ClickHouse/src/Coordination/KeeperDispatcher.cpp

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#include <Coordination/KeeperDispatcher.h>
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#include <libnuraft/async.hxx>
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#include <Poco/Path.h>
#include <Poco/Util/AbstractConfiguration.h>
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#include <base/hex.h>
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#include <Common/setThreadName.h>
#include <Common/ZooKeeper/KeeperException.h>
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#include <Common/checkStackSize.h>
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#include <Common/CurrentMetrics.h>
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#include <Common/ProfileEvents.h>
#include <Common/logger_useful.h>
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#include <future>
#include <chrono>
#include <filesystem>
#include <iterator>
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#include <limits>
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#if USE_JEMALLOC
# include <jemalloc/jemalloc.h>
#define STRINGIFY_HELPER(x) #x
#define STRINGIFY(x) STRINGIFY_HELPER(x)
#endif
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namespace CurrentMetrics
{
extern const Metric KeeperAliveConnections;
extern const Metric KeeperOutstandingRequets;
}
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namespace ProfileEvents
{
extern const Event MemoryAllocatorPurge;
extern const Event MemoryAllocatorPurgeTimeMicroseconds;
}
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namespace fs = std::filesystem;
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namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
extern const int TIMEOUT_EXCEEDED;
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extern const int SYSTEM_ERROR;
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}
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KeeperDispatcher::KeeperDispatcher()
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: responses_queue(std::numeric_limits<size_t>::max())
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, configuration_and_settings(std::make_shared<KeeperConfigurationAndSettings>())
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, log(&Poco::Logger::get("KeeperDispatcher"))
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{}
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void KeeperDispatcher::requestThread()
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{
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setThreadName("KeeperReqT");
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/// Result of requests batch from previous iteration
RaftAppendResult prev_result = nullptr;
/// Requests from previous iteration. We store them to be able
/// to send errors to the client.
KeeperStorage::RequestsForSessions prev_batch;
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while (!shutdown_called)
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{
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KeeperStorage::RequestForSession request;
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auto coordination_settings = configuration_and_settings->coordination_settings;
uint64_t max_wait = coordination_settings->operation_timeout_ms.totalMilliseconds();
uint64_t max_batch_size = coordination_settings->max_requests_batch_size;
uint64_t max_batch_bytes_size = coordination_settings->max_requests_batch_bytes_size;
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/// The code below do a very simple thing: batch all write (quorum) requests into vector until
/// previous write batch is not finished or max_batch size achieved. The main complexity goes from
/// the ability to process read requests without quorum (from local state). So when we are collecting
/// requests into a batch we must check that the new request is not read request. Otherwise we have to
/// process all already accumulated write requests, wait them synchronously and only after that process
/// read request. So reads are some kind of "separator" for writes.
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try
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{
if (requests_queue->tryPop(request, max_wait))
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{
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CurrentMetrics::sub(CurrentMetrics::KeeperOutstandingRequets);
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if (shutdown_called)
break;
KeeperStorage::RequestsForSessions current_batch;
size_t current_batch_bytes_size = 0;
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bool has_read_request = false;
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/// If new request is not read request or we must to process it through quorum.
/// Otherwise we will process it locally.
if (coordination_settings->quorum_reads || !request.request->isReadRequest())
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{
current_batch_bytes_size += request.request->bytesSize();
current_batch.emplace_back(request);
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const auto try_get_request = [&]
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{
/// Trying to get batch requests as fast as possible
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if (requests_queue->tryPop(request))
{
CurrentMetrics::sub(CurrentMetrics::KeeperOutstandingRequets);
/// Don't append read request into batch, we have to process them separately
if (!coordination_settings->quorum_reads && request.request->isReadRequest())
{
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const auto & last_request = current_batch.back();
std::lock_guard lock(read_request_queue_mutex);
read_request_queue[last_request.session_id][last_request.request->xid].push_back(request);
}
else
{
current_batch_bytes_size += request.request->bytesSize();
current_batch.emplace_back(request);
}
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return true;
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}
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return false;
};
/// TODO: Deprecate max_requests_quick_batch_size and use only max_requests_batch_size and max_requests_batch_bytes_size
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size_t max_quick_batch_size = coordination_settings->max_requests_quick_batch_size;
while (!shutdown_called && !has_read_request &&
current_batch.size() < max_quick_batch_size && current_batch_bytes_size < max_batch_bytes_size &&
try_get_request())
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;
const auto prev_result_done = [&]
{
/// has_result == false && get_result_code == OK means that our request still not processed.
