ClickHouse/dbms/src/Storages/MergeTree/ReshardingWorker.cpp

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#include <DB/Storages/MergeTree/ReshardingWorker.h>
#include <DB/Storages/MergeTree/ReshardingJob.h>
#include <DB/Storages/MergeTree/MergeTreeData.h>
#include <DB/Storages/MergeTree/MergeList.h>
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#include <DB/Storages/MergeTree/MergeTreeDataMerger.h>
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#include <DB/Storages/MergeTree/ReplicatedMergeTreeAddress.h>
#include <DB/Storages/MergeTree/MergeTreeSharder.h>
#include <DB/Storages/MergeTree/MergeTreeBlockInputStream.h>
#include <DB/Storages/StorageReplicatedMergeTree.h>
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#include <DB/IO/ReadBufferFromString.h>
#include <DB/IO/ReadHelpers.h>
#include <DB/IO/WriteBufferFromString.h>
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#include <DB/IO/HexWriteBuffer.h>
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#include <DB/IO/WriteHelpers.h>
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#include <DB/Common/getFQDNOrHostName.h>
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#include <DB/Interpreters/executeQuery.h>
#include <DB/Interpreters/Context.h>
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#include <DB/Interpreters/Cluster.h>
#include <threadpool.hpp>
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#include <zkutil/ZooKeeper.h>
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#include <Poco/Event.h>
#include <Poco/DirectoryIterator.h>
#include <Poco/File.h>
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#include <Poco/SharedPtr.h>
#include <openssl/sha.h>
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#include <future>
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#include <chrono>
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namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
extern const int ABORTED;
extern const int UNEXPECTED_ZOOKEEPER_ERROR;
extern const int PARTITION_COPY_FAILED;
extern const int PARTITION_ATTACH_FAILED;
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extern const int UNKNOWN_ELEMENT_IN_CONFIG;
extern const int INVALID_CONFIG_PARAMETER;
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extern const int RESHARDING_BUSY_CLUSTER;
extern const int RESHARDING_BUSY_SHARD;
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extern const int RESHARDING_NO_SUCH_COORDINATOR;
extern const int RESHARDING_NO_COORDINATOR_MEMBERSHIP;
extern const int RESHARDING_ALREADY_SUBSCRIBED;
extern const int RESHARDING_REMOTE_NODE_UNAVAILABLE;
extern const int RESHARDING_REMOTE_NODE_ERROR;
extern const int RESHARDING_COORDINATOR_DELETED;
extern const int RESHARDING_DISTRIBUTED_JOB_ON_HOLD;
extern const int RESHARDING_INVALID_QUERY;
extern const int RWLOCK_NO_SUCH_LOCK;
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}
namespace
{
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constexpr long wait_duration = 1000;
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class Arguments final
{
public:
Arguments(const Poco::Util::AbstractConfiguration & config, const std::string & config_name)
{
Poco::Util::AbstractConfiguration::Keys keys;
config.keys(config_name, keys);
for (const auto & key : keys)
{
if (key == "task_queue_path")
{
task_queue_path = config.getString(config_name + "." + key);
if (task_queue_path.empty())
throw Exception("Invalid parameter in resharding configuration", ErrorCodes::INVALID_CONFIG_PARAMETER);
}
else
throw Exception("Unknown parameter in resharding configuration", ErrorCodes::UNKNOWN_ELEMENT_IN_CONFIG);
}
}
Arguments(const Arguments &) = delete;
Arguments & operator=(const Arguments &) = delete;
std::string getTaskQueuePath() const
{
return task_queue_path;
}
private:
std::string task_queue_path;
};
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}
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/// Rationale for distributed jobs.
///
/// A distributed job is initiated in a query ALTER TABLE RESHARD inside which
/// we specify a distributed table. Then ClickHouse creates a job coordinating
/// structure in ZooKeeper, namely a coordinator, identified by a so-called
/// coordinator id.
/// Each shard of the cluster specified in the distributed table metadata
/// receives one query ALTER TABLE RESHARD with the keyword COORDINATE WITH
/// indicating the aforementioned coordinator id.
///
/// At the highest level we have under the /resharding_distributed znode:
///
/// /lock: global distributed read/write lock;
/// /online: currently online nodes;
/// /coordination: one znode for each coordinator.
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///
/// A coordinator whose identifier is ${id} has the following layout
/// under the /coordination/${id} znode:
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///
/// /lock: coordinator-specific distributed read/write lock;
///
/// /deletion_lock: for safe coordinator deletion
///
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/// /query_hash: hash value obtained from the query that
/// is sent to the participating nodes;
///
/// /increment: unique block number allocator;
///
/// /status: coordinator status before its participating nodes have subscribed;
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///
/// /status/${host}: status if an individual participating node;
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///
/// /cluster: cluster on which the distributed job is to be performed;
///
/// /node_count: number of nodes of the cluster that participate in at
/// least one distributed resharding job;
///
/// /cluster_addresses: the list of addresses, in both IP and hostname
/// representations, of all the nodes of the cluster; used to check if a given node
/// is a member of the cluster;
///
/// /shards: the list of shards that have subscribed;
///
/// /subscribe_barrier: when all the participating nodes have subscribed
/// to their coordinator, proceed further
///
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/// /check_barrier: when all the participating nodes have checked
/// that they can perform resharding operations, proceed further;
///
/// /opt_out_barrier: after having crossed this barrier, each node of the cluster
/// knows exactly whether it will take part in distributed jobs or not.
///
/// /partitions: partitions that must be resharded on more than one shard;
///
/// /partitions/${partition_id}/nodes: participating nodes;
///
/// /partitions/${partition_id}/upload_barrier: when all the participating
/// nodes have uploaded new data to their respective replicas, we can apply changes;
///
/// /partitions/${partition_id}/recovery_barrier: recovery if
/// one or several participating nodes had previously gone offline.
///
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ReshardingWorker::ReshardingWorker(const Poco::Util::AbstractConfiguration & config,
const std::string & config_name, Context & context_)
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: context(context_), log(&Logger::get("ReshardingWorker"))
{
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Arguments arguments(config, config_name);
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auto zookeeper = context.getZooKeeper();
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std::string root = arguments.getTaskQueuePath();
if (*(root.rbegin()) != '/')
root += "/";
auto current_host = getFQDNOrHostName();
host_task_queue_path = root + "resharding/" + current_host;
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zookeeper->createAncestors(host_task_queue_path + "/");
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distributed_path = root + "resharding_distributed";
zookeeper->createAncestors(distributed_path + "/");
distributed_online_path = distributed_path + "/online";
zookeeper->createIfNotExists(distributed_online_path, "");
/// Notify that we are online.
