitions_set.begin()));
}
}
String TaskTable::getPartitionPath(const String & partition_name) const
{
return task_cluster.task_zookeeper_path // root
+ "/tables/" + table_id // tables/dst_cluster.merge.hits
+ "/" + escapeForFileName(partition_name); // 201701
}
String TaskTable::getPartitionAttachIsActivePath(const String & partition_name) const
{
return getPartitionPath(partition_name) + "/attach_active";
}
String TaskTable::getPartitionAttachIsDonePath(const String & partition_name) const
{
return getPartitionPath(partition_name) + "/attach_is_done";
}
String TaskTable::getPartitionPiecePath(const String & partition_name, size_t piece_number) const
{
assert(piece_number < number_of_splits);
return getPartitionPath(partition_name) + "/piece_" + toString(piece_number); // 1...number_of_splits
}
String TaskTable::getCertainPartitionIsDirtyPath(const String &partition_name) const
{
return getPartitionPath(partition_name) + "/is_dirty";
}
String TaskTable::getCertainPartitionPieceIsDirtyPath(const String & partition_name, const size_t piece_number) const
{
return getPartitionPiecePath(partition_name, piece_number) + "/is_dirty";
}
String TaskTable::getCertainPartitionIsCleanedPath(const String & partition_name) const
{
return getCertainPartitionIsDirtyPath(partition_name) + "/cleaned";
}
String TaskTable::getCertainPartitionPieceIsCleanedPath(const String & partition_name, const size_t piece_number) const
{
return getCertainPartitionPieceIsDirtyPath(partition_name, piece_number) + "/cleaned";
}
String TaskTable::getCertainPartitionTaskStatusPath(const String & partition_name) const
{
return getPartitionPath(partition_name) + "/shards";
}
String TaskTable::getCertainPartitionPieceTaskStatusPath(const String & partition_name, const size_t piece_number) const
{
return getPartitionPiecePath(partition_name, piece_number) + "/shards";
}
bool TaskTable::isReplicatedTable() const
{
return is_replicated_table;
}
String TaskTable::getStatusAllPartitionCount() const
{
return task_cluster.task_zookeeper_path + "/status/all_partitions_count";
}
String TaskTable::getStatusProcessedPartitionsCount() const
{
return task_cluster.task_zookeeper_path + "/status/processed_partitions_count";
}
ASTPtr TaskTable::rewriteReplicatedCreateQueryToPlain() const
{
ASTPtr prev_engine_push_ast = engine_push_ast->clone();
auto & new_storage_ast = prev_engine_push_ast->as<ASTStorage &>();
auto & new_engine_ast = new_storage_ast.engine->as<ASTFunction &>();
/// Remove "Replicated" from name
new_engine_ast.name = new_engine_ast.name.substr(10);
if (new_engine_ast.arguments)
{
auto & replicated_table_arguments = new_engine_ast.arguments->children;
/// In some cases of Atomic database engine usage ReplicatedMergeTree tables
/// could be created without arguments.
if (!replicated_table_arguments.empty())
{
/// Delete first two arguments of Replicated...MergeTree() table.
replicated_table_arguments.erase(replicated_table_arguments.begin());
replicated_table_arguments.erase(replicated_table_arguments.begin());
}
}
return new_storage_ast.clone();
}
ClusterPartition & TaskTable::getClusterPartition(const String & partition_name)
{
auto it = cluster_partitions.find(partition_name);
if (it == cluster_partitions.end())
throw Exception(ErrorCodes::LOGICAL_ERROR, "There are no cluster partition {} in {}", partition_name, table_id);
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return it->second;
}
}