/// Sometimes NuRaft set errorcode without setting result, so we check both here.
return !prev_result || prev_result->has_result() || prev_result->get_result_code() != nuraft::cmd_result_code::OK;
};
/// Waiting until previous append will be successful, or batch is big enough
while (!shutdown_called && !has_read_request && !prev_result_done() &&
current_batch.size() <= max_batch_size && current_batch_bytes_size < max_batch_bytes_size)
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{
try_get_request();
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}
}
else
has_read_request = true;
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if (shutdown_called)
break;
/// Forcefully process all previous pending requests
if (prev_result)
forceWaitAndProcessResult(prev_result, prev_batch);
/// Process collected write requests batch
if (!current_batch.empty())
{
LOG_TRACE(log, "Processing requests batch, size: {}, bytes: {}", current_batch.size(), current_batch_bytes_size);
auto result = server->putRequestBatch(current_batch);
if (result)
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{
if (has_read_request) /// If we will execute read request next, than we have to process result now
forceWaitAndProcessResult(result, current_batch);
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}
else
{
addErrorResponses(current_batch, Coordination::Error::ZCONNECTIONLOSS);
current_batch.clear();
current_batch_bytes_size = 0;
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}
prev_batch = std::move(current_batch);
prev_result = result;
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}
/// Read request always goes after write batch (last request)
if (has_read_request)
{
if (server->isLeaderAlive())
server->putLocalReadRequest(request);
else
addErrorResponses({request}, Coordination::Error::ZCONNECTIONLOSS);
}
}
}
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catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
}
}
void KeeperDispatcher::responseThread()
{
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setThreadName("KeeperRspT");
while (!shutdown_called)
{
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KeeperStorage::ResponseForSession response_for_session;
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uint64_t max_wait = configuration_and_settings->coordination_settings->operation_timeout_ms.totalMilliseconds();
if (responses_queue.tryPop(response_for_session, max_wait))
{
if (shutdown_called)
break;
try
{
setResponse(response_for_session.session_id, response_for_session.response);
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}
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catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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}
}
}
void KeeperDispatcher::snapshotThread()
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{
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setThreadName("KeeperSnpT");
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while (!shutdown_called)
{
CreateSnapshotTask task;
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if (!snapshots_queue.pop(task))
break;
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if (shutdown_called)
break;
try
{
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auto snapshot_path = task.create_snapshot(std::move(task.snapshot));
if (snapshot_path.empty())
continue;
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if (isLeader())
snapshot_s3.uploadSnapshot(snapshot_path);
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
}
}
void KeeperDispatcher::setResponse(int64_t session_id, const Coordination::ZooKeeperResponsePtr & response)
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{
std::lock_guard lock(session_to_response_callback_mutex);
/// Special new session response.
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if (response->xid != Coordination::WATCH_XID && response->getOpNum() == Coordination::OpNum::SessionID)
{
const Coordination::ZooKeeperSessionIDResponse & session_id_resp = dynamic_cast<const Coordination::ZooKeeperSessionIDResponse &>(*response);
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/// Nobody waits for this session id
if (session_id_resp.server_id != server->getServerID() || !new_session_id_response_callback.contains(session_id_resp.internal_id))
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return;
auto callback = new_session_id_response_callback[session_id_resp.internal_id];
callback(response);
new_session_id_response_callback.erase(session_id_resp.internal_id);
}
else /// Normal response, just write to client
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{
auto session_response_callback = session_to_response_callback.find(session_id);
/// Session was disconnected, just skip this response
if (session_response_callback == session_to_response_callback.end())
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return;
session_response_callback->second(response);
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/// Session closed, no more writes
if (response->xid != Coordination::WATCH_XID && response->getOpNum() == Coordination::OpNum::Close)
