ClickHouse/dbms/src/Storages/StorageReplicatedMergeTree.cpp

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#include <DB/Storages/StorageReplicatedMergeTree.h>
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#include <DB/Storages/MergeTree/ReplicatedMergeTreeBlockOutputStream.h>
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#include <DB/Storages/MergeTree/ReplicatedMergeTreePartsExchange.h>
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#include <DB/Parsers/formatAST.h>
#include <DB/IO/WriteBufferFromOStream.h>
#include <DB/IO/ReadBufferFromString.h>
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#include <time.h>
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namespace DB
{
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const auto QUEUE_UPDATE_SLEEP = std::chrono::seconds(5);
const auto QUEUE_NO_WORK_SLEEP = std::chrono::seconds(5);
const auto QUEUE_ERROR_SLEEP = std::chrono::seconds(1);
const auto QUEUE_AFTER_WORK_SLEEP = std::chrono::seconds(0);
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const auto MERGE_SELECTING_SLEEP_MS = 5 * 1000;
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StorageReplicatedMergeTree::StorageReplicatedMergeTree(
const String & zookeeper_path_,
const String & replica_name_,
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bool attach,
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const String & path_, const String & database_name_, const String & name_,
NamesAndTypesListPtr columns_,
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Context & context_,
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ASTPtr & primary_expr_ast_,
const String & date_column_name_,
const ASTPtr & sampling_expression_,
size_t index_granularity_,
MergeTreeData::Mode mode_,
const String & sign_column_,
const MergeTreeSettings & settings_)
:
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context(context_), zookeeper(context.getZooKeeper()),
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table_name(name_), full_path(path_ + escapeForFileName(table_name) + '/'), zookeeper_path(zookeeper_path_),
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replica_name(replica_name_),
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data( full_path, columns_, context_, primary_expr_ast_, date_column_name_, sampling_expression_,
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index_granularity_, mode_, sign_column_, settings_, database_name_ + "." + table_name),
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reader(data), writer(data), merger(data), fetcher(data),
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log(&Logger::get(database_name_ + "." + table_name + " (StorageReplicatedMergeTree)"))
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{
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if (!zookeeper)
{
goReadOnly();
return;
}
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if (!zookeeper_path.empty() && *zookeeper_path.rbegin() == '/')
zookeeper_path.erase(zookeeper_path.end() - 1);
replica_path = zookeeper_path + "/replicas/" + replica_name;
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if (!attach)
{
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if (!zookeeper->exists(zookeeper_path))
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createTable();
checkTableStructure();
createReplica();
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}
else
{
checkTableStructure();
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checkParts();
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}
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initVirtualParts();
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loadQueue();
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String unreplicated_path = full_path + "unreplicated/";
if (Poco::File(unreplicated_path).exists())
{
LOG_INFO(log, "Have unreplicated data");
unreplicated_data.reset(new MergeTreeData(unreplicated_path, columns_, context_, primary_expr_ast_,
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date_column_name_, sampling_expression_, index_granularity_, mode_, sign_column_, settings_,
database_name_ + "." + table_name + "[unreplicated]"));
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unreplicated_reader.reset(new MergeTreeDataSelectExecutor(*unreplicated_data));
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unreplicated_merger.reset(new MergeTreeDataMerger(*unreplicated_data));
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}
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/// Сгенерируем этому экземпляру случайный идентификатор.
struct timespec times;
if (clock_gettime(CLOCK_THREAD_CPUTIME_ID, &times))
throwFromErrno("Cannot clock_gettime.", ErrorCodes::CANNOT_CLOCK_GETTIME);
active_node_identifier = toString(times.tv_nsec);
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restarting_thread = std::thread(&StorageReplicatedMergeTree::restartingThread, this);
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}
StoragePtr StorageReplicatedMergeTree::create(
const String & zookeeper_path_,
const String & replica_name_,
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bool attach,
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const String & path_, const String & database_name_, const String & name_,
NamesAndTypesListPtr columns_,
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Context & context_,
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ASTPtr & primary_expr_ast_,
const String & date_column_name_,
const ASTPtr & sampling_expression_,
size_t index_granularity_,
MergeTreeData::Mode mode_,
const String & sign_column_,
const MergeTreeSettings & settings_)
{
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StorageReplicatedMergeTree * res = new StorageReplicatedMergeTree(zookeeper_path_, replica_name_, attach,
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path_, database_name_, name_, columns_, context_, primary_expr_ast_, date_column_name_, sampling_expression_,
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index_granularity_, mode_, sign_column_, settings_);
StoragePtr res_ptr = res->thisPtr();
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if (!res->is_read_only)
{
String endpoint_name = "ReplicatedMergeTree:" + res->replica_path;
InterserverIOEndpointPtr endpoint = new ReplicatedMergeTreePartsServer(res->data, res_ptr);
res->endpoint_holder = new InterserverIOEndpointHolder(endpoint_name, endpoint, res->context.getInterserverIOHandler());
}
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return res_ptr;
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}
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static String formattedAST(const ASTPtr & ast)
{
if (!ast)
return "";
std::stringstream ss;
formatAST(*ast, ss, 0, false, true);
return ss.str();
}
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void StorageReplicatedMergeTree::createTable()
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{
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LOG_DEBUG(log, "Creating table " << zookeeper_path);
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zookeeper->create(zookeeper_path, "", zkutil::CreateMode::Persistent);
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/// Запишем метаданные таблицы, чтобы реплики могли сверять с ними свою локальную структуру таблицы.
std::stringstream metadata;
metadata << "metadata format version: 1" << std::endl;
metadata << "date column: " << data.date_column_name << std::endl;
metadata << "sampling expression: " << formattedAST(data.sampling_expression) << std::endl;
metadata << "index granularity: " << data.index_granularity << std::endl;
metadata << "mode: " << static_cast<int>(data.mode) << std::endl;
metadata << "sign column: " << data.sign_column << std::endl;
metadata << "primary key: " << formattedAST(data.primary_expr_ast) << std::endl;
metadata << "columns:" << std::endl;
WriteBufferFromOStream buf(metadata);
for (auto & it : data.getColumnsList())
{
writeBackQuotedString(it.first, buf);
writeChar(' ', buf);
writeString(it.second->getName(), buf);
writeChar('\n', buf);
}
buf.next();
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zookeeper->create(zookeeper_path + "/metadata", metadata.str(), zkutil::CreateMode::Persistent);
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zookeeper->create(zookeeper_path + "/replicas", "", zkutil::CreateMode::Persistent);
zookeeper->create(zookeeper_path + "/blocks", "", zkutil::CreateMode::Persistent);
zookeeper->create(zookeeper_path + "/block_numbers", "", zkutil::CreateMode::Persistent);
zookeeper->create(zookeeper_path + "/leader_election", "", zkutil::CreateMode::Persistent);
zookeeper->create(zookeeper_path + "/temp", "", zkutil::CreateMode::Persistent);
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}
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/** Проверить, что список столбцов и настройки таблицы совпадают с указанными в ZK (/metadata).
