ClickHouse/programs/copier/ClusterCopier.h
Azat Khuzhin 5b3ab48861 More forward declaration for generic headers
The following headers are pretty generic, so use forward declaration as
much as possible:
- Context.h
- Settings.h
- ConnectionTimeouts.h
(Also this shows that some missing some includes -- this has been fixed)

And split ConnectionTimeouts.h into ConnectionTimeoutsContext.h (since
module part cannot be added for it, due to recursive build dependencies
that will be introduced)

Also remove Settings from the RemoteBlockInputStream/RemoteQueryExecutor
and just pass the context, since settings was passed only in speicifc
places, that can allow making a copy of Context (i.e. Copier).

Approx results (How much units will be recompiled after changing file X?):

- ConnectionTimeouts.h
  - mainline: 100

- Context.h:
  - mainline: ~800
  - patched:  415

- Settings.h:
  - mainline: 900-1K
  - patched:  440 (most of them because of the Context.h)
2020-12-12 17:43:10 +03:00

225 lines
8.7 KiB
C++

#pragma once
#include "Aliases.h"
#include "Internals.h"
#include "TaskCluster.h"
#include "TaskTableAndShard.h"
#include "ShardPartition.h"
#include "ShardPartitionPiece.h"
#include "ZooKeeperStaff.h"
namespace DB
{
class ClusterCopier
{
public:
ClusterCopier(const String & task_path_,
const String & host_id_,
const String & proxy_database_name_,
Context & context_)
:
task_zookeeper_path(task_path_),
host_id(host_id_),
working_database_name(proxy_database_name_),
context(context_),
log(&Poco::Logger::get("ClusterCopier")) {}
void init();
template <typename T>
decltype(auto) retry(T && func, UInt64 max_tries = 100);
void discoverShardPartitions(const ConnectionTimeouts & timeouts, const TaskShardPtr & task_shard);
/// Compute set of partitions, assume set of partitions aren't changed during the processing
void discoverTablePartitions(const ConnectionTimeouts & timeouts, TaskTable & task_table, UInt64 num_threads = 0);
void uploadTaskDescription(const std::string & task_path, const std::string & task_file, const bool force);
void reloadTaskDescription();
void updateConfigIfNeeded();
void process(const ConnectionTimeouts & timeouts);
/// Disables DROP PARTITION commands that used to clear data after errors
void setSafeMode(bool is_safe_mode_ = true)
{
is_safe_mode = is_safe_mode_;
}
void setCopyFaultProbability(double copy_fault_probability_)
{
copy_fault_probability = copy_fault_probability_;
}
void setMoveFaultProbability(double move_fault_probability_)
{
move_fault_probability = move_fault_probability_;
}
void setExperimentalUseSampleOffset(bool value)
{
experimental_use_sample_offset = value;
}
protected:
String getWorkersPath() const
{
return task_cluster->task_zookeeper_path + "/task_active_workers";
}
String getWorkersPathVersion() const
{
return getWorkersPath() + "_version";
}
String getCurrentWorkerNodePath() const
{
return getWorkersPath() + "/" + host_id;
}
zkutil::EphemeralNodeHolder::Ptr createTaskWorkerNodeAndWaitIfNeed(
const zkutil::ZooKeeperPtr & zookeeper,
const String & description,
bool unprioritized);
/*
* Checks that partition piece or some other entity is clean.
* The only requirement is that you have to pass is_dirty_flag_path and is_dirty_cleaned_path to the function.
* And is_dirty_flag_path is a parent of is_dirty_cleaned_path.
* */
static bool checkPartitionPieceIsClean(
const zkutil::ZooKeeperPtr & zookeeper,
const CleanStateClock & clean_state_clock,
const String & task_status_path);
bool checkAllPiecesInPartitionAreDone(const TaskTable & task_table, const String & partition_name, const TasksShard & shards_with_partition);
/** Checks that the whole partition of a table was copied. We should do it carefully due to dirty lock.
* State of some task could change during the processing.
* We have to ensure that all shards have the finished state and there is no dirty flag.
* Moreover, we have to check status twice and check zxid, because state can change during the checking.
*/
/* The same as function above
* Assume that we don't know on which shards do we have partition certain piece.
* We'll check them all (I mean shards that contain the whole partition)
* And shards that don't have certain piece MUST mark that piece is_done true.
* */
bool checkPartitionPieceIsDone(const TaskTable & task_table, const String & partition_name,