{
session_to_response_callback.erase(session_response_callback);
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CurrentMetrics::sub(CurrentMetrics::KeeperAliveConnections);
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}
}
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}
bool KeeperDispatcher::putRequest(const Coordination::ZooKeeperRequestPtr & request, int64_t session_id)
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{
{
/// If session was already disconnected than we will ignore requests
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std::lock_guard lock(session_to_response_callback_mutex);
if (!session_to_response_callback.contains(session_id))
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return false;
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}
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KeeperStorage::RequestForSession request_info;
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request_info.request = request;
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using namespace std::chrono;
request_info.time = duration_cast<milliseconds>(system_clock::now().time_since_epoch()).count();
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request_info.session_id = session_id;
std::lock_guard lock(push_request_mutex);
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if (shutdown_called)
return false;
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/// Put close requests without timeouts
if (request->getOpNum() == Coordination::OpNum::Close)
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{
if (!requests_queue->push(std::move(request_info)))
throw Exception(ErrorCodes::SYSTEM_ERROR, "Cannot push request to queue");
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}
else if (!requests_queue->tryPush(std::move(request_info), configuration_and_settings->coordination_settings->operation_timeout_ms.totalMilliseconds()))
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{
throw Exception(ErrorCodes::TIMEOUT_EXCEEDED, "Cannot push request to queue within operation timeout");
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}
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CurrentMetrics::add(CurrentMetrics::KeeperOutstandingRequets);
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return true;
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}
void KeeperDispatcher::initialize(const Poco::Util::AbstractConfiguration & config, bool standalone_keeper, bool start_async, const MultiVersion<Macros>::Version & macros)
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{
LOG_DEBUG(log, "Initializing storage dispatcher");
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configuration_and_settings = KeeperConfigurationAndSettings::loadFromConfig(config, standalone_keeper);
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requests_queue = std::make_unique<RequestsQueue>(configuration_and_settings->coordination_settings->max_request_queue_size);
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request_thread = ThreadFromGlobalPool([this] { requestThread(); });
responses_thread = ThreadFromGlobalPool([this] { responseThread(); });
snapshot_thread = ThreadFromGlobalPool([this] { snapshotThread(); });
snapshot_s3.startup(config, macros);
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server = std::make_unique<KeeperServer>(configuration_and_settings, config, responses_queue, snapshots_queue, snapshot_s3, [this](const KeeperStorage::RequestForSession & request_for_session)
{
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/// check if we have queue of read requests depending on this request to be committed
std::lock_guard lock(read_request_queue_mutex);
if (auto it = read_request_queue.find(request_for_session.session_id); it != read_request_queue.end())
{
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auto & xid_to_request_queue = it->second;
if (auto request_queue_it = xid_to_request_queue.find(request_for_session.request->xid); request_queue_it != xid_to_request_queue.end())
{
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for (const auto & read_request : request_queue_it->second)
{
if (server->isLeaderAlive())
server->putLocalReadRequest(read_request);
else
addErrorResponses({read_request}, Coordination::Error::ZCONNECTIONLOSS);
}
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xid_to_request_queue.erase(request_queue_it);
}
}
});
try
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{
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LOG_DEBUG(log, "Waiting server to initialize");
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server->startup(config, configuration_and_settings->enable_ipv6);
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LOG_DEBUG(log, "Server initialized, waiting for quorum");
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if (!start_async)
{
server->waitInit();
LOG_DEBUG(log, "Quorum initialized");
}
else
{
LOG_INFO(log, "Starting Keeper asynchronously, server will accept connections to Keeper when it will be ready");
}
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}
catch (...)