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int32_t code = zookeeper->tryCreate(distributed_online_path + "/" + current_host, "",
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zkutil::CreateMode::Ephemeral);
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if ((code != ZOK) && (code != ZNODEEXISTS))
throw zkutil::KeeperException(code);
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distributed_lock_path = distributed_path + "/lock";
zookeeper->createIfNotExists(distributed_lock_path, "");
coordination_path = distributed_path + "/coordination";
zookeeper->createAncestors(coordination_path + "/");
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}
ReshardingWorker::~ReshardingWorker()
{
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try
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{
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shutdown();
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
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}
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}
void ReshardingWorker::start()
{
polling_thread = std::thread(&ReshardingWorker::pollAndExecute, this);
}
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void ReshardingWorker::shutdown()
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{
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if (is_started)
{
must_stop = true;
if (polling_thread.joinable())
polling_thread.join();
is_started = false;
}
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}
void ReshardingWorker::submitJob(const ReshardingJob & job)
{
auto serialized_job = job.toString();
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auto zookeeper = context.getZooKeeper();
(void) zookeeper->create(host_task_queue_path + "/task-", serialized_job,
zkutil::CreateMode::PersistentSequential);
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}
bool ReshardingWorker::isStarted() const
{
return is_started;
}
void ReshardingWorker::pollAndExecute()
{
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bool error = false;
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try
{
bool old_val = false;
if (!is_started.compare_exchange_strong(old_val, true, std::memory_order_seq_cst,
std::memory_order_relaxed))
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throw Exception("Resharding background thread already started", ErrorCodes::LOGICAL_ERROR);
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LOG_DEBUG(log, "Started resharding background thread.");
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try
{
performPendingJobs();
}
catch (const Exception & ex)
{
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if (ex.code() == ErrorCodes::ABORTED)
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throw;
else
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LOG_ERROR(log, ex.message());
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
while (true)
{
try
{
Strings children;
while (true)
{
zkutil::EventPtr event = new Poco::Event;
auto zookeeper = context.getZooKeeper();
children = zookeeper->getChildren(host_task_queue_path, nullptr, event);
if (!children.empty())
break;
do
{
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abortPollingIfRequested();
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}
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while (!event->tryWait(wait_duration));
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}
std::sort(children.begin(), children.end());
perform(children);
}
catch (const Exception & ex)
{
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if (ex.code() == ErrorCodes::ABORTED)
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throw;
else
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LOG_ERROR(log, ex.message());
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
}
}
catch (const Exception & ex)
{
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if (ex.code() != ErrorCodes::ABORTED)
error = true;
}
catch (...)
{
error = true;
tryLogCurrentException(__PRETTY_FUNCTION__);
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}
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if (error)
{
/// Если мы попали сюда, это значит, что где-то кроется баг.
LOG_ERROR(log, "Resharding background thread terminated with critical error.");
}
else
LOG_DEBUG(log, "Resharding background thread terminated.");
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}
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void ReshardingWorker::jabScheduler()
{
/// We create then delete a node so that the main loop of the job scheduler will notice
/// something has just happened. This forces the scheduler to fetch all the current
/// pending jobs. We need this when a distributed job is not ready to be performed yet.
/// Otherwise if no new jobs were submitted, we wouldn't be able to check again whether
/// we can perform the distributed job.
auto zookeeper = context.getZooKeeper();
(void) zookeeper->create(host_task_queue_path + "/fake_task", "", zkutil::CreateMode::Persistent);
zookeeper->remove(host_task_queue_path + "/fake_task");
/// Sleep for 3 time units in order to prevent scheduler overloading
/// if we were the only job in the queue.
if (zookeeper->getChildren(host_task_queue_path).size() == 1)
std::this_thread::sleep_for(3 * std::chrono::milliseconds(wait_duration));
}
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void ReshardingWorker::performPendingJobs()
{
auto zookeeper = context.getZooKeeper();
Strings children = zookeeper->getChildren(host_task_queue_path);
std::sort(children.begin(), children.end());
perform(children);
}
void ReshardingWorker::perform(const Strings & job_nodes)
{
auto zookeeper = context.getZooKeeper();
for (const auto & child : job_nodes)
{
std::string child_full_path = host_task_queue_path + "/" + child;
auto job_descriptor = zookeeper->get(child_full_path);
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try
{
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perform(job_descriptor);
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}
catch (const Exception & ex)
{
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/// If the job has been cancelled, either locally or remotely, we keep it
/// in the corresponding task queues for a later execution.
/// If an error has occurred, either locally or remotely, while
/// performing the job, we delete it from the corresponding task queues.
try
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{
if (ex.code() == ErrorCodes::ABORTED)
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{
/// nothing here
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}
else if (ex.code() == ErrorCodes::RESHARDING_REMOTE_NODE_UNAVAILABLE)
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{
/// nothing here
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}
else if (ex.code() == ErrorCodes::RESHARDING_DISTRIBUTED_JOB_ON_HOLD)
{
/// nothing here
}
else if (ex.code() == ErrorCodes::RESHARDING_REMOTE_NODE_ERROR)
zookeeper->remove(child_full_path);
else if (ex.code() == ErrorCodes::RESHARDING_COORDINATOR_DELETED)
zookeeper->remove(child_full_path);
else if (ex.code() == ErrorCodes::RWLOCK_NO_SUCH_LOCK)
zookeeper->remove(child_full_path);
else
zookeeper->remove(child_full_path);
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
throw;
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
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zookeeper->remove(child_full_path);
throw;
}
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zookeeper->remove(child_full_path);
}
}
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void ReshardingWorker::perform(const std::string & job_descriptor)
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{
LOG_DEBUG(log, "Performing resharding job.");
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current_job = ReshardingJob{job_descriptor};
zkutil::RWLock deletion_lock;
if (current_job.isCoordinated())
deletion_lock = std::move(createDeletionLock(current_job.coordinator_id));
zkutil::RWLock::Guard<zkutil::RWLock::Read, zkutil::RWLock::NonBlocking> guard{deletion_lock};
if (!deletion_lock.ownsLock())
throw Exception("Coordinator has been deleted", ErrorCodes::RESHARDING_COORDINATOR_DELETED);
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StoragePtr generic_storage = context.getTable(current_job.database_name, current_job.table_name);
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auto & storage = typeid_cast<StorageReplicatedMergeTree &>(*(generic_storage.get()));
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current_job.storage = &storage;
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/// Защитить перешардируемую партицию от задачи слияния.