size_t piece_number, const TasksShard & shards_with_partition);
/*Alter successful insertion to helping tables it will move all pieces to destination table*/
TaskStatus tryMoveAllPiecesToDestinationTable(const TaskTable & task_table, const String & partition_name);
/// Removes MATERIALIZED and ALIAS columns from create table query
static ASTPtr removeAliasColumnsFromCreateQuery(const ASTPtr & query_ast);
bool tryDropPartitionPiece(ShardPartition & task_partition, const size_t current_piece_number,
const zkutil::ZooKeeperPtr & zookeeper, const CleanStateClock & clean_state_clock);
static constexpr UInt64 max_table_tries = 1000;
static constexpr UInt64 max_shard_partition_tries = 600;
static constexpr UInt64 max_shard_partition_piece_tries_for_alter = 100;
bool tryProcessTable(const ConnectionTimeouts & timeouts, TaskTable & task_table);
/// Job for copying partition from particular shard.
TaskStatus tryProcessPartitionTask(const ConnectionTimeouts & timeouts,
ShardPartition & task_partition,
bool is_unprioritized_task);
TaskStatus iterateThroughAllPiecesInPartition(const ConnectionTimeouts & timeouts,
ShardPartition & task_partition,
bool is_unprioritized_task);
TaskStatus processPartitionPieceTaskImpl(const ConnectionTimeouts & timeouts,
ShardPartition & task_partition,
const size_t current_piece_number,
bool is_unprioritized_task);
void dropAndCreateLocalTable(const ASTPtr & create_ast);
void dropLocalTableIfExists(const DatabaseAndTableName & table_name) const;
void dropHelpingTables(const TaskTable & task_table);
/// Is used for usage less disk space.
/// After all pieces were successfully moved to original destination
/// table we can get rid of partition pieces (partitions in helping tables).
void dropParticularPartitionPieceFromAllHelpingTables(const TaskTable & task_table, const String & partition_name);
String getRemoteCreateTable(const DatabaseAndTableName & table, Connection & connection, const Settings & settings);
ASTPtr getCreateTableForPullShard(const ConnectionTimeouts & timeouts, TaskShard & task_shard);
/// If it is implicitly asked to create split Distributed table for certain piece on current shard, we will do it.
void createShardInternalTables(const ConnectionTimeouts & timeouts, TaskShard & task_shard, bool create_split = true);
std::set<String> getShardPartitions(const ConnectionTimeouts & timeouts, TaskShard & task_shard);
bool checkShardHasPartition(const ConnectionTimeouts & timeouts, TaskShard & task_shard, const String & partition_quoted_name);
bool checkPresentPartitionPiecesOnCurrentShard(const ConnectionTimeouts & timeouts,
TaskShard & task_shard, const String & partition_quoted_name, size_t current_piece_number);
/*
* This class is used in executeQueryOnCluster function
* You can execute query on each shard (no sense it is executed on each replica of a shard or not)
* or you can execute query on each replica on each shard.
* First mode is useful for INSERTS queries.
* */
enum ClusterExecutionMode
{
ON_EACH_SHARD,
ON_EACH_NODE
};
/** Executes simple query (without output streams, for example DDL queries) on each shard of the cluster
* Returns number of shards for which at least one replica executed query successfully
*/
UInt64 executeQueryOnCluster(
const ClusterPtr & cluster,
const String & query,
const Settings & current_settings,
PoolMode pool_mode = PoolMode::GET_ALL,
ClusterExecutionMode execution_mode = ClusterExecutionMode::ON_EACH_SHARD,
UInt64 max_successful_executions_per_shard = 0) const;
private:
String task_zookeeper_path;
String task_description_path;
String host_id;
String working_database_name;
/// Auto update config stuff
UInt64 task_description_current_version = 1;
std::atomic<UInt64> task_description_version{1};
Coordination::WatchCallback task_description_watch_callback;
/// ZooKeeper session used to set the callback
zkutil::ZooKeeperPtr task_description_watch_zookeeper;
ConfigurationPtr task_cluster_initial_config;
ConfigurationPtr task_cluster_current_config;
Coordination::Stat task_description_current_stat{};
std::unique_ptr<TaskCluster> task_cluster;
bool is_safe_mode = false;
double copy_fault_probability = 0.0;
double move_fault_probability = 0.0;
bool experimental_use_sample_offset{false};
Context & context;
Poco::Logger * log;
std::chrono::milliseconds default_sleep_time{1000};
};
}