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{
tryLogCurrentException(__PRETTY_FUNCTION__);
throw;
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}
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/// Start it after keeper server start
session_cleaner_thread = ThreadFromGlobalPool([this] { sessionCleanerTask(); });
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update_configuration_thread = ThreadFromGlobalPool([this] { updateConfigurationThread(); });
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LOG_DEBUG(log, "Dispatcher initialized");
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}
void KeeperDispatcher::shutdown()
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{
try
{
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{
std::lock_guard lock(push_request_mutex);
if (shutdown_called)
return;
LOG_DEBUG(log, "Shutting down storage dispatcher");
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shutdown_called = true;
if (session_cleaner_thread.joinable())
session_cleaner_thread.join();
if (requests_queue)
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{
requests_queue->finish();
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if (request_thread.joinable())
request_thread.join();
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}
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responses_queue.finish();
if (responses_thread.joinable())
responses_thread.join();
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snapshots_queue.finish();
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if (snapshot_thread.joinable())
snapshot_thread.join();
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update_configuration_queue.finish();
if (update_configuration_thread.joinable())
update_configuration_thread.join();
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}
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KeeperStorage::RequestForSession request_for_session;
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/// Set session expired for all pending requests
while (requests_queue && requests_queue->tryPop(request_for_session))
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{
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CurrentMetrics::sub(CurrentMetrics::KeeperOutstandingRequets);
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auto response = request_for_session.request->makeResponse();
response->error = Coordination::Error::ZSESSIONEXPIRED;
setResponse(request_for_session.session_id, response);
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}
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KeeperStorage::RequestsForSessions close_requests;
{
/// Clear all registered sessions
std::lock_guard lock(session_to_response_callback_mutex);
if (server && hasLeader())
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{
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close_requests.reserve(session_to_response_callback.size());
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// send to leader CLOSE requests for active sessions
for (const auto & [session, response] : session_to_response_callback)
{
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auto request = Coordination::ZooKeeperRequestFactory::instance().get(Coordination::OpNum::Close);
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request->xid = Coordination::CLOSE_XID;
using namespace std::chrono;
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KeeperStorage::RequestForSession request_info
{
.session_id = session,
.time = duration_cast<milliseconds>(system_clock::now().time_since_epoch()).count(),
.request = std::move(request),
};
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close_requests.push_back(std::move(request_info));
}
}
session_to_response_callback.clear();
}
// if there is no leader, there is no reason to do CLOSE because it's a write request
if (server && hasLeader() && !close_requests.empty())
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{
LOG_INFO(log, "Trying to close {} session(s)", close_requests.size());
const auto raft_result = server->putRequestBatch(close_requests);
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auto sessions_closing_done_promise = std::make_shared<std::promise<void>>();
auto sessions_closing_done = sessions_closing_done_promise->get_future();
raft_result->when_ready([sessions_closing_done_promise = std::move(sessions_closing_done_promise)](
nuraft::cmd_result<nuraft::ptr<nuraft::buffer>> & /*result*/,
nuraft::ptr<std::exception> & /*exception*/) { sessions_closing_done_promise->set_value(); });
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auto session_shutdown_timeout = configuration_and_settings->coordination_settings->session_shutdown_timeout.totalMilliseconds();
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if (sessions_closing_done.wait_for(std::chrono::milliseconds(session_shutdown_timeout)) != std::future_status::ready)
LOG_WARNING(
log,
"Failed to close sessions in {}ms. If they are not closed, they will be closed after session timeout.",
session_shutdown_timeout);
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}
if (server)
server->shutdown();
snapshot_s3.shutdown();
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CurrentMetrics::set(CurrentMetrics::KeeperAliveConnections, 0);
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
LOG_DEBUG(log, "Dispatcher shut down");
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}
void KeeperDispatcher::forceRecovery()
{
server->forceRecovery();
}
KeeperDispatcher::~KeeperDispatcher()
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{
shutdown();
}
void KeeperDispatcher::registerSession(int64_t session_id, ZooKeeperResponseCallback callback)
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{
std::lock_guard lock(session_to_response_callback_mutex);
if (!session_to_response_callback.try_emplace(session_id, callback).second)
throw Exception(DB::ErrorCodes::LOGICAL_ERROR, "Session with id {} already registered in dispatcher", session_id);
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CurrentMetrics::add(CurrentMetrics::KeeperAliveConnections);
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}
void KeeperDispatcher::sessionCleanerTask()
{
while (true)
{
if (shutdown_called)
return;
try
{
/// Only leader node must check dead sessions
if (server->checkInit() && isLeader())
{
auto dead_sessions = server->getDeadSessions();
for (int64_t dead_session : dead_sessions)
{
LOG_INFO(log, "Found dead session {}, will try to close it", dead_session);
/// Close session == send close request to raft server
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auto request = Coordination::ZooKeeperRequestFactory::instance().get(Coordination::OpNum::Close);
request->xid = Coordination::CLOSE_XID;
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using namespace std::chrono;
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KeeperStorage::RequestForSession request_info
{
.session_id = dead_session,
.time = duration_cast<milliseconds>(system_clock::now().time_since_epoch()).count(),