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const MergeTreeMergeBlocker merge_blocker{current_job.storage->merger};
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try
{
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attachJob();
createShardedPartitions();
publishShardedPartitions();
waitForUploadCompletion();
applyChanges();
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}
catch (const Exception & ex)
{
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try
{
if (ex.code() == ErrorCodes::ABORTED)
{
LOG_DEBUG(log, "Resharding job cancelled.");
/// A soft shutdown is being performed on this node.
/// Put the current distributed job on hold in order to reliably handle
/// the scenario in which the remote nodes undergo a hard shutdown.
if (current_job.isCoordinated())
setStatus(current_job.coordinator_id, getFQDNOrHostName(), STATUS_ON_HOLD);
softCleanup();
}
else if (ex.code() == ErrorCodes::RESHARDING_REMOTE_NODE_UNAVAILABLE)
{
/// A remote node has gone offline.
/// Put the current distributed job on hold. Also jab the job scheduler
/// so that it will come accross this distributed job even if no new jobs
/// are submitted.
setStatus(current_job.coordinator_id, getFQDNOrHostName(), STATUS_ON_HOLD);
softCleanup();
jabScheduler();
}
else if (ex.code() == ErrorCodes::RESHARDING_REMOTE_NODE_ERROR)
{
deletion_lock.release();
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hardCleanup();
}
else if (ex.code() == ErrorCodes::RESHARDING_COORDINATOR_DELETED)
{
// nothing here
}
else if (ex.code() == ErrorCodes::RESHARDING_DISTRIBUTED_JOB_ON_HOLD)
{
/// The current distributed job is on hold and one or more required nodes
/// have not gone online yet. Jab the job scheduler so that it will come
/// accross this distributed job even if no new jobs are submitted.
setStatus(current_job.coordinator_id, getFQDNOrHostName(), STATUS_ON_HOLD);
jabScheduler();
}
else
{
/// Cancellation has priority over errors.
if (must_stop)
{
LOG_DEBUG(log, "Resharding job cancelled.");
if (current_job.isCoordinated())
setStatus(current_job.coordinator_id, getFQDNOrHostName(), STATUS_ON_HOLD);
softCleanup();
}
else
{
/// An error has occurred on this node.
if (current_job.isCoordinated())
{
auto current_host = getFQDNOrHostName();
setStatus(current_job.coordinator_id, current_host, STATUS_ERROR);
}
deletion_lock.release();
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hardCleanup();
}
}
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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throw;
}
catch (...)
{
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/// An error has occurred on this node.
try
{
/// Cancellation has priority over errors.
if (must_stop)
{
LOG_DEBUG(log, "Resharding job cancelled.");
if (current_job.isCoordinated())
setStatus(current_job.coordinator_id, getFQDNOrHostName(), STATUS_ON_HOLD);
softCleanup();
}
else
{
if (current_job.isCoordinated())
{
auto current_host = getFQDNOrHostName();
setStatus(current_job.coordinator_id, current_host, STATUS_ERROR);
}
deletion_lock.release();
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hardCleanup();
}
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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throw;
}
deletion_lock.release();
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hardCleanup();
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LOG_DEBUG(log, "Resharding job successfully completed.");
}
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void ReshardingWorker::createShardedPartitions()
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{
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abortJobIfRequested();
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LOG_DEBUG(log, "Splitting partition shard-wise.");
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auto & storage = *(current_job.storage);
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MergeTreeDataMerger merger{storage.data};
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MergeTreeDataMerger::CancellationHook hook = std::bind(&ReshardingWorker::abortJobIfRequested, this);
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merger.setCancellationHook(hook);
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MergeTreeData::PerShardDataParts & per_shard_data_parts = storage.data.per_shard_data_parts;
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per_shard_data_parts = merger.reshardPartition(current_job);
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}
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void ReshardingWorker::publishShardedPartitions()
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{
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abortJobIfRequested();
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LOG_DEBUG(log, "Sending newly created partitions to their respective shards.");
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auto & storage = *(current_job.storage);
auto zookeeper = context.getZooKeeper();
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struct TaskInfo
{
TaskInfo(const std::string & replica_path_,
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const std::string & part_,
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const ReplicatedMergeTreeAddress & dest_,
size_t shard_no_)
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: replica_path(replica_path_), dest(dest_), part(part_),
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shard_no(shard_no_)
{
}
std::string replica_path;
ReplicatedMergeTreeAddress dest;
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std::string part;
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size_t shard_no;
};
using TaskInfoList = std::vector<TaskInfo>;
TaskInfoList task_info_list;
/// Копировать новые партиции на реплики соответствующих шардов.
/// Количество участвующих локальных реплик. Должно быть <= 1.
size_t local_count = 0;
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for (const auto & entry : storage.data.per_shard_data_parts)
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{
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size_t shard_no = entry.first;
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const MergeTreeData::MutableDataPartPtr & part_from_shard = entry.second;
if (!part_from_shard)
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continue;
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const WeightedZooKeeperPath & weighted_path = current_job.paths[shard_no];
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const std::string & zookeeper_path = weighted_path.first;
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auto children = zookeeper->getChildren(zookeeper_path + "/replicas");
for (const auto & child : children)
{
const std::string replica_path = zookeeper_path + "/replicas/" + child;
auto host = zookeeper->get(replica_path + "/host");
ReplicatedMergeTreeAddress host_desc(host);
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task_info_list.emplace_back(replica_path, part_from_shard->name, host_desc, shard_no);
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if (replica_path == storage.replica_path)
{
++local_count;
if (local_count > 1)
throw Exception("Detected more than one local replica", ErrorCodes::LOGICAL_ERROR);
std::swap(task_info_list[0], task_info_list[task_info_list.size() - 1]);
}
}
}
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abortJobIfRequested();
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size_t remote_count = task_info_list.size() - local_count;
boost::threadpool::pool pool(remote_count);
using Tasks = std::vector<std::packaged_task<bool()> >;
Tasks tasks(remote_count);
ReplicatedMergeTreeAddress local_address(zookeeper->get(storage.replica_path + "/host"));
InterserverIOEndpointLocation from_location(storage.replica_path, local_address.host, local_address.replication_port);
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ShardedPartitionUploader::Client::CancellationHook hook = std::bind(&ReshardingWorker::abortJobIfRequested, this);
storage.sharded_partition_uploader_client.setCancellationHook(hook);
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try
{
for (size_t i = local_count; i < task_info_list.size(); ++i)
{
const TaskInfo & entry = task_info_list[i];
const auto & replica_path = entry.replica_path;
const auto & dest = entry.dest;
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const auto & part = entry.part;
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size_t shard_no = entry.shard_no;
InterserverIOEndpointLocation to_location(replica_path, dest.host, dest.replication_port);
size_t j = i - local_count;
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tasks[j] = Tasks::value_type(std::bind(&ShardedPartitionUploader::Client::send,
&storage.sharded_partition_uploader_client, part, shard_no, to_location));
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pool.schedule([j, &tasks]{ tasks[j](); });
}
}
catch (...)