* Если нет - бросить исключение.
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*/
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void StorageReplicatedMergeTree::checkTableStructure()
{
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String metadata_str = zookeeper->get(zookeeper_path + "/metadata");
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ReadBufferFromString buf(metadata_str);
assertString("metadata format version: 1", buf);
assertString("\ndate column: ", buf);
assertString(data.date_column_name, buf);
assertString("\nsampling expression: ", buf);
assertString(formattedAST(data.sampling_expression), buf);
assertString("\nindex granularity: ", buf);
assertString(toString(data.index_granularity), buf);
assertString("\nmode: ", buf);
assertString(toString(static_cast<int>(data.mode)), buf);
assertString("\nsign column: ", buf);
assertString(data.sign_column, buf);
assertString("\nprimary key: ", buf);
assertString(formattedAST(data.primary_expr_ast), buf);
assertString("\ncolumns:\n", buf);
for (auto & it : data.getColumnsList())
{
String name;
readBackQuotedString(name, buf);
if (name != it.first)
throw Exception("Unexpected column name in ZooKeeper: expected " + it.first + ", found " + name,
ErrorCodes::UNKNOWN_IDENTIFIER);
assertString(" ", buf);
assertString(it.second->getName(), buf);
assertString("\n", buf);
}
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assertEOF(buf);
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}
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void StorageReplicatedMergeTree::createReplica()
{
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LOG_DEBUG(log, "Creating replica " << replica_path);
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/** Запомним список других реплик.
* NOTE: Здесь есть race condition. Если почти одновременно добавить нескольких реплик, сразу же начиная в них писать,
* небольшая часть данных может не реплицироваться.
*/
Strings replicas = zookeeper->getChildren(zookeeper_path + "/replicas");
/// Создадим пустую реплику.
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zookeeper->create(replica_path, "", zkutil::CreateMode::Persistent);
zookeeper->create(replica_path + "/host", "", zkutil::CreateMode::Persistent);
zookeeper->create(replica_path + "/log", "", zkutil::CreateMode::Persistent);
zookeeper->create(replica_path + "/log_pointers", "", zkutil::CreateMode::Persistent);
zookeeper->create(replica_path + "/queue", "", zkutil::CreateMode::Persistent);
zookeeper->create(replica_path + "/parts", "", zkutil::CreateMode::Persistent);
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/// Если таблица пуста, больше ничего делать не нужно.
if (replicas.empty())
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{
LOG_DEBUG(log, "No other replicas");
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return;
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}
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/// "Эталонная" реплика, у которой мы возьмем информацию о множестве кусков, очередь и указатели на логи.
String source_replica = replicas[0];
/** Дождемся, пока все активные реплики заметят появление этой реплики.
* Это не даст им удалять записи из своих логов, пока эта реплика их не скопирует.
*/
for (const String & replica : replicas)
{
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LOG_DEBUG(log, "Waiting for " << replica << " to acknowledge me");
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bool active = true;
while(true)
{
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zkutil::EventPtr event = new Poco::Event;
if (!zookeeper->exists(zookeeper_path + "/replicas/" + replica + "/is_active", nullptr, event))
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{
active = false;
break;
}
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if (zookeeper->exists(zookeeper_path + "/replicas/" + replica + "/log_pointers/" + replica_name, nullptr, event))
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break;
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event->tryWait(5 * 1000);
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}
/// Будем предпочитать активную реплику в качестве эталонной.
if (active)
source_replica = replica;
}
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LOG_INFO(log, "Will mimic " << source_replica);
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String source_path = zookeeper_path + "/replicas/" + source_replica;
/// Порядок следующих трех действий важен. Записи в логе могут продублироваться, но не могут потеряться.
/// Скопируем у эталонной реплики ссылки на все логи.
for (const String & replica : replicas)
{
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String pointer;
if (zookeeper->tryGet(source_path + "/log_pointers/" + replica, pointer))
zookeeper->create(replica_path + "/log_pointers/" + replica, pointer, zkutil::CreateMode::Persistent);
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}
/// Запомним очередь эталонной реплики.
Strings source_queue_names = zookeeper->getChildren(source_path + "/queue");
std::sort(source_queue_names.begin(), source_queue_names.end());
Strings source_queue;
for (const String & entry_name : source_queue_names)
{
String entry;
if (!zookeeper->tryGet(source_path + "/queue/" + entry_name, entry))
continue;
source_queue.push_back(entry);
}
/// Добавим в очередь задания на получение всех активных кусков, которые есть у эталонной реплики.
Strings parts = zookeeper->getChildren(source_path + "/parts");
ActiveDataPartSet active_parts_set;
for (const String & part : parts)
{
active_parts_set.add(part);
}
Strings active_parts = active_parts_set.getParts();
for (const String & name : active_parts)
{
LogEntry log_entry;
log_entry.type = LogEntry::GET_PART;
log_entry.source_replica = "";
log_entry.new_part_name = name;
zookeeper->create(replica_path + "/queue/queue-", log_entry.toString(), zkutil::CreateMode::PersistentSequential);
}
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LOG_DEBUG(log, "Queued " << active_parts.size() << " parts to be fetched");
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/// Добавим в очередь содержимое очереди эталонной реплики.
for (const String & entry : source_queue)
{
zookeeper->create(replica_path + "/queue/queue-", entry, zkutil::CreateMode::PersistentSequential);
}
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LOG_DEBUG(log, "Copied " << source_queue.size() << " queue entries");
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}
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void StorageReplicatedMergeTree::activateReplica()
{
std::stringstream host;
host << "host: " << context.getInterserverIOHost() << std::endl;
host << "port: " << context.getInterserverIOPort() << std::endl;
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/** Если нода отмечена как активная, но отметка сделана в этом же экземпляре, удалим ее.
* Такое возможно только при истечении сессии в ZooKeeper.
* Здесь есть небольшой race condition (можем удалить не ту ноду, для которой сделали tryGet),
* но он крайне маловероятен при нормальном использовании.
*/
String data;
if (zookeeper->tryGet(replica_path + "/is_active", data) && data == active_node_identifier)
zookeeper->tryRemove(replica_path + "/is_active");
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/// Одновременно объявим, что эта реплика активна, и обновим хост.