.request = std::move(request),
};
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{
std::lock_guard lock(push_request_mutex);
if (!requests_queue->push(std::move(request_info)))
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LOG_INFO(log, "Cannot push close request to queue while cleaning outdated sessions");
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CurrentMetrics::add(CurrentMetrics::KeeperOutstandingRequets);
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}
/// Remove session from registered sessions
finishSession(dead_session);
LOG_INFO(log, "Dead session close request pushed");
}
}
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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auto time_to_sleep = configuration_and_settings->coordination_settings->dead_session_check_period_ms.totalMilliseconds();
std::this_thread::sleep_for(std::chrono::milliseconds(time_to_sleep));
}
}
void KeeperDispatcher::finishSession(int64_t session_id)
{
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{
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std::lock_guard lock(session_to_response_callback_mutex);
auto session_it = session_to_response_callback.find(session_id);
if (session_it != session_to_response_callback.end())
{
session_to_response_callback.erase(session_it);
CurrentMetrics::sub(CurrentMetrics::KeeperAliveConnections);
}
}
{
std::lock_guard lock(read_request_queue_mutex);
read_request_queue.erase(session_id);
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}
}
void KeeperDispatcher::addErrorResponses(const KeeperStorage::RequestsForSessions & requests_for_sessions, Coordination::Error error)
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{
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for (const auto & request_for_session : requests_for_sessions)
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{
KeeperStorage::ResponsesForSessions responses;
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auto response = request_for_session.request->makeResponse();
response->xid = request_for_session.request->xid;
response->zxid = 0;
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response->error = error;
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if (!responses_queue.push(DB::KeeperStorage::ResponseForSession{request_for_session.session_id, response}))
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throw Exception(ErrorCodes::SYSTEM_ERROR,
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"Could not push error response xid {} zxid {} error message {} to responses queue",
response->xid,
response->zxid,
errorMessage(error));
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}
}
void KeeperDispatcher::forceWaitAndProcessResult(RaftAppendResult & result, KeeperStorage::RequestsForSessions & requests_for_sessions)
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{
if (!result->has_result())
result->get();
/// If we get some errors, than send them to clients
if (!result->get_accepted() || result->get_result_code() == nuraft::cmd_result_code::TIMEOUT)
addErrorResponses(requests_for_sessions, Coordination::Error::ZOPERATIONTIMEOUT);
else if (result->get_result_code() != nuraft::cmd_result_code::OK)
addErrorResponses(requests_for_sessions, Coordination::Error::ZCONNECTIONLOSS);
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result = nullptr;
requests_for_sessions.clear();
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}
int64_t KeeperDispatcher::getSessionID(int64_t session_timeout_ms)
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{
/// New session id allocation is a special request, because we cannot process it in normal
/// way: get request -> put to raft -> set response for registered callback.
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KeeperStorage::RequestForSession request_info;
std::shared_ptr<Coordination::ZooKeeperSessionIDRequest> request = std::make_shared<Coordination::ZooKeeperSessionIDRequest>();
/// Internal session id. It's a temporary number which is unique for each client on this server
/// but can be same on different servers.
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request->internal_id = internal_session_id_counter.fetch_add(1);
request->session_timeout_ms = session_timeout_ms;
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request->server_id = server->getServerID();
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request_info.request = request;
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using namespace std::chrono;
request_info.time = duration_cast<milliseconds>(system_clock::now().time_since_epoch()).count();
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request_info.session_id = -1;
auto promise = std::make_shared<std::promise<int64_t>>();
auto future = promise->get_future();
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{
std::lock_guard lock(session_to_response_callback_mutex);
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new_session_id_response_callback[request->internal_id] = [promise, internal_id = request->internal_id] (const Coordination::ZooKeeperResponsePtr & response)
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{
if (response->getOpNum() != Coordination::OpNum::SessionID)
promise->set_exception(std::make_exception_ptr(Exception(ErrorCodes::LOGICAL_ERROR,
"Incorrect response of type {} instead of SessionID response", Coordination::toString(response->getOpNum()))));
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auto session_id_response = dynamic_cast<const Coordination::ZooKeeperSessionIDResponse &>(*response);
if (session_id_response.internal_id != internal_id)
{
promise->set_exception(std::make_exception_ptr(Exception(ErrorCodes::LOGICAL_ERROR,
"Incorrect response with internal id {} instead of {}", session_id_response.internal_id, internal_id)));
}
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if (response->error != Coordination::Error::ZOK)
promise->set_exception(std::make_exception_ptr(zkutil::KeeperException("SessionID request failed with error", response->error)));
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promise->set_value(session_id_response.session_id);
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};
}
/// Push new session request to queue
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{
std::lock_guard lock(push_request_mutex);
if (!requests_queue->tryPush(std::move(request_info), session_timeout_ms))
throw Exception(ErrorCodes::TIMEOUT_EXCEEDED, "Cannot push session id request to queue within session timeout");
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CurrentMetrics::add(CurrentMetrics::KeeperOutstandingRequets);
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}
if (future.wait_for(std::chrono::milliseconds(session_timeout_ms)) != std::future_status::ready)
throw Exception(ErrorCodes::TIMEOUT_EXCEEDED, "Cannot receive session id within session timeout");
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/// Forcefully wait for request execution because we cannot process any other
/// requests for this client until it get new session id.