{
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try
{
pool.wait();
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
if (!current_job.is_aborted)
{
/// We may have caught an error because one or more remote nodes have
/// gone offline while performing I/O. The following check is here to
/// sort out this ambiguity.
abortJobIfRequested();
}
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throw;
}
pool.wait();
for (auto & task : tasks)
{
bool res = task.get_future().get();
if (!res)
throw Exception("Failed to copy partition", ErrorCodes::PARTITION_COPY_FAILED);
}
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abortJobIfRequested();
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if (local_count == 1)
{
/// На локальной реплике просто перемещаем шардированную паритцию в папку detached/.
const TaskInfo & entry = task_info_list[0];
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const auto & part = entry.part;
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size_t shard_no = entry.shard_no;
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std::string from_path = storage.full_path + "reshard/" + toString(shard_no) + "/" + part + "/";
std::string to_path = storage.full_path + "detached/";
Poco::File(from_path).moveTo(to_path);
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}
}
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void ReshardingWorker::applyChanges()
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{
LOG_DEBUG(log, "Attaching new partitions.");
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auto & storage = *(current_job.storage);
auto zookeeper = context.getZooKeeper();
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/// На локальном узле удалить первоначальную партицию.
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std::string query_str = "ALTER TABLE " + current_job.database_name + "."
+ current_job.table_name + " DROP PARTITION " + current_job.partition;
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(void) executeQuery(query_str, context, true);
/// На всех участвующих репликах добавить соответствующие шардированные партиции в таблицу.
struct TaskInfo
{
TaskInfo(const std::string & replica_path_, const ReplicatedMergeTreeAddress & dest_)
: replica_path(replica_path_), dest(dest_)
{
}
std::string replica_path;
ReplicatedMergeTreeAddress dest;
};
using TaskInfoList = std::vector<TaskInfo>;
TaskInfoList task_info_list;
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for (const auto & entry : storage.data.per_shard_data_parts)
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{
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size_t shard_no = entry.first;
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const MergeTreeData::MutableDataPartPtr & part_from_shard = entry.second;
if (!part_from_shard)
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continue;
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const WeightedZooKeeperPath & weighted_path = current_job.paths[shard_no];
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const std::string & zookeeper_path = weighted_path.first;
auto children = zookeeper->getChildren(zookeeper_path + "/replicas");
for (const auto & child : children)
{
const std::string replica_path = zookeeper_path + "/replicas/" + child;
auto host = zookeeper->get(replica_path + "/host");
ReplicatedMergeTreeAddress host_desc(host);
task_info_list.emplace_back(replica_path, host_desc);
}
}
boost::threadpool::pool pool(task_info_list.size());
using Tasks = std::vector<std::packaged_task<bool()> >;
Tasks tasks(task_info_list.size());
try
{
for (size_t i = 0; i < task_info_list.size(); ++i)
{
const auto & entry = task_info_list[i];
const auto & replica_path = entry.replica_path;
const auto & dest = entry.dest;
InterserverIOEndpointLocation location(replica_path, dest.host, dest.replication_port);
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std::string query_str = "ALTER TABLE " + dest.database + "."
+ dest.table + " ATTACH PARTITION " + current_job.partition;
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tasks[i] = Tasks::value_type(std::bind(&RemoteQueryExecutor::Client::executeQuery,
&storage.remote_query_executor_client, location, query_str));
pool.schedule([i, &tasks]{ tasks[i](); });
}
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
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pool.wait();
throw;
}
pool.wait();
for (auto & task : tasks)
{
bool res = task.get_future().get();
if (!res)
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throw Exception("Failed to attach partition on replica",
ErrorCodes::PARTITION_ATTACH_FAILED);
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}
}
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void ReshardingWorker::softCleanup()
{
LOG_DEBUG(log, "Performing soft cleanup.");
cleanupCommon();
current_job.clear();
}
void ReshardingWorker::hardCleanup()
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{
LOG_DEBUG(log, "Performing cleanup.");
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cleanupCommon();
detachJob();
current_job.clear();
}
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void ReshardingWorker::cleanupCommon()
{
auto & storage = *(current_job.storage);
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storage.data.per_shard_data_parts.clear();
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if (Poco::File(storage.full_path + "/reshard").exists())
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{
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Poco::DirectoryIterator end;
for (Poco::DirectoryIterator it(storage.full_path + "/reshard"); it != end; ++it)
{
auto absolute_path = it.path().absolute().toString();
Poco::File(absolute_path).remove(true);
}
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}
}
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std::string ReshardingWorker::createCoordinator(const Cluster & cluster)
{
const std::string cluster_name = cluster.getName();
auto zookeeper = context.getZooKeeper();
auto lock = createLock();
zkutil::RWLock::Guard<zkutil::RWLock::Write> guard{lock};
auto coordinators = zookeeper->getChildren(coordination_path);
for (const auto & coordinator : coordinators)
{
auto effective_cluster_name = zookeeper->get(coordination_path + "/" + coordinator + "/cluster");
if (effective_cluster_name == cluster_name)
throw Exception("The cluster specified for this table is currently busy with another "
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"distributed job. Please try later", ErrorCodes::RESHARDING_BUSY_CLUSTER);
}
std::string coordinator_id = zookeeper->create(coordination_path + "/coordinator-", "",
zkutil::CreateMode::PersistentSequential);
coordinator_id = coordinator_id.substr(coordination_path.length() + 1);
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/lock",
"", zkutil::CreateMode::Persistent);
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/deletion_lock",
"", zkutil::CreateMode::Persistent);
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(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/cluster",
cluster_name, zkutil::CreateMode::Persistent);
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/increment",
"0", zkutil::CreateMode::Persistent);
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/node_count",
toString(cluster.getRemoteShardCount() + cluster.getLocalShardCount()),
zkutil::CreateMode::Persistent);
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/shards",
"", zkutil::CreateMode::Persistent);
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(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/status",
"", zkutil::CreateMode::Persistent);
setStatus(coordinator_id, STATUS_OK);
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/partitions",
"", zkutil::CreateMode::Persistent);
/// Register the addresses, IP and hostnames, of all the nodes of the cluster.