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zkutil::Ops ops;
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ops.push_back(new zkutil::Op::Create(replica_path + "/is_active", "", zookeeper->getDefaultACL(), zkutil::CreateMode::Ephemeral));
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ops.push_back(new zkutil::Op::SetData(replica_path + "/host", host.str(), -1));
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try
{
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zookeeper->multi(ops);
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}
catch (zkutil::KeeperException & e)
{
if (e.code == ZNODEEXISTS)
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throw Exception("Replica " + replica_path + " appears to be already active. If you're sure it's not, "
"try again in a minute or remove znode " + replica_path + "/is_active manually", ErrorCodes::REPLICA_IS_ALREADY_ACTIVE);
throw;
}
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replica_is_active_node = zkutil::EphemeralNodeHolder::existing(replica_path + "/is_active", *zookeeper);
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}
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void StorageReplicatedMergeTree::checkParts()
{
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Strings expected_parts_vec = zookeeper->getChildren(replica_path + "/parts");
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/// Куски в ZK.
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NameSet expected_parts(expected_parts_vec.begin(), expected_parts_vec.end());
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MergeTreeData::DataParts parts = data.getAllDataParts();
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/// Локальные куски, которых нет в ZK.
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MergeTreeData::DataParts unexpected_parts;
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for (const auto & part : parts)
{
if (expected_parts.count(part->name))
{
expected_parts.erase(part->name);
}
else
{
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unexpected_parts.insert(part);
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}
}
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/// Какие локальные куски добавить в ZK.
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MergeTreeData::DataPartsVector parts_to_add;
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/// Какие куски нужно забрать с других реплик.
Strings parts_to_fetch;
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for (const String & missing_name : expected_parts)
{
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/// Если локально не хватает какого-то куска, но есть покрывающий его кусок, можно заменить в ZK недостающий покрывающим.
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auto containing = data.getContainingPart(missing_name);
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if (containing)
{
LOG_ERROR(log, "Ignoring missing local part " << missing_name << " because part " << containing->name << " exists");
if (unexpected_parts.count(containing))
{
parts_to_add.push_back(containing);
unexpected_parts.erase(containing);
}
}
else
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{
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parts_to_fetch.push_back(missing_name);
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}
}
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for (const String & name : parts_to_fetch)
expected_parts.erase(name);
bool skip_sanity_check = false;
if (zookeeper->exists(replica_path + "/flags/force_restore_data"))
{
skip_sanity_check = true;
zookeeper->remove(replica_path + "/flags/force_restore_data");
}
String sanity_report =
"There are " + toString(unexpected_parts.size()) + " unexpected parts, "
+ toString(parts_to_add.size()) + " unexpectedly merged parts, "
+ toString(expected_parts.size()) + " unexpectedly obsolete parts, "
+ toString(parts_to_fetch.size()) + " missing parts";
bool insane =
parts_to_add.size() > 2 ||
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unexpected_parts.size() > 2 ||
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expected_parts.size() > 20 ||
parts_to_fetch.size() > 2;
if (skip_sanity_check)
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{
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LOG_WARNING(log, "Skipping the limits on severity of changes to data parts (flag "
<< replica_path << "/flags/force_restore_data). " << sanity_report);
}
else if (insane)
{
throw Exception("The local set of parts of table " + getTableName() + " doesn't look like the set of parts in ZooKeeper. "
+ sanity_report,
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ErrorCodes::TOO_MANY_UNEXPECTED_DATA_PARTS);
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}
/// Добавим в ZK информацию о кусках, покрывающих недостающие куски.
for (MergeTreeData::DataPartPtr part : parts_to_add)
{
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LOG_ERROR(log, "Adding unexpected local part to ZooKeeper: " << part->name);
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zkutil::Ops ops;
checkPartAndAddToZooKeeper(part, ops);
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zookeeper->multi(ops);
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}
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/// Удалим из ZK информацию о кусках, покрытых только что добавленными.
for (const String & name : expected_parts)
{
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LOG_ERROR(log, "Removing unexpectedly merged local part from ZooKeeper: " << name);
zkutil::Ops ops;
ops.push_back(new zkutil::Op::Remove(replica_path + "/parts/" + name + "/checksums", -1));
ops.push_back(new zkutil::Op::Remove(replica_path + "/parts/" + name, -1));
zookeeper->multi(ops);
}
/// Добавим в очередь задание забрать недостающие куски с других реплик и уберем из ZK информацию, что они у нас есть.
for (const String & name : parts_to_fetch)
{
LOG_ERROR(log, "Removing missing part from ZooKeeper and queueing a fetch: " << name);
LogEntry log_entry;
log_entry.type = LogEntry::GET_PART;
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log_entry.source_replica = "";
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log_entry.new_part_name = name;
/// Полагаемся, что это происходит до загрузки очереди (loadQueue).
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zkutil::Ops ops;
ops.push_back(new zkutil::Op::Remove(replica_path + "/parts/" + name + "/checksums", -1));
ops.push_back(new zkutil::Op::Remove(replica_path + "/parts/" + name, -1));
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ops.push_back(new zkutil::Op::Create(
replica_path + "/queue/queue-", log_entry.toString(), zookeeper->getDefaultACL(), zkutil::CreateMode::PersistentSequential));
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zookeeper->multi(ops);
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}
/// Удалим лишние локальные куски.
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for (MergeTreeData::DataPartPtr part : unexpected_parts)
{
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LOG_ERROR(log, "Renaming unexpected part " << part->name << " to ignored_" + part->name);
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data.renameAndDetachPart(part, "ignored_");
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}
}
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void StorageReplicatedMergeTree::initVirtualParts()
{
auto parts = data.getDataParts();
for (const auto & part : parts)
{
virtual_parts.add(part->name);
}
}
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void StorageReplicatedMergeTree::checkPartAndAddToZooKeeper(MergeTreeData::DataPartPtr part, zkutil::Ops & ops)
{
String another_replica = findReplicaHavingPart(part->name, false);
if (!another_replica.empty())
{
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String checksums_str;
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if (zookeeper->tryGet(zookeeper_path + "/replicas/" + another_replica + "/parts/" + part->name + "/checksums", checksums_str))
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{
auto checksums = MergeTreeData::DataPart::Checksums::parse(checksums_str);
checksums.checkEqual(part->checksums, true);
}
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}
ops.push_back(new zkutil::Op::Create(
replica_path + "/parts/" + part->name,
"",
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zookeeper->getDefaultACL(),
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zkutil::CreateMode::Persistent));
ops.push_back(new zkutil::Op::Create(
replica_path + "/parts/" + part->name + "/checksums",
part->checksums.toString(),
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zookeeper->getDefaultACL(),
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zkutil::CreateMode::Persistent));
}
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void StorageReplicatedMergeTree::clearOldParts()
{
Strings parts = data.clearOldParts();
for (const String & name : parts)
{
zkutil::Ops ops;
ops.push_back(new zkutil::Op::Remove(replica_path + "/parts/" + name + "/checksums", -1));
ops.push_back(new zkutil::Op::Remove(replica_path + "/parts/" + name, -1));
int32_t code = zookeeper->tryMulti(ops);
if (code != ZOK)
LOG_WARNING(log, "Couldn't remove part " << name << " from ZooKeeper: " << zkutil::ZooKeeper::error2string(code));
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}
if (!parts.empty())
LOG_DEBUG(log, "Removed " << parts.size() << " old parts");
}
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void StorageReplicatedMergeTree::clearOldLogs()
{
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Strings replicas = zookeeper->getChildren(zookeeper_path + "/replicas");
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UInt64 min_pointer = std::numeric_limits<UInt64>::max();
for (const String & replica : replicas)
{
String pointer;
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if (!zookeeper->tryGet(zookeeper_path + "/replicas/" + replica + "/log_pointers/" + replica_name, pointer))
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return;
min_pointer = std::min(min_pointer, parse<UInt64>(pointer));
}
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Strings entries = zookeeper->getChildren(replica_path + "/log");
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std::sort(entries.begin(), entries.end());
size_t removed = 0;
for (const String & entry : entries)
{
UInt64 index = parse<UInt64>(entry.substr(strlen("log-")));
if (index >= min_pointer)
break;
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zookeeper->remove(replica_path + "/log/" + entry);
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++removed;
}
if (removed > 0)
LOG_DEBUG(log, "Removed " << removed << " old log entries");
}
void StorageReplicatedMergeTree::clearOldBlocks()
{
zkutil::Stat stat;
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if (!zookeeper->exists(zookeeper_path + "/blocks", &stat))
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throw Exception(zookeeper_path + "/blocks doesn't exist", ErrorCodes::NOT_FOUND_NODE);
int children_count = stat.numChildren;
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/// Чтобы делать "асимптотически" меньше запросов exists, будем ждать, пока накопятся в 1.1 раза больше блоков, чем нужно.
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if (static_cast<double>(children_count) < data.settings.replicated_deduplication_window * 1.1)
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return;
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LOG_TRACE(log, "Clearing about " << static_cast<size_t>(children_count) - data.settings.replicated_deduplication_window
<< " old blocks from ZooKeeper");
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Strings blocks = zookeeper->getChildren(zookeeper_path + "/blocks");
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std::vector<std::pair<Int64, String> > timed_blocks;
for (const String & block : blocks)
{
zkutil::Stat stat;
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zookeeper->exists(zookeeper_path + "/blocks/" + block, &stat);
timed_blocks.push_back(std::make_pair(stat.czxid, block));
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}
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std::sort(timed_blocks.begin(), timed_blocks.end(), std::greater<std::pair<Int64, String>>());
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for (size_t i = data.settings.replicated_deduplication_window; i < timed_blocks.size(); ++i)
{
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zkutil::Ops ops;
ops.push_back(new zkutil::Op::Remove(zookeeper_path + "/blocks/" + timed_blocks[i].second + "/number", -1));
ops.push_back(new zkutil::Op::Remove(zookeeper_path + "/blocks/" + timed_blocks[i].second + "/checksums", -1));
ops.push_back(new zkutil::Op::Remove(zookeeper_path + "/blocks/" + timed_blocks[i].second, -1));
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zookeeper->multi(ops);
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}
LOG_TRACE(log, "Cleared " << blocks.size() - data.settings.replicated_deduplication_window << " old blocks from ZooKeeper");
}
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void StorageReplicatedMergeTree::loadQueue()
{
Poco::ScopedLock<Poco::FastMutex> lock(queue_mutex);
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Strings children = zookeeper->getChildren(replica_path + "/queue");
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std::sort(children.begin(), children.end());
for (const String & child : children)
{
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String s = zookeeper->get(replica_path + "/queue/" + child);
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LogEntry entry = LogEntry::parse(s);
entry.znode_name = child;
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entry.addResultToVirtualParts(*this);
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queue.push_back(entry);
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}
}
void StorageReplicatedMergeTree::pullLogsToQueue()
{
Poco::ScopedLock<Poco::FastMutex> lock(queue_mutex);
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/// Сольем все логи в хронологическом порядке.
struct LogIterator
{
String replica; /// Имя реплики.
UInt64 index; /// Номер записи в логе (суффикс имени ноды).
Int64 timestamp; /// Время (czxid) создания записи в логе.
String entry_str; /// Сама запись.
bool operator<(const LogIterator & rhs) const
{
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/// Нужно доставать из очереди минимальный timestamp.
return timestamp > rhs.timestamp;
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}
bool readEntry(zkutil::ZooKeeper & zookeeper, const String & zookeeper_path)
{
String index_str = toString(index);
while (index_str.size() < 10)
index_str = '0' + index_str;
zkutil::Stat stat;
if (!zookeeper.tryGet(zookeeper_path + "/replicas/" + replica + "/log/log-" + index_str, entry_str, &stat))
return false;
timestamp = stat.czxid;
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return true;
}
};
typedef std::priority_queue<LogIterator> PriorityQueue;
PriorityQueue priority_queue;
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Strings replicas = zookeeper->getChildren(zookeeper_path + "/replicas");
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for (const String & replica : replicas)
{
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String index_str;
UInt64 index;
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if (zookeeper->tryGet(replica_path + "/log_pointers/" + replica, index_str))
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{
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index = parse<UInt64>(index_str);
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}
else
{
/// Если у нас еще нет указателя на лог этой реплики, поставим указатель на первую запись в нем.
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Strings entries = zookeeper->getChildren(zookeeper_path + "/replicas/" + replica + "/log");
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std::sort(entries.begin(), entries.end());
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index = entries.empty() ? 0 : parse<UInt64>(entries[0].substr(strlen("log-")));
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zookeeper->create(replica_path + "/log_pointers/" + replica, toString(index), zkutil::CreateMode::Persistent);
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}
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LogIterator iterator;
iterator.replica = replica;
iterator.index = index;
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if (iterator.readEntry(*zookeeper, zookeeper_path))
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priority_queue.push(iterator);
}
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size_t count = 0;
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while (!priority_queue.empty())
{
LogIterator iterator = priority_queue.top();
priority_queue.pop();
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++count;
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LogEntry entry = LogEntry::parse(iterator.entry_str);
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/// Одновременно добавим запись в очередь и продвинем указатель на лог.
zkutil::Ops ops;
ops.push_back(new zkutil::Op::Create(
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replica_path + "/queue/queue-", iterator.entry_str, zookeeper->getDefaultACL(), zkutil::CreateMode::PersistentSequential));
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ops.push_back(new zkutil::Op::SetData(
replica_path + "/log_pointers/" + iterator.replica, toString(iterator.index + 1), -1));
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auto results = zookeeper->multi(ops);
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String path_created = dynamic_cast<zkutil::Op::Create &>(ops[0]).getPathCreated();
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entry.znode_name = path_created.substr(path_created.find_last_of('/') + 1);
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entry.addResultToVirtualParts(*this);
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queue.push_back(entry);
++iterator.index;
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if (iterator.readEntry(*zookeeper, zookeeper_path))
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priority_queue.push(iterator);
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}
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if (count > 0)
LOG_DEBUG(log, "Pulled " << count << " entries to queue");
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}
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bool StorageReplicatedMergeTree::shouldExecuteLogEntry(const LogEntry & entry)
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{
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if (entry.type == LogEntry::MERGE_PARTS)
{
/** Если какая-то из нужных частей сейчас передается или мерджится, подождем окончания этой операции.
* Иначе, даже если всех нужных частей для мерджа нет, нужно попытаться сделать мердж.
* Если каких-то частей не хватает, вместо мерджа будет попытка скачать кусок.
* Такая ситуация возможна, если получение какого-то куска пофейлилось, и его переместили в конец очереди.
*/
for (const auto & name : entry.parts_to_merge)
{
if (future_parts.count(name))
{
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LOG_TRACE(log, "Not merging into part " << entry.new_part_name << " because part " << name << " is not ready yet.");
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return false;
}
}
}
return true;
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}
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void StorageReplicatedMergeTree::executeLogEntry(const LogEntry & entry, BackgroundProcessingPool::Context & pool_context)
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{
if (entry.type == LogEntry::GET_PART ||
entry.type == LogEntry::MERGE_PARTS)
{
/// Если у нас уже есть этот кусок или покрывающий его кусок, ничего делать не нужно.
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MergeTreeData::DataPartPtr containing_part = data.getContainingPart(entry.new_part_name, true);
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/// Даже если кусок есть локально, его (в исключительных случаях) может не быть в zookeeper.
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if (containing_part && zookeeper->exists(replica_path + "/parts/" + containing_part->name))
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{
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if (!(entry.type == LogEntry::GET_PART && entry.source_replica == replica_name))
LOG_DEBUG(log, "Skipping action for part " + entry.new_part_name + " - part already exists");
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return;
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}
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}
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if (entry.type == LogEntry::GET_PART && entry.source_replica == replica_name)
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LOG_WARNING(log, "Part " << entry.new_part_name << " from own log doesn't exist.");
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bool do_fetch = false;
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if (entry.type == LogEntry::GET_PART)
{
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do_fetch = true;
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}
else if (entry.type == LogEntry::MERGE_PARTS)
{
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MergeTreeData::DataPartsVector parts;
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bool have_all_parts = true;;
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for (const String & name : entry.parts_to_merge)
{
MergeTreeData::DataPartPtr part = data.getContainingPart(name);
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if (!part)
{
have_all_parts = false;
break;
}
if (part->name != name)
{
LOG_ERROR(log, "Log and parts set look inconsistent: " << name << " is covered by " << part->name
<< " but should be merged into " << entry.new_part_name);
have_all_parts = false;
break;
}
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parts.push_back(part);
}
2014-04-04 17:20:45 +00:00
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if (!have_all_parts)
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{
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/// Если нет всех нужных кусков, попробуем взять у кого-нибудь уже помердженный кусок.
do_fetch = true;
LOG_DEBUG(log, "Don't have all parts for merge " << entry.new_part_name << "; will try to fetch it instead");
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}
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else
{
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/// Если собираемся сливать большие куски, увеличим счетчик потоков, сливающих большие куски.
for (const auto & part : parts)
{
if (part->size * data.index_granularity > 25 * 1024 * 1024)
{
pool_context.incrementCounter("big merges");
pool_context.incrementCounter("replicated big merges");
break;
}
}
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MergeTreeData::Transaction transaction;
MergeTreeData::DataPartPtr part = merger.mergeParts(parts, entry.new_part_name, &transaction);
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zkutil::Ops ops;
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checkPartAndAddToZooKeeper(part, ops);
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zookeeper->multi(ops);
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transaction.commit();
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merge_selecting_event.set();
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ProfileEvents::increment(ProfileEvents::ReplicatedPartMerges);
}
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}
else
{
throw Exception("Unexpected log entry type: " + toString(static_cast<int>(entry.type)));
}
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if (do_fetch)
{
try
{
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String replica = findReplicaHavingPart(entry.new_part_name, true);
if (replica.empty())
{
ProfileEvents::increment(ProfileEvents::ReplicatedPartFailedFetches);
throw Exception("No active replica has part " + entry.new_part_name, ErrorCodes::NO_REPLICA_HAS_PART);
}
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fetchPart(entry.new_part_name, replica);
if (entry.type == LogEntry::MERGE_PARTS)
ProfileEvents::increment(ProfileEvents::ReplicatedPartFetchesOfMerged);
}
catch (...)
{
/** Если не получилось скачать кусок, нужный для какого-то мерджа, лучше не пытаться получить другие куски для этого мерджа,
* а попытаться сразу получить помердженный кусок. Чтобы так получилось, переместим действия для получения остальных кусков
* для этого мерджа в конец очереди.
*
*/
try
{
Poco::ScopedLock<Poco::FastMutex> lock(queue_mutex);
/// Найдем действие по объединению этого куска с другими. Запомним других.
StringSet parts_for_merge;
LogEntries::iterator merge_entry;
for (LogEntries::iterator it = queue.begin(); it != queue.end(); ++it)
{
if (it->type == LogEntry::MERGE_PARTS)
{
if (std::find(it->parts_to_merge.begin(), it->parts_to_merge.end(), entry.new_part_name)
!= it->parts_to_merge.end())
{
parts_for_merge = StringSet(it->parts_to_merge.begin(), it->parts_to_merge.end());
merge_entry = it;
break;
}
}
}
if (!parts_for_merge.empty())
{
/// Переместим в конец очереди действия, получающие parts_for_merge.
for (LogEntries::iterator it = queue.begin(); it != queue.end();)
{
auto it0 = it;
++it;
if (it0 == merge_entry)
break;
if ((it0->type == LogEntry::MERGE_PARTS || it0->type == LogEntry::GET_PART)
&& parts_for_merge.count(it0->new_part_name))
{
queue.splice(queue.end(), queue, it0, it);
}
}
}
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
throw;
}
}
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}
void StorageReplicatedMergeTree::queueUpdatingThread()
{
while (!shutdown_called)
{
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try
{
pullLogsToQueue();
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clearOldParts();
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/// Каждую минуту выбрасываем ненужные записи из лога.
if (time(0) - clear_old_logs_time > 60)
{
clear_old_logs_time = time(0);
clearOldLogs();
}
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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std::this_thread::sleep_for(QUEUE_UPDATE_SLEEP);
}
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}
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bool StorageReplicatedMergeTree::queueTask(BackgroundProcessingPool::Context & pool_context)
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{
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LogEntry entry;
bool have_work = false;
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try
{
Poco::ScopedLock<Poco::FastMutex> lock(queue_mutex);
bool empty = queue.empty();
if (!empty)
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{
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for (LogEntries::iterator it = queue.begin(); it != queue.end(); ++it)
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{
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if (shouldExecuteLogEntry(*it))
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{
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entry = *it;
entry.tagPartAsFuture(*this);
queue.erase(it);
have_work = true;
break;
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}
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}
}
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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if (!have_work)
return false;
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bool success = false;
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try
{
executeLogEntry(entry, pool_context);
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auto code = zookeeper->tryRemove(replica_path + "/queue/" + entry.znode_name);
if (code != ZOK)
LOG_ERROR(log, "Couldn't remove " << replica_path + "/queue/" + entry.znode_name << ": "
<< zkutil::ZooKeeper::error2string(code) + ". There must be a bug somewhere. Ignoring it.");
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success = true;
}
catch (Exception & e)
{
if (e.code() == ErrorCodes::NO_REPLICA_HAS_PART)
/// Если ни у кого нет нужного куска, это нормальная ситуация; не будем писать в лог с уровнем Error.
LOG_INFO(log, e.displayText());
else
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tryLogCurrentException(__PRETTY_FUNCTION__);
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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if (!success)
{
/// Добавим действие, которое не получилось выполнить, в конец очереди.
entry.future_part_tagger = nullptr;
Poco::ScopedLock<Poco::FastMutex> lock(queue_mutex);
queue.push_back(entry);
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}
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return success;
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}
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void StorageReplicatedMergeTree::mergeSelectingThread()
{
pullLogsToQueue();
while (!shutdown_called && is_leader_node)
{
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bool success = false;
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try
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{
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size_t merges_queued = 0;
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/// Есть ли в очереди мердж крупных кусков.
/// TODO: Если мердж уже выполняется, его нет в очереди, но здесь нужно все равно как-то о нем узнать.
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bool has_big_merge = context.getBackgroundPool().getCounter("replicated big merges") > 0;
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if (!has_big_merge)
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{
Poco::ScopedLock<Poco::FastMutex> lock(queue_mutex);
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for (const auto & entry : queue)
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{
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if (entry.type == LogEntry::MERGE_PARTS)
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{
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++merges_queued;
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if (!has_big_merge)
{
for (const String & name : entry.parts_to_merge)
{
MergeTreeData::DataPartPtr part = data.getContainingPart(name);
if (!part || part->name != name)
continue;
if (part->size * data.index_granularity > 25 * 1024 * 1024)
{
has_big_merge = true;
break;
}
}
}
}
}
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}
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do
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{
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if (merges_queued >= data.settings.max_replicated_merges_in_queue)
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break;
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MergeTreeData::DataPartsVector parts;
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String merged_name;
auto can_merge = std::bind(
&StorageReplicatedMergeTree::canMergeParts, this, std::placeholders::_1, std::placeholders::_2);
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if (!merger.selectPartsToMerge(parts, merged_name, MergeTreeDataMerger::NO_LIMIT,
false, false, has_big_merge, can_merge) &&
!merger.selectPartsToMerge(parts, merged_name, MergeTreeDataMerger::NO_LIMIT,
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true, false, has_big_merge, can_merge))
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break;
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LogEntry entry;
entry.type = LogEntry::MERGE_PARTS;
entry.source_replica = replica_name;
entry.new_part_name = merged_name;
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for (const auto & part : parts)
{
entry.parts_to_merge.push_back(part->name);
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}
2014-07-02 10:16:49 +00:00
zookeeper->create(replica_path + "/log/log-", entry.toString(), zkutil::CreateMode::PersistentSequential);
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/// Нужно загрузить новую запись в очередь перед тем, как в следующий раз выбирать куски для слияния.
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/// (чтобы кусок добавился в virtual_parts).
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pullLogsToQueue();
String month_name = parts[0]->name.substr(0, 6);
for (size_t i = 0; i + 1 < parts.size(); ++i)
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{
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/// Уберем больше не нужные отметки о несуществующих блоках.
for (UInt64 number = parts[i]->right + 1; number <= parts[i + 1]->left - 1; ++number)
{
String number_str = toString(number);
while (number_str.size() < 10)
number_str = '0' + number_str;
String path = zookeeper_path + "/block_numbers/" + month_name + "/block-" + number_str;
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2014-05-13 10:10:26 +00:00
zookeeper->tryRemove(path);
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}
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}
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success = true;
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}
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while(false);
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
2014-04-14 10:56:06 +00:00
if (shutdown_called || !is_leader_node)
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break;
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if (!success)
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merge_selecting_event.tryWait(MERGE_SELECTING_SLEEP_MS);
2014-04-14 10:56:06 +00:00
}
}
void StorageReplicatedMergeTree::clearOldBlocksThread()
{
while (!shutdown_called && is_leader_node)
{
try
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{
clearOldBlocks();
}
2014-04-14 10:56:06 +00:00
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
2014-04-14 10:19:33 +00:00
2014-04-14 10:56:06 +00:00
/// Спим минуту, но проверяем, нужно ли завершиться, каждую секунду.
/// TODO: Лучше во всех подобных местах использовать condition variable.
for (size_t i = 0; i < 60; ++i)
{
if (shutdown_called || !is_leader_node)
break;
std::this_thread::sleep_for(std::chrono::seconds(1));
}
2014-04-04 10:37:33 +00:00
}
}
bool StorageReplicatedMergeTree::canMergeParts(const MergeTreeData::DataPartPtr & left, const MergeTreeData::DataPartPtr & right)
{
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/// Если какой-то из кусков уже собираются слить в больший, не соглашаемся его сливать.
if (virtual_parts.getContainingPart(left->name) != left->name ||
virtual_parts.getContainingPart(right->name) != right->name)
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return false;
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/// Если о каком-то из кусков нет информации в ZK, не будем сливать.
if (!zookeeper->exists(replica_path + "/parts/" + left->name) ||
!zookeeper->exists(replica_path + "/parts/" + right->name))
return false;
2014-05-07 13:58:20 +00:00
String month_name = left->name.substr(0, 6);
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/// Можно слить куски, если все номера между ними заброшены - не соответствуют никаким блокам.
for (UInt64 number = left->right + 1; number <= right->left - 1; ++number)
{
String number_str = toString(number);
while (number_str.size() < 10)
number_str = '0' + number_str;
2014-05-07 13:58:20 +00:00
String path = zookeeper_path + "/block_numbers/" + month_name + "/block-" + number_str;
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2014-05-13 10:10:26 +00:00
if (AbandonableLockInZooKeeper::check(path, *zookeeper) != AbandonableLockInZooKeeper::ABANDONED)
2014-04-04 12:47:57 +00:00
{
LOG_DEBUG(log, "Can't merge parts " << left->name << " and " << right->name << " because block " << path << " exists");
2014-04-04 10:37:33 +00:00
return false;
2014-04-04 12:47:57 +00:00
}
2014-04-04 10:37:33 +00:00
}
return true;
}
void StorageReplicatedMergeTree::becomeLeader()
{
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LOG_INFO(log, "Became leader");
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is_leader_node = true;
merge_selecting_thread = std::thread(&StorageReplicatedMergeTree::mergeSelectingThread, this);
2014-04-14 10:56:06 +00:00
clear_old_blocks_thread = std::thread(&StorageReplicatedMergeTree::clearOldBlocksThread, this);
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}
2014-04-08 17:45:21 +00:00
String StorageReplicatedMergeTree::findReplicaHavingPart(const String & part_name, bool active)
2014-04-03 11:48:28 +00:00
{
2014-05-13 10:10:26 +00:00
Strings replicas = zookeeper->getChildren(zookeeper_path + "/replicas");
2014-04-03 11:48:28 +00:00
/// Из реплик, у которых есть кусок, выберем одну равновероятно.
std::random_shuffle(replicas.begin(), replicas.end());
for (const String & replica : replicas)
{
2014-05-13 10:10:26 +00:00
if (zookeeper->exists(zookeeper_path + "/replicas/" + replica + "/parts/" + part_name) &&
(!active || zookeeper->exists(zookeeper_path + "/replicas/" + replica + "/is_active")))
2014-04-03 11:48:28 +00:00
return replica;
}
2014-04-08 17:45:21 +00:00
return "";
2014-04-03 11:48:28 +00:00
}
void StorageReplicatedMergeTree::fetchPart(const String & part_name, const String & replica_name)
{
2014-04-04 12:47:57 +00:00
LOG_DEBUG(log, "Fetching part " << part_name << " from " << replica_name);
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auto table_lock = lockStructure(true);
String host;
int port;
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String host_port_str = zookeeper->get(zookeeper_path + "/replicas/" + replica_name + "/host");
2014-04-03 11:48:28 +00:00
ReadBufferFromString buf(host_port_str);
assertString("host: ", buf);
readString(host, buf);
assertString("\nport: ", buf);
readText(port, buf);
assertString("\n", buf);
assertEOF(buf);
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MergeTreeData::MutableDataPartPtr part = fetcher.fetchPart(part_name, zookeeper_path + "/replicas/" + replica_name, host, port);
2014-07-01 15:58:25 +00:00
MergeTreeData::Transaction transaction;
auto removed_parts = data.renameTempPartAndReplace(part, nullptr, &transaction);
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2014-04-03 11:48:28 +00:00
zkutil::Ops ops;
2014-04-08 17:45:21 +00:00
checkPartAndAddToZooKeeper(part, ops);
2014-04-07 18:14:39 +00:00
2014-05-13 10:10:26 +00:00
zookeeper->multi(ops);
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transaction.commit();
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merge_selecting_event.set();
2014-04-09 15:52:47 +00:00
2014-04-07 18:14:39 +00:00
for (const auto & removed_part : removed_parts)
{
LOG_DEBUG(log, "Part " << removed_part->name << " is rendered obsolete by fetching part " << part_name);
ProfileEvents::increment(ProfileEvents::ObsoleteReplicatedParts);
}
2014-04-07 15:45:46 +00:00
ProfileEvents::increment(ProfileEvents::ReplicatedPartFetches);
2014-06-30 13:57:20 +00:00
LOG_DEBUG(log, "Fetched part " << part_name << " from " << replica_name);
2014-04-03 11:48:28 +00:00
}
2014-03-21 19:17:59 +00:00
2014-03-22 14:44:44 +00:00
void StorageReplicatedMergeTree::shutdown()
{
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if (permanent_shutdown_called)
2014-05-26 11:40:22 +00:00
{
if (restarting_thread.joinable())
restarting_thread.join();
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return;
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}
2014-04-25 13:55:15 +00:00
permanent_shutdown_called = true;
restarting_thread.join();
}
void StorageReplicatedMergeTree::partialShutdown()
{
2014-04-04 10:37:33 +00:00
leader_election = nullptr;
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shutdown_called = true;
replica_is_active_node = nullptr;
2014-05-08 08:03:03 +00:00
merger.cancelAll();
if (unreplicated_merger)
unreplicated_merger->cancelAll();
2014-04-03 11:48:28 +00:00
LOG_TRACE(log, "Waiting for threads to finish");
2014-04-04 10:37:33 +00:00
if (is_leader_node)
2014-04-14 10:56:06 +00:00
{
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is_leader_node = false;
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merge_selecting_event.set();
2014-05-13 11:24:04 +00:00
if (merge_selecting_thread.joinable())
merge_selecting_thread.join();
if (clear_old_blocks_thread.joinable())
clear_old_blocks_thread.join();
2014-04-14 10:56:06 +00:00
}
2014-05-13 11:24:04 +00:00
if (queue_updating_thread.joinable())
queue_updating_thread.join();
2014-07-02 12:30:38 +00:00
context.getBackgroundPool().removeTask(queue_task_handle);
queue_task_handle.reset();
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LOG_TRACE(log, "Threads finished");
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}
2014-05-13 11:24:04 +00:00
void StorageReplicatedMergeTree::goReadOnly()
{
LOG_INFO(log, "Going to read-only mode");
is_read_only = true;
shutdown_called = true;
permanent_shutdown_called = true;
leader_election = nullptr;
replica_is_active_node = nullptr;
merger.cancelAll();
endpoint_holder = nullptr;
2014-05-26 11:40:22 +00:00
LOG_TRACE(log, "Waiting for threads to finish");
if (is_leader_node)
{
is_leader_node = false;
if (merge_selecting_thread.joinable())
merge_selecting_thread.join();
if (clear_old_blocks_thread.joinable())
clear_old_blocks_thread.join();
}
if (queue_updating_thread.joinable())
queue_updating_thread.join();
2014-07-02 12:30:38 +00:00
context.getBackgroundPool().removeTask(queue_task_handle);
queue_task_handle.reset();
2014-05-26 11:40:22 +00:00
LOG_TRACE(log, "Threads finished");
2014-05-13 11:24:04 +00:00
}
2014-04-22 10:57:19 +00:00
void StorageReplicatedMergeTree::startup()
{
shutdown_called = false;
2014-05-13 10:10:26 +00:00
merger.uncancelAll();
if (unreplicated_merger)
unreplicated_merger->uncancelAll();
2014-04-22 10:57:19 +00:00
activateReplica();
2014-05-13 10:10:26 +00:00
leader_election = new zkutil::LeaderElection(zookeeper_path + "/leader_election", *zookeeper,
2014-04-22 10:57:19 +00:00
std::bind(&StorageReplicatedMergeTree::becomeLeader, this), replica_name);
queue_updating_thread = std::thread(&StorageReplicatedMergeTree::queueUpdatingThread, this);
2014-07-02 12:30:38 +00:00
queue_task_handle = context.getBackgroundPool().addTask(std::bind(&StorageReplicatedMergeTree::queueTask, this, std::placeholders::_1));
2014-04-22 10:57:19 +00:00
}
2014-04-25 13:55:15 +00:00
void StorageReplicatedMergeTree::restartingThread()
{
2014-05-13 10:10:26 +00:00
try
2014-04-25 13:55:15 +00:00
{
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startup();
while (!permanent_shutdown_called)
2014-04-25 13:55:15 +00:00
{
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if (zookeeper->expired())
{
LOG_WARNING(log, "ZooKeeper session has expired. Switching to a new session.");
2014-04-25 13:55:15 +00:00
2014-05-13 10:10:26 +00:00
/// Запретим писать в таблицу, пока подменяем zookeeper.
