ClickHouse/src/Interpreters/DDLWorker.h
2020-04-03 18:14:31 +03:00

136 lines
4.5 KiB
C++

#pragma once
#include <Interpreters/Context.h>
#include <Interpreters/Cluster.h>
#include <DataStreams/BlockIO.h>
#include <Common/CurrentThread.h>
#include <Common/ThreadPool.h>
#include <common/logger_useful.h>
#include <Storages/IStorage.h>
#include <atomic>
#include <chrono>
#include <condition_variable>
#include <mutex>
#include <thread>
namespace DB
{
class ASTAlterQuery;
class AccessRightsElements;
struct DDLLogEntry;
struct DDLTask;
/// Pushes distributed DDL query to the queue
BlockIO executeDDLQueryOnCluster(const ASTPtr & query_ptr, const Context & context, AccessRightsElements && query_required_access);
class DDLWorker
{
public:
DDLWorker(const std::string & zk_root_dir, Context & context_, const Poco::Util::AbstractConfiguration * config, const String & prefix);
~DDLWorker();
/// Pushes query into DDL queue, returns path to created node
String enqueueQuery(DDLLogEntry & entry);
/// Host ID (name:port) for logging purposes
/// Note that in each task hosts are identified individually by name:port from initiator server cluster config
std::string getCommonHostID() const
{
return host_fqdn_id;
}
private:
using ZooKeeperPtr = std::shared_ptr<zkutil::ZooKeeper>;
/// Returns cached ZooKeeper session (possibly expired).
ZooKeeperPtr tryGetZooKeeper() const;
/// If necessary, creates a new session and caches it.
ZooKeeperPtr getAndSetZooKeeper();
void processTasks();
/// Reads entry and check that the host belongs to host list of the task
/// Returns true and sets current_task if entry parsed and the check is passed
bool initAndCheckTask(const String & entry_name, String & out_reason, const ZooKeeperPtr & zookeeper);
void processTask(DDLTask & task, const ZooKeeperPtr & zookeeper);
/// Check that query should be executed on leader replica only
static bool taskShouldBeExecutedOnLeader(const ASTPtr ast_ddl, StoragePtr storage);
/// Check that shard has consistent config with table
void checkShardConfig(const String & table, const DDLTask & task, StoragePtr storage) const;
/// Executes query only on leader replica in case of replicated table.
/// Queries like TRUNCATE/ALTER .../OPTIMIZE have to be executed only on one node of shard.
/// Most of these queries can be executed on non-leader replica, but actually they still send
/// query via RemoteBlockOutputStream to leader, so to avoid such "2-phase" query execution we
/// execute query directly on leader.
bool tryExecuteQueryOnLeaderReplica(
DDLTask & task,
StoragePtr storage,
const String & rewritten_query,
const String & node_path,
const ZooKeeperPtr & zookeeper);
void parseQueryAndResolveHost(DDLTask & task);
bool tryExecuteQuery(const String & query, const DDLTask & task, ExecutionStatus & status);
/// Checks and cleanups queue's nodes
void cleanupQueue(Int64 current_time_seconds, const ZooKeeperPtr & zookeeper);
/// Init task node
static void createStatusDirs(const std::string & node_path, const ZooKeeperPtr & zookeeper);
void runMainThread();
void runCleanupThread();
void attachToThreadGroup();
private:
Context & context;
Logger * log;
std::unique_ptr<Context> current_context;
std::string host_fqdn; /// current host domain name
std::string host_fqdn_id; /// host_name:port
std::string queue_dir; /// dir with queue of queries
/// Name of last task that was skipped or successfully executed
std::string last_processed_task_name;
mutable std::mutex zookeeper_mutex;
ZooKeeperPtr current_zookeeper;
/// Save state of executed task to avoid duplicate execution on ZK error
using DDLTaskPtr = std::unique_ptr<DDLTask>;
DDLTaskPtr current_task;
std::shared_ptr<Poco::Event> queue_updated_event = std::make_shared<Poco::Event>();
std::shared_ptr<Poco::Event> cleanup_event = std::make_shared<Poco::Event>();
std::atomic<bool> stop_flag{false};
ThreadFromGlobalPool main_thread;
ThreadFromGlobalPool cleanup_thread;
/// Cleaning starts after new node event is received if the last cleaning wasn't made sooner than N seconds ago
Int64 cleanup_delay_period = 60; // minute (in seconds)
/// Delete node if its age is greater than that
Int64 task_max_lifetime = 7 * 24 * 60 * 60; // week (in seconds)
/// How many tasks could be in the queue
size_t max_tasks_in_queue = 1000;
ThreadGroupStatusPtr thread_group;
friend class DDLQueryStatusInputStream;
friend struct DDLTask;
};
}