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/cluster_addresses",
"", zkutil::CreateMode::Persistent);
auto publish_address = [&](const std::string & host, size_t shard_no)
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{
int32_t code = zookeeper->tryCreate(getCoordinatorPath(coordinator_id) + "/cluster_addresses/"
+ host, toString(shard_no), zkutil::CreateMode::Persistent);
if ((code != ZOK) && (code != ZNODEEXISTS))
throw zkutil::KeeperException(code);
};
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if (!cluster.getShardsAddresses().empty())
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{
size_t shard_no = 0;
for (const auto & address : cluster.getShardsAddresses())
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{
publish_address(address.host_name, shard_no);
publish_address(address.resolved_address.host().toString(), shard_no);
++shard_no;
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}
}
else if (!cluster.getShardsWithFailoverAddresses().empty())
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{
size_t shard_no = 0;
for (const auto & addresses : cluster.getShardsWithFailoverAddresses())
{
for (const auto & address : addresses)
{
publish_address(address.host_name, shard_no);
publish_address(address.resolved_address.host().toString(), shard_no);
}
++shard_no;
}
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}
else
throw Exception("ReshardingWorker: ill-formed cluster", ErrorCodes::LOGICAL_ERROR);
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return coordinator_id;
}
void ReshardingWorker::registerQuery(const std::string & coordinator_id, const std::string & query)
{
auto zookeeper = context.getZooKeeper();
(void) zookeeper->create(getCoordinatorPath(coordinator_id) + "/query_hash", computeHash(query),
zkutil::CreateMode::Persistent);
}
void ReshardingWorker::deleteCoordinator(const std::string & coordinator_id)
{
/// We don't acquire a scoped lock because we delete everything including this lock.
auto deletion_lock = createDeletionLock(coordinator_id);
deletion_lock.acquireWrite(zkutil::RWLock::Blocking);
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auto zookeeper = context.getZooKeeper();
if (zookeeper->exists(getCoordinatorPath(coordinator_id)))
zookeeper->removeRecursive(getCoordinatorPath(coordinator_id));
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}
UInt64 ReshardingWorker::subscribe(const std::string & coordinator_id, const std::string & query)
{
auto zookeeper = context.getZooKeeper();
if (!zookeeper->exists(getCoordinatorPath(coordinator_id)))
throw Exception("Coordinator " + coordinator_id + " does not exist",
ErrorCodes::RESHARDING_NO_SUCH_COORDINATOR);
auto current_host = getFQDNOrHostName();
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/// Make sure that this shard is not busy in another distributed job.
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{
auto lock = createLock();
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zkutil::RWLock::Guard<zkutil::RWLock::Read> guard{lock};
auto coordinators = zookeeper->getChildren(coordination_path);
for (const auto & coordinator : coordinators)
{
if (coordinator == coordinator_id)
continue;
auto cluster_addresses = zookeeper->getChildren(coordination_path + "/" + coordinator
+ "/cluster_addresses");
if (std::find(cluster_addresses.begin(), cluster_addresses.end(), current_host)
!= cluster_addresses.end())
throw Exception("This shard is already busy with another distributed job",
ErrorCodes::RESHARDING_BUSY_SHARD);
}
}
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UInt64 block_number;
{
auto lock = createCoordinatorLock(coordinator_id);
zkutil::RWLock::Guard<zkutil::RWLock::Write> guard{lock};
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/// Make sure that the query ALTER TABLE RESHARD with the "COORDINATE WITH" tag
/// is not bogus.
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auto cluster_addresses = zookeeper->getChildren(getCoordinatorPath(coordinator_id)
+ "/cluster_addresses");
if (std::find(cluster_addresses.begin(), cluster_addresses.end(), current_host)
== cluster_addresses.end())
throw Exception("This host is not allowed to subscribe to coordinator "
+ coordinator_id,
ErrorCodes::RESHARDING_NO_COORDINATOR_MEMBERSHIP);
/// Check that the coordinator recognizes our query.
auto query_hash = zookeeper->get(getCoordinatorPath(coordinator_id) + "/query_hash");
if (computeHash(query) != query_hash)
throw Exception("Coordinator " + coordinator_id + " does not handle this query",
ErrorCodes::RESHARDING_INVALID_QUERY);
/// Access granted. Now perform subscription.
auto my_shard_no = zookeeper->get(getCoordinatorPath(coordinator_id) + "/cluster_addresses/"
+ current_host);
int32_t code = zookeeper->tryCreate(getCoordinatorPath(coordinator_id) + "/shards/"
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+ my_shard_no, "", zkutil::CreateMode::Persistent);
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if (code == ZNODEEXISTS)
throw Exception("This shard has already subscribed to coordinator " + coordinator_id,
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ErrorCodes::RESHARDING_ALREADY_SUBSCRIBED);
else if (code != ZOK)
throw zkutil::KeeperException(code);
zookeeper->create(getCoordinatorPath(coordinator_id) + "/status/"
+ current_host, "", zkutil::CreateMode::Persistent);
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setStatus(coordinator_id, current_host, STATUS_OK);
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/// Assign a unique block number to the current node. We will use it in order
/// to avoid any possible conflict when uploading resharded partitions.
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auto current_block_number = zookeeper->get(getCoordinatorPath(coordinator_id) + "/increment");
block_number = std::stoull(current_block_number);
zookeeper->set(getCoordinatorPath(coordinator_id) + "/increment", toString(block_number + 1));
}
/// We set up a timeout for this barrier because until we cross it, we don't have
/// any guarantee that all the required nodes for this distributed job are online.