LOG_TRACE(log, "Locking all operations");
auto structure_lock = lockDataForAlter();
LOG_TRACE(log, "Locked all operations");
2014-04-25 13:55:15 +00:00
2014-05-13 10:10:26 +00:00
partialShutdown();
2014-04-25 13:55:15 +00:00
2014-05-13 10:10:26 +00:00
zookeeper = context.getZooKeeper();
startup();
}
2014-04-25 13:55:15 +00:00
2014-05-13 10:10:26 +00:00
std::this_thread::sleep_for(std::chrono::seconds(2));
}
}
catch (...)
{
tryLogCurrentException("StorageReplicatedMergeTree::restartingThread");
2014-05-13 11:24:04 +00:00
LOG_ERROR(log, "Exception in restartingThread. The storage will be read-only until server restart.");
goReadOnly();
2014-05-13 10:10:26 +00:00
return;
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}
2014-05-13 10:10:26 +00:00
try
{
endpoint_holder = nullptr;
partialShutdown();
}
catch (...)
{
tryLogCurrentException("StorageReplicatedMergeTree::restartingThread");
}
2014-04-25 13:55:15 +00:00
}
2014-03-22 14:44:44 +00:00
StorageReplicatedMergeTree::~StorageReplicatedMergeTree()
{
try
{
shutdown();
}
catch(...)
{
tryLogCurrentException("~StorageReplicatedMergeTree");
}
}
BlockInputStreams StorageReplicatedMergeTree::read(
const Names & column_names,
ASTPtr query,
const Settings & settings,
QueryProcessingStage::Enum & processed_stage,
size_t max_block_size,
unsigned threads)
{
2014-04-24 10:20:02 +00:00
BlockInputStreams res = reader.read(column_names, query, settings, processed_stage, max_block_size, threads);
if (unreplicated_reader)
{
BlockInputStreams res2 = unreplicated_reader->read(column_names, query, settings, processed_stage, max_block_size, threads);
res.insert(res.begin(), res2.begin(), res2.end());
}
return res;
2014-03-22 14:44:44 +00:00
}
2014-04-02 10:10:37 +00:00
BlockOutputStreamPtr StorageReplicatedMergeTree::write(ASTPtr query)
{
2014-05-13 11:24:04 +00:00
if (is_read_only)
throw Exception("Table is in read only mode", ErrorCodes::TABLE_IS_READ_ONLY);
2014-04-02 10:10:37 +00:00
String insert_id;
if (ASTInsertQuery * insert = typeid_cast<ASTInsertQuery *>(&*query))
2014-04-02 10:10:37 +00:00
insert_id = insert->insert_id;
return new ReplicatedMergeTreeBlockOutputStream(*this, insert_id);
}
2014-03-22 14:44:44 +00:00
2014-05-08 08:03:03 +00:00
bool StorageReplicatedMergeTree::optimize()
{
/// Померджим какие-нибудь куски из директории unreplicated. TODO: Мерджить реплицируемые куски тоже.
if (!unreplicated_data)
return false;
unreplicated_data->clearOldParts();
MergeTreeData::DataPartsVector parts;
String merged_name;
auto always_can_merge = [](const MergeTreeData::DataPartPtr &a, const MergeTreeData::DataPartPtr &b) { return true; };
if (!unreplicated_merger->selectPartsToMerge(parts, merged_name, 0, true, true, false, always_can_merge))
return false;
unreplicated_merger->mergeParts(parts, merged_name);
return true;
}
2014-03-22 14:44:44 +00:00
void StorageReplicatedMergeTree::drop()
{
2014-04-03 11:48:28 +00:00
shutdown();
2014-05-27 12:08:40 +00:00
LOG_INFO(log, "Removing replica " << replica_path);
2014-03-22 14:44:44 +00:00
replica_is_active_node = nullptr;
2014-05-13 10:10:26 +00:00
zookeeper->removeRecursive(replica_path);
if (zookeeper->getChildren(zookeeper_path + "/replicas").empty())
2014-05-27 12:08:40 +00:00
{
LOG_INFO(log, "Removing table " << zookeeper_path << " (this might take several minutes)");
2014-05-13 10:10:26 +00:00
zookeeper->removeRecursive(zookeeper_path);
2014-05-27 12:08:40 +00:00
}
2014-07-02 12:30:38 +00:00
data.dropAllData();
2014-03-22 14:44:44 +00:00
}
2014-04-02 10:10:37 +00:00
void StorageReplicatedMergeTree::LogEntry::writeText(WriteBuffer & out) const
{
writeString("format version: 1\n", out);
2014-04-07 15:45:46 +00:00
writeString("source replica: ", out);
writeString(source_replica, out);
writeString("\n", out);
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switch (type)
{
case GET_PART:
writeString("get\n", out);
writeString(new_part_name, out);
break;
case MERGE_PARTS:
writeString("merge\n", out);
for (const String & s : parts_to_merge)
{
writeString(s, out);
writeString("\n", out);
}
writeString("into\n", out);
writeString(new_part_name, out);
break;
}
writeString("\n", out);
}
void StorageReplicatedMergeTree::LogEntry::readText(ReadBuffer & in)
{
String type_str;
assertString("format version: 1\n", in);
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assertString("source replica: ", in);
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readString(source_replica, in);
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assertString("\n", in);
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readString(type_str, in);
assertString("\n", in);
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if (type_str == "get")
{
type = GET_PART;
readString(new_part_name, in);
}
else if (type_str == "merge")
{
type = MERGE_PARTS;
while (true)
{
String s;
readString(s, in);
assertString("\n", in);
if (s == "into")
break;
parts_to_merge.push_back(s);
}
readString(new_part_name, in);
}
assertString("\n", in);
}
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}