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return future.get();
}
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void KeeperDispatcher::updateConfigurationThread()
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{
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while (true)
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{
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if (shutdown_called)
return;
try
{
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using namespace std::chrono_literals;
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if (!server->checkInit())
{
LOG_INFO(log, "Server still not initialized, will not apply configuration until initialization finished");
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std::this_thread::sleep_for(5000ms);
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continue;
}
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if (server->isRecovering())
{
LOG_INFO(log, "Server is recovering, will not apply configuration until recovery is finished");
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std::this_thread::sleep_for(5000ms);
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continue;
}
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ConfigUpdateAction action;
if (!update_configuration_queue.pop(action))
break;
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/// We must wait this update from leader or apply it ourself (if we are leader)
bool done = false;
while (!done)
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{
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if (server->isRecovering())
break;
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if (shutdown_called)
return;
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if (isLeader())
{
server->applyConfigurationUpdate(action);
done = true;
}
else
{
done = server->waitConfigurationUpdate(action);
if (!done)
LOG_INFO(log, "Cannot wait for configuration update, maybe we become leader, or maybe update is invalid, will try to wait one more time");
}
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}
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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}
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}
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bool KeeperDispatcher::isServerActive() const
{
return checkInit() && hasLeader() && !server->isRecovering();
}
void KeeperDispatcher::updateConfiguration(const Poco::Util::AbstractConfiguration & config, const MultiVersion<Macros>::Version & macros)
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{
auto diff = server->getConfigurationDiff(config);
if (diff.empty())
LOG_TRACE(log, "Configuration update triggered, but nothing changed for RAFT");
else if (diff.size() > 1)
LOG_WARNING(log, "Configuration changed for more than one server ({}) from cluster, it's strictly not recommended", diff.size());
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else
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LOG_DEBUG(log, "Configuration change size ({})", diff.size());
for (auto & change : diff)
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{
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bool push_result = update_configuration_queue.push(change);
if (!push_result)
throw Exception(ErrorCodes::SYSTEM_ERROR, "Cannot push configuration update to queue");
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}
snapshot_s3.updateS3Configuration(config, macros);
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}
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void KeeperDispatcher::updateKeeperStatLatency(uint64_t process_time_ms)
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{
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keeper_stats.updateLatency(process_time_ms);
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}
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static uint64_t getDirSize(const fs::path & dir)
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{
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checkStackSize();
if (!fs::exists(dir))
return 0;
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fs::directory_iterator it(dir);
fs::directory_iterator end;
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uint64_t size{0};
while (it != end)
{
if (it->is_regular_file())
size += fs::file_size(*it);
else
size += getDirSize(it->path());
++it;
}
return size;
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}
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uint64_t KeeperDispatcher::getLogDirSize() const
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{
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return getDirSize(configuration_and_settings->log_storage_path);
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}
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uint64_t KeeperDispatcher::getSnapDirSize() const
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{
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return getDirSize(configuration_and_settings->snapshot_storage_path);
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}
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Keeper4LWInfo KeeperDispatcher::getKeeper4LWInfo() const
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{
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Keeper4LWInfo result = server->getPartiallyFilled4LWInfo();
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{
std::lock_guard lock(push_request_mutex);
result.outstanding_requests_count = requests_queue->size();
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}
{
std::lock_guard lock(session_to_response_callback_mutex);
result.alive_connections_count = session_to_response_callback.size();
}
return result;
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}
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void KeeperDispatcher::cleanResources()
{
#if USE_JEMALLOC
LOG_TRACE(&Poco::Logger::get("KeeperDispatcher"), "Purging unused memory");
Stopwatch watch;
mallctl("arena." STRINGIFY(MALLCTL_ARENAS_ALL) ".purge", nullptr, nullptr, nullptr, 0);
ProfileEvents::increment(ProfileEvents::MemoryAllocatorPurge);
ProfileEvents::increment(ProfileEvents::MemoryAllocatorPurgeTimeMicroseconds, watch.elapsedMicroseconds());
#endif
}
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}