mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-12-04 21:42:39 +00:00
637 lines
24 KiB
C++
637 lines
24 KiB
C++
#include <Interpreters/TransactionLog.h>
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#include <Interpreters/TransactionVersionMetadata.h>
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#include <Interpreters/Context.h>
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#include <Interpreters/TransactionsInfoLog.h>
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#include <IO/ReadHelpers.h>
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#include <IO/WriteHelpers.h>
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#include <IO/ReadBufferFromString.h>
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#include <Common/Exception.h>
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#include <Common/ZooKeeper/KeeperException.h>
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#include <Core/ServerUUID.h>
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#include <Common/logger_useful.h>
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#include <Common/noexcept_scope.h>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int LOGICAL_ERROR;
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extern const int UNKNOWN_STATUS_OF_TRANSACTION;
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}
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static void tryWriteEventToSystemLog(LoggerPtr log, ContextPtr context,
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TransactionsInfoLogElement::Type type, const TransactionID & tid, CSN csn = Tx::UnknownCSN)
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try
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{
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auto system_log = context->getTransactionsInfoLog();
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if (!system_log)
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return;
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TransactionsInfoLogElement elem;
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elem.type = type;
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elem.tid = tid;
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elem.csn = csn;
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elem.fillCommonFields(nullptr);
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system_log->add(std::move(elem));
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}
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catch (...)
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{
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tryLogCurrentException(log);
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}
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TransactionLog::TransactionLog()
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: global_context(Context::getGlobalContextInstance())
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, log(getLogger("TransactionLog"))
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, zookeeper_path(global_context->getConfigRef().getString("transaction_log.zookeeper_path", "/clickhouse/txn"))
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, zookeeper_path_log(zookeeper_path + "/log")
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, fault_probability_before_commit(global_context->getConfigRef().getDouble("transaction_log.fault_probability_before_commit", 0))
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, fault_probability_after_commit(global_context->getConfigRef().getDouble("transaction_log.fault_probability_after_commit", 0))
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{
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loadLogFromZooKeeper();
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updating_thread = ThreadFromGlobalPool(&TransactionLog::runUpdatingThread, this);
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}
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TransactionLog::~TransactionLog()
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{
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shutdown();
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}
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void TransactionLog::shutdown()
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{
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if (stop_flag.exchange(true))
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return;
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log_updated_event->set();
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latest_snapshot.notify_all();
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updating_thread.join();
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std::lock_guard lock{mutex};
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/// This is required to... you'll never guess - avoid race condition inside Poco::Logger (Coordination::ZooKeeper::log)
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zookeeper.reset();
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}
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ZooKeeperPtr TransactionLog::getZooKeeper() const
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{
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std::lock_guard lock{mutex};
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return zookeeper;
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}
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UInt64 TransactionLog::deserializeCSN(const String & csn_node_name)
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{
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ReadBufferFromString buf{csn_node_name};
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assertString("csn-", buf);
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UInt64 res;
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readText(res, buf);
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assertEOF(buf);
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return res;
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}
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String TransactionLog::serializeCSN(CSN csn)
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{
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return zkutil::getSequentialNodeName("csn-", csn);
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}
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TransactionID TransactionLog::deserializeTID(const String & csn_node_content)
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{
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TransactionID tid = Tx::EmptyTID;
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if (csn_node_content.empty())
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return tid;
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ReadBufferFromString buf{csn_node_content};
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tid = TransactionID::read(buf);
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assertEOF(buf);
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return tid;
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}
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String TransactionLog::serializeTID(const TransactionID & tid)
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{
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WriteBufferFromOwnString buf;
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TransactionID::write(tid, buf);
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return buf.str();
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}
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void TransactionLog::loadEntries(Strings::const_iterator beg, Strings::const_iterator end)
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{
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size_t entries_count = std::distance(beg, end);
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if (!entries_count)
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return;
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String last_entry = *std::prev(end);
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LOG_TRACE(log, "Loading {} entries from {}: {}..{}", entries_count, zookeeper_path_log, *beg, last_entry);
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std::vector<std::string> entry_paths;
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entry_paths.reserve(entries_count);
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for (auto it = beg; it != end; ++it)
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entry_paths.emplace_back(fs::path(zookeeper_path_log) / *it);
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auto entries = TSA_READ_ONE_THREAD(zookeeper)->get(entry_paths);
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std::vector<std::pair<TIDHash, CSNEntry>> loaded;
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loaded.reserve(entries_count);
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auto it = beg;
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for (size_t i = 0; i < entries_count; ++i, ++it)
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{
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auto res = entries[i];
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CSN csn = deserializeCSN(*it);
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TransactionID tid = deserializeTID(res.data);
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loaded.emplace_back(tid.getHash(), CSNEntry{csn, tid});
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LOG_TEST(log, "Got entry {} -> {}", tid, csn);
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}
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NOEXCEPT_SCOPE_STRICT({
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std::lock_guard lock{mutex};
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for (const auto & entry : loaded)
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{
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if (entry.first == Tx::EmptyTID.getHash())
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continue;
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tid_to_csn.emplace(entry.first, entry.second);
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}
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last_loaded_entry = last_entry;
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});
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{
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std::lock_guard lock{running_list_mutex};
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latest_snapshot = loaded.back().second.csn;
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local_tid_counter = Tx::MaxReservedLocalTID;
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}
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}
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void TransactionLog::loadLogFromZooKeeper()
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{
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chassert(!zookeeper);
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chassert(tid_to_csn.empty());
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chassert(last_loaded_entry.empty());
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zookeeper = global_context->getZooKeeper();
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/// We do not write local_tid_counter to disk or zk and maintain it only in memory.