/// We are inside a lightweight function, so it is not an issue.
auto timeout = context.getSettingsRef().resharding_barrier_timeout;
createSubscribeBarrier(coordinator_id).enter(timeout);
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return block_number;
}
void ReshardingWorker::unsubscribe(const std::string & coordinator_id)
{
/// Note: we don't remove this shard from the /shards znode because
/// it can subscribe to a distributed job only if its cluster is not
/// currently busy with any distributed job.
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auto zookeeper = context.getZooKeeper();
auto lock = createCoordinatorLock(coordinator_id);
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zkutil::RWLock::Guard<zkutil::RWLock::Write> guard{lock};
auto current_host = getFQDNOrHostName();
zookeeper->remove(getCoordinatorPath(coordinator_id) + "/status/" + current_host);
auto node_count = zookeeper->get(getCoordinatorPath(coordinator_id) + "/node_count");
UInt64 cur_node_count = std::stoull(node_count);
if (cur_node_count == 0)
throw Exception("ReshardingWorker: invalid node count", ErrorCodes::LOGICAL_ERROR);
zookeeper->set(getCoordinatorPath(coordinator_id) + "/node_count", toString(cur_node_count - 1));
}
void ReshardingWorker::addPartitions(const std::string & coordinator_id,
const PartitionList & partition_list)
{
auto zookeeper = context.getZooKeeper();
auto lock = createCoordinatorLock(coordinator_id);
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zkutil::RWLock::Guard<zkutil::RWLock::Write> guard{lock};
auto current_host = getFQDNOrHostName();
for (const auto & partition : partition_list)
{
auto path = getCoordinatorPath(coordinator_id) + "/partitions/" + partition + "/nodes/";
zookeeper->createAncestors(path);
(void) zookeeper->create(path + current_host, "", zkutil::CreateMode::Persistent);
}
}
ReshardingWorker::PartitionList::iterator ReshardingWorker::categorizePartitions(const std::string & coordinator_id,
PartitionList & partition_list)
{
auto current_host = getFQDNOrHostName();
auto zookeeper = context.getZooKeeper();
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auto is_coordinated = [&](const std::string & partition)
{
auto path = getCoordinatorPath(coordinator_id) + "/partitions/" + partition + "/nodes";
auto nodes = zookeeper->getChildren(path);
if ((nodes.size() == 1) && (nodes[0] == current_host))
{
zookeeper->removeRecursive(getCoordinatorPath(coordinator_id) + "/partitions/" + partition);
return false;
}
else
return true;
};
int size = partition_list.size();
int i = -1;
int j = size;
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{
auto lock = createCoordinatorLock(coordinator_id);
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zkutil::RWLock::Guard<zkutil::RWLock::Write> guard{lock};
while (true)
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{
do
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{
++i;
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}
while ((i < j) && (is_coordinated(partition_list[i])));
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if (i >= j)
break;
do
{
--j;
}
while ((i < j) && (!is_coordinated(partition_list[j])));
if (i >= j)
break;
std::swap(partition_list[i], partition_list[j]);
};
}
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auto uncoordinated_begin = std::next(partition_list.begin(), j);
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std::sort(partition_list.begin(), uncoordinated_begin);
std::sort(uncoordinated_begin, partition_list.end());
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return uncoordinated_begin;
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}
size_t ReshardingWorker::getPartitionCount(const std::string & coordinator_id)
{
auto lock = createCoordinatorLock(coordinator_id);
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zkutil::RWLock::Guard<zkutil::RWLock::Read> guard{lock};
return getPartitionCountUnlocked(coordinator_id);
}
size_t ReshardingWorker::getPartitionCountUnlocked(const std::string & coordinator_id)
{
auto zookeeper = context.getZooKeeper();
return zookeeper->getChildren(getCoordinatorPath(coordinator_id) + "/partitions").size();
}
size_t ReshardingWorker::getNodeCount(const std::string & coordinator_id)
{
auto lock = createCoordinatorLock(coordinator_id);
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zkutil::RWLock::Guard<zkutil::RWLock::Read> guard{lock};
auto zookeeper = context.getZooKeeper();
auto count = zookeeper->get(getCoordinatorPath(coordinator_id) + "/node_count");
return std::stoull(count);
}
void ReshardingWorker::waitForCheckCompletion(const std::string & coordinator_id)
{
createCheckBarrier(coordinator_id).enter();
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}
void ReshardingWorker::waitForOptOutCompletion(const std::string & coordinator_id, size_t count)
{
createOptOutBarrier(coordinator_id, count).enter();
}
void ReshardingWorker::setStatus(const std::string & coordinator_id, Status status)
{
auto zookeeper = context.getZooKeeper();
zookeeper->set(getCoordinatorPath(coordinator_id) + "/status", toString(static_cast<UInt64>(status)));
}
void ReshardingWorker::setStatus(const std::string & coordinator_id, const std::string & hostname,
Status status)
{
auto zookeeper = context.getZooKeeper();
zookeeper->set(getCoordinatorPath(coordinator_id) + "/status/" + hostname,
toString(static_cast<UInt64>(status)));
}
bool ReshardingWorker::updateOfflineNodes(const std::string & coordinator_id)
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{
return updateOfflineNodesCommon(getCoordinatorPath(coordinator_id) + "/status", coordinator_id);
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}
bool ReshardingWorker::updateOfflineNodes()
{
return updateOfflineNodesCommon(getPartitionPath(current_job) + "/nodes", current_job.coordinator_id);
}
bool ReshardingWorker::updateOfflineNodesCommon(const std::string & path, const std::string & coordinator_id)
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{
auto zookeeper = context.getZooKeeper();
auto nodes = zookeeper->getChildren(path);
std::sort(nodes.begin(), nodes.end());
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auto online = zookeeper->getChildren(distributed_path + "/online");
std::sort(online.begin(), online.end());
std::vector<std::string> offline(nodes.size());
auto end = std::set_difference(nodes.begin(), nodes.end(),
online.begin(), online.end(), offline.begin());
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offline.resize(end - offline.begin());
for (const auto & node : offline)
zookeeper->set(getCoordinatorPath(coordinator_id) + "/status/" + node,
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toString(static_cast<UInt64>(STATUS_ON_HOLD)));
return !offline.empty();
}
ReshardingWorker::Status ReshardingWorker::getCoordinatorStatus(const std::string & coordinator_id)
{
return getStatusCommon(getCoordinatorPath(coordinator_id) + "/status", coordinator_id);
}
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ReshardingWorker::Status ReshardingWorker::getStatus()
{
return getStatusCommon(getPartitionPath(current_job) + "/nodes", current_job.coordinator_id);
}
ReshardingWorker::Status ReshardingWorker::getStatusCommon(const std::string & path, const std::string & coordinator_id)
{
/// Note: we don't need any synchronization for the status.
/// That's why we don't acquire any read/write lock.
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auto zookeeper = context.getZooKeeper();
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auto status_str = zookeeper->get(getCoordinatorPath(coordinator_id) + "/status");
auto coordinator_status = std::stoull(status_str);
if (coordinator_status != STATUS_OK)
return static_cast<Status>(coordinator_status);
(void) updateOfflineNodesCommon(path, coordinator_id);
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auto nodes = zookeeper->getChildren(path);
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bool has_error = false;
bool has_on_hold = false;
/// Determine the status.
for (const auto & node : nodes)
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{
auto status_str = zookeeper->get(getCoordinatorPath(coordinator_id) + "/status/" + node);
auto status = std::stoull(status_str);
if (status == STATUS_ERROR)
has_error = true;
else if (status == STATUS_ON_HOLD)
has_on_hold = true;
}
/// Cancellation notifications have priority over error notifications.
if (has_on_hold)
return STATUS_ON_HOLD;
else if (has_error)
return STATUS_ERROR;
else
return STATUS_OK;
}
void ReshardingWorker::attachJob()
{
if (!current_job.isCoordinated())
return;
auto zookeeper = context.getZooKeeper();
auto status = getStatus();
if (status == STATUS_ERROR)
{
/// This case is triggered when an error occured on a participating node
/// while we went offline.
throw Exception("An error occurred on a remote node", ErrorCodes::RESHARDING_REMOTE_NODE_ERROR);
}
else if (status == STATUS_ON_HOLD)
{
/// The current distributed job is on hold. Check that all the required nodes are online.
/// If it is so, proceed further. Otherwise throw an exception and switch to the
/// next job.
auto current_host = getFQDNOrHostName();
setStatus(current_job.coordinator_id, current_host, STATUS_OK);
/// Wait for all the participating nodes to be ready.
createRecoveryBarrier(current_job).enter();
/// Catch any error that could have happened while crossing the barrier.
abortJobIfRequested();
}
else if (status == STATUS_OK)
{
/// nothing here
}
else
{
/// This should never happen but we must take this case into account for the sake
/// of completeness.
throw Exception("ReshardingWorker: unexpected status", ErrorCodes::LOGICAL_ERROR);
}
}
void ReshardingWorker::detachJob()
{
if (!current_job.isCoordinated())
return;
auto zookeeper = context.getZooKeeper();
bool delete_coordinator = false;
{
auto lock = createCoordinatorLock(current_job.coordinator_id);
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zkutil::RWLock::Guard<zkutil::RWLock::Write> guard{lock};
auto children = zookeeper->getChildren(getPartitionPath(current_job) + "/nodes");
if (children.empty())
throw Exception("ReshardingWorker: unable to detach job", ErrorCodes::LOGICAL_ERROR);
bool was_last_node = children.size() == 1;
auto current_host = getFQDNOrHostName();
zookeeper->remove(getPartitionPath(current_job) + "/nodes/" + current_host);
if (was_last_node)
{
/// All the participating nodes have processed the current partition.
zookeeper->removeRecursive(getPartitionPath(current_job));
if (getPartitionCountUnlocked(current_job.coordinator_id) == 0)
{
/// All the partitions of the current distributed job have been processed.
delete_coordinator = true;
}
}
}
if (delete_coordinator)
deleteCoordinator(current_job.coordinator_id);
}
void ReshardingWorker::waitForUploadCompletion()
{
if (!current_job.isCoordinated())
return;
createUploadBarrier(current_job).enter();
}
void ReshardingWorker::abortPollingIfRequested()
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{
if (must_stop)
throw Exception("Cancelled resharding", ErrorCodes::ABORTED);
}
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void ReshardingWorker::abortRecoveryIfRequested()
{
bool has_offline_nodes = false;
bool must_abort;
try
{
has_offline_nodes = updateOfflineNodes();
must_abort = must_stop || has_offline_nodes;
}
catch (...)
{
must_abort = true;
tryLogCurrentException(__PRETTY_FUNCTION__);
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}
if (must_abort)
{
if (must_stop)
throw Exception("Cancelled resharding", ErrorCodes::ABORTED);
else if (has_offline_nodes)
throw Exception("Distributed job on hold. Ignoring for now",
ErrorCodes::RESHARDING_DISTRIBUTED_JOB_ON_HOLD);
else
{
/// We don't throw any exception here because the other nodes waiting
/// to cross the recovery barrier would get stuck forever into a loop.
/// Instead we rely on cancellation points to detect this error and
/// therefore terminate the job.
setStatus(current_job.coordinator_id, getFQDNOrHostName(), STATUS_ERROR);
}
}
}
void ReshardingWorker::abortCoordinatorIfRequested(const std::string & coordinator_id)
{
bool is_remote_node_unavailable = false;
bool is_remote_node_error = false;
bool cancellation_result = false;
try
{
auto status = getCoordinatorStatus(coordinator_id);
if (status == STATUS_ON_HOLD)
is_remote_node_unavailable = true;
else if (status == STATUS_ERROR)
is_remote_node_error = true;
cancellation_result = status != STATUS_OK;
}
catch (...)
{
cancellation_result = true;
tryLogCurrentException(__PRETTY_FUNCTION__);
}
bool must_abort = must_stop || cancellation_result;
if (must_abort)
{
/// Important: always keep the following order.
if (must_stop)
throw Exception("Cancelled resharding", ErrorCodes::ABORTED);
else if (is_remote_node_unavailable)
throw Exception("Remote node unavailable",
ErrorCodes::RESHARDING_REMOTE_NODE_UNAVAILABLE);
else if (is_remote_node_error)
throw Exception("An error occurred on a remote node",
ErrorCodes::RESHARDING_REMOTE_NODE_ERROR);
else
throw Exception("An error occurred on local node", ErrorCodes::LOGICAL_ERROR);
}
}
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void ReshardingWorker::abortJobIfRequested()
{
bool is_remote_node_unavailable = false;
bool is_remote_node_error = false;
bool cancellation_result = false;
if (current_job.isCoordinated())
{
try
{
auto status = getStatus();
if (status == STATUS_ON_HOLD)
is_remote_node_unavailable = true;
else if (status == STATUS_ERROR)
is_remote_node_error = true;
cancellation_result = status != STATUS_OK;
}
catch (...)
{
cancellation_result = true;
tryLogCurrentException(__PRETTY_FUNCTION__);
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}
}
bool must_abort = must_stop || cancellation_result;
if (must_abort)
{
current_job.is_aborted = true;
/// Important: always keep the following order.
if (must_stop)
throw Exception("Cancelled resharding", ErrorCodes::ABORTED);
else if (is_remote_node_unavailable)
throw Exception("Remote node unavailable",
ErrorCodes::RESHARDING_REMOTE_NODE_UNAVAILABLE);
else if (is_remote_node_error)
throw Exception("An error occurred on a remote node",
ErrorCodes::RESHARDING_REMOTE_NODE_ERROR);
else
throw Exception("An error occurred on local node", ErrorCodes::LOGICAL_ERROR);
}
}
zkutil::RWLock ReshardingWorker::createLock()
{
auto zookeeper = context.getZooKeeper();
zkutil::RWLock lock{zookeeper, distributed_lock_path};
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zkutil::RWLock::CancellationHook hook = std::bind(&ReshardingWorker::abortPollingIfRequested, this);
lock.setCancellationHook(hook);
return lock;
}
zkutil::RWLock ReshardingWorker::createCoordinatorLock(const std::string & coordinator_id)
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{
auto zookeeper = context.getZooKeeper();
zkutil::RWLock lock{zookeeper, getCoordinatorPath(coordinator_id) + "/lock"};
zkutil::RWLock::CancellationHook hook = std::bind(&ReshardingWorker::abortCoordinatorIfRequested, this,
coordinator_id);
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lock.setCancellationHook(hook);
return lock;
}
zkutil::RWLock ReshardingWorker::createDeletionLock(const std::string & coordinator_id)
{
auto zookeeper = context.getZooKeeper();
zkutil::RWLock lock{zookeeper, getCoordinatorPath(coordinator_id) + "/deletion_lock"};
zkutil::RWLock::CancellationHook hook = std::bind(&ReshardingWorker::abortPollingIfRequested, this);
lock.setCancellationHook(hook);
return lock;
}
zkutil::SingleBarrier ReshardingWorker::createSubscribeBarrier(const std::string & coordinator_id)
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{
auto zookeeper = context.getZooKeeper();
auto node_count = zookeeper->get(getCoordinatorPath(coordinator_id) + "/node_count");
zkutil::SingleBarrier subscribe_barrier{zookeeper, getCoordinatorPath(coordinator_id) + "/subscribe_barrier",
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std::stoull(node_count)};
zkutil::SingleBarrier::CancellationHook hook = std::bind(&ReshardingWorker::abortCoordinatorIfRequested, this,
coordinator_id);
subscribe_barrier.setCancellationHook(hook);
return subscribe_barrier;
}
zkutil::SingleBarrier ReshardingWorker::createCheckBarrier(const std::string & coordinator_id)
{
auto zookeeper = context.getZooKeeper();
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auto node_count = zookeeper->get(getCoordinatorPath(coordinator_id) + "/node_count");
zkutil::SingleBarrier check_barrier{zookeeper, getCoordinatorPath(coordinator_id) + "/check_barrier",
std::stoull(node_count)};
zkutil::SingleBarrier::CancellationHook hook = std::bind(&ReshardingWorker::abortCoordinatorIfRequested, this,
coordinator_id);
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check_barrier.setCancellationHook(hook);
return check_barrier;
}
zkutil::SingleBarrier ReshardingWorker::createOptOutBarrier(const std::string & coordinator_id,
size_t count)
{
auto zookeeper = context.getZooKeeper();
zkutil::SingleBarrier opt_out_barrier{zookeeper, getCoordinatorPath(coordinator_id)
+ "/opt_out_barrier", count};
zkutil::SingleBarrier::CancellationHook hook = std::bind(&ReshardingWorker::abortCoordinatorIfRequested, this,
coordinator_id);
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opt_out_barrier.setCancellationHook(hook);
return opt_out_barrier;
}
zkutil::SingleBarrier ReshardingWorker::createRecoveryBarrier(const ReshardingJob & job)
{
auto zookeeper = context.getZooKeeper();
auto node_count = zookeeper->getChildren(getPartitionPath(job) + "/nodes").size();
zkutil::SingleBarrier recovery_barrier{zookeeper, getPartitionPath(job) + "/recovery_barrier", node_count};
zkutil::SingleBarrier::CancellationHook hook = std::bind(&ReshardingWorker::abortRecoveryIfRequested, this);
recovery_barrier.setCancellationHook(hook);
return recovery_barrier;
}
zkutil::SingleBarrier ReshardingWorker::createUploadBarrier(const ReshardingJob & job)
{
auto zookeeper = context.getZooKeeper();
auto node_count = zookeeper->getChildren(getPartitionPath(job) + "/nodes").size();
zkutil::SingleBarrier upload_barrier{zookeeper, getPartitionPath(job) + "/upload_barrier", node_count};
zkutil::SingleBarrier::CancellationHook hook = std::bind(&ReshardingWorker::abortJobIfRequested, this);
upload_barrier.setCancellationHook(hook);
return upload_barrier;
}
std::string ReshardingWorker::computeHash(const std::string & in)
{
unsigned char hash[SHA512_DIGEST_LENGTH];
SHA512_CTX ctx;
SHA512_Init(&ctx);
SHA512_Update(&ctx, reinterpret_cast<const void *>(in.data()), in.size());
SHA512_Final(hash, &ctx);
std::string out;
{
WriteBufferFromString buf(out);
HexWriteBuffer hex_buf(buf);
hex_buf.write(reinterpret_cast<const char *>(hash), sizeof(hash));
}
return out;
}
std::string ReshardingWorker::getCoordinatorPath(const std::string & coordinator_id) const
{
return coordination_path + "/" + coordinator_id;
}
std::string ReshardingWorker::getPartitionPath(const ReshardingJob & job) const
{
return coordination_path + "/" + job.coordinator_id + "/partitions/" + job.partition;
}
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}