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/// Create empty entry to allocate new CSN to safely start counting from the beginning and avoid TID duplication.
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/// TODO It's possible to skip this step in come cases (especially for multi-host configuration).
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Coordination::Error code = zookeeper->tryCreate(zookeeper_path_log + "/csn-", "", zkutil::CreateMode::PersistentSequential);
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if (code != Coordination::Error::ZOK)
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{
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/// Log probably does not exist, create it
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chassert(code == Coordination::Error::ZNONODE);
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zookeeper->createAncestors(zookeeper_path_log);
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Coordination::Requests ops;
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ops.emplace_back(zkutil::makeCreateRequest(zookeeper_path + "/tail_ptr", serializeCSN(Tx::MaxReservedCSN), zkutil::CreateMode::Persistent));
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ops.emplace_back(zkutil::makeCreateRequest(zookeeper_path_log, "", zkutil::CreateMode::Persistent));
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/// Fast-forward sequential counter to skip reserved CSNs
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for (size_t i = 0; i <= Tx::MaxReservedCSN; ++i)
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ops.emplace_back(zkutil::makeCreateRequest(zookeeper_path_log + "/csn-", "", zkutil::CreateMode::PersistentSequential));
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Coordination::Responses res;
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code = zookeeper->tryMulti(ops, res);
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if (code != Coordination::Error::ZNODEEXISTS)
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zkutil::KeeperMultiException::check(code, ops, res);
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}
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/// TODO Split log into "subdirectories" to:
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/// 1. fetch it more optimal way (avoid listing all CSNs on further incremental updates)
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/// 2. simplify log rotation
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/// 3. support 64-bit CSNs on top of Apache ZooKeeper (it uses Int32 for sequential numbers)
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Strings entries_list = zookeeper->getChildren(zookeeper_path_log, nullptr, log_updated_event);
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chassert(!entries_list.empty());
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::sort(entries_list.begin(), entries_list.end());
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loadEntries(entries_list.begin(), entries_list.end());
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chassert(!last_loaded_entry.empty());
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chassert(latest_snapshot == deserializeCSN(last_loaded_entry));
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local_tid_counter = Tx::MaxReservedLocalTID;
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tail_ptr = deserializeCSN(zookeeper->get(zookeeper_path + "/tail_ptr"));
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}
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void TransactionLog::runUpdatingThread()
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{
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while (true)
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{
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try
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{
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/// Do not wait if we have some transactions to finalize
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if (TSA_READ_ONE_THREAD(unknown_state_list_loaded).empty())
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log_updated_event->wait();
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if (stop_flag.load())
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return;
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bool connection_loss = getZooKeeper()->expired();
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if (connection_loss)
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{
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auto new_zookeeper = global_context->getZooKeeper();
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{
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std::lock_guard lock{mutex};
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zookeeper = new_zookeeper;
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}
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/// It's possible that we connected to different [Zoo]Keeper instance
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/// so we may read a bit stale state.
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TSA_READ_ONE_THREAD(zookeeper)->sync(zookeeper_path_log);
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}
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loadNewEntries();
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removeOldEntries();
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tryFinalizeUnknownStateTransactions();
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}
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catch (const Coordination::Exception &)
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{
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tryLogCurrentException(log);
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/// TODO better backoff
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std::this_thread::sleep_for(std::chrono::milliseconds(1000));
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log_updated_event->set();
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}
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catch (...)
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{
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tryLogCurrentException(log);
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std::this_thread::sleep_for(std::chrono::milliseconds(1000));
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log_updated_event->set();
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}
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}
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}
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void TransactionLog::loadNewEntries()
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{
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Strings entries_list = TSA_READ_ONE_THREAD(zookeeper)->getChildren(zookeeper_path_log, nullptr, log_updated_event);
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chassert(!entries_list.empty());
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::sort(entries_list.begin(), entries_list.end());
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auto it = std::upper_bound(entries_list.begin(), entries_list.end(), TSA_READ_ONE_THREAD(last_loaded_entry));
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loadEntries(it, entries_list.end());
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chassert(TSA_READ_ONE_THREAD(last_loaded_entry) == entries_list.back());
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chassert(latest_snapshot == deserializeCSN(TSA_READ_ONE_THREAD(last_loaded_entry)));
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latest_snapshot.notify_all();
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}
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void TransactionLog::removeOldEntries()
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{
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/// Try to update tail pointer. It's (almost) safe to set it to the oldest snapshot
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/// because if a transaction released snapshot, then CSN is already written into metadata.
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/// Why almost? Because on server startup we do not have the oldest snapshot (it's simply equal to the latest one),
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/// but it's possible that some CSNs are not written into data parts (and we will write them during startup).
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if (!global_context->isServerCompletelyStarted())
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return;
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/// Also similar problem is possible if some table was not attached during startup (for example, if table is detached permanently).
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/// Also we write CSNs into data parts without fsync, so it's theoretically possible that we wrote CSN, finished transaction,
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/// removed its entry from the log, but after that server restarts and CSN is not actually saved to metadata on disk.
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/// We should store a bit more entries in ZK and keep outdated entries for a while.
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/// TODO we will need a bit more complex logic for multiple hosts
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Coordination::Stat stat;
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CSN old_tail_ptr = deserializeCSN(TSA_READ_ONE_THREAD(zookeeper)->get(zookeeper_path + "/tail_ptr", &stat));
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CSN new_tail_ptr = getOldestSnapshot();
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if (new_tail_ptr < old_tail_ptr)
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throw Exception(ErrorCodes::LOGICAL_ERROR, "Got unexpected tail_ptr {}, oldest snapshot is {}, it's a bug", old_tail_ptr, new_tail_ptr);
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else if (new_tail_ptr == old_tail_ptr)
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return;
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/// (it's not supposed to fail with ZBADVERSION while there is only one host)
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LOG_TRACE(log, "Updating tail_ptr from {} to {}", old_tail_ptr, new_tail_ptr);
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TSA_READ_ONE_THREAD(zookeeper)->set(zookeeper_path + "/tail_ptr", serializeCSN(new_tail_ptr), stat.version);
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tail_ptr.store(new_tail_ptr);
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/// Now we can find and remove old entries
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TIDMap tids;
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{
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std::lock_guard lock{mutex};
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tids = tid_to_csn;
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}
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/// TODO support batching
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std::vector<TIDHash> removed_entries;
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CSN latest_entry_csn = latest_snapshot.load();
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for (const auto & elem : tids)
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{
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/// Definitely not safe to remove
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if (new_tail_ptr <= elem.second.tid.start_csn)
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continue;
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/// Keep at least one node (the latest one we fetched)
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if (elem.second.csn == latest_entry_csn)
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continue;
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LOG_TEST(log, "Removing entry {} -> {}", elem.second.tid, elem.second.csn);
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auto code = TSA_READ_ONE_THREAD(zookeeper)->tryRemove(zookeeper_path_log + "/" + serializeCSN(elem.second.csn));
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if (code == Coordination::Error::ZOK || code == Coordination::Error::ZNONODE)
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removed_entries.push_back(elem.first);
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}
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std::lock_guard lock{mutex};
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for (const auto & tid_hash : removed_entries)
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tid_to_csn.erase(tid_hash);
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}
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void TransactionLog::tryFinalizeUnknownStateTransactions()
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{
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/// We just recovered connection to [Zoo]Keeper.
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/// Check if transactions in unknown state were actually committed or not and finalize or rollback them.
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UnknownStateList list;
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{
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/// We must be sure that the corresponding CSN entry is loaded from ZK.
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/// Otherwise we may accidentally rollback committed transaction in case of race condition like this:
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/// - runUpdatingThread: loaded some entries, ready to call tryFinalizeUnknownStateTransactions()
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/// - commitTransaction: creates CSN entry in the log (txn is committed)
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/// - [session expires]
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/// - commitTransaction: catches Coordination::Exception (maybe due to fault injection), appends txn to unknown_state_list
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/// - runUpdatingThread: calls tryFinalizeUnknownStateTransactions(), fails to find CSN for this txn, rolls it back
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/// So all CSN entries that might exist at the moment of appending txn to unknown_state_list
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/// must be loaded from ZK before we start finalize that txn.
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/// That's why we use two lists here:
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/// 1. At first we put txn into unknown_state_list
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/// 2. We move it to unknown_state_list_loaded when runUpdatingThread done at least one iteration
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/// 3. Then we can safely finalize txns from unknown_state_list_loaded, because all required entries are loaded
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std::lock_guard lock{running_list_mutex};
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std::swap(list, unknown_state_list);
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std::swap(list, unknown_state_list_loaded);
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}
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for (auto & [txn, state_guard] : list)
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{
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/// CSNs must be already loaded, only need to check if the corresponding mapping exists.
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if (auto csn = getCSN(txn->tid))
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{
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finalizeCommittedTransaction(txn.get(), csn, state_guard);
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}
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else
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{
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assertTIDIsNotOutdated(txn->tid);
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state_guard = {};
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rollbackTransaction(txn->shared_from_this());
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}
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}
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}
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CSN TransactionLog::getLatestSnapshot() const
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{
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return latest_snapshot.load();
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}
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MergeTreeTransactionPtr TransactionLog::beginTransaction()
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{
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MergeTreeTransactionPtr txn;
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{
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std::lock_guard lock{running_list_mutex};
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CSN snapshot = latest_snapshot.load();
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LocalTID ltid = 1 + local_tid_counter.fetch_add(1);
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auto snapshot_lock = snapshots_in_use.insert(snapshots_in_use.end(), snapshot);
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txn = std::make_shared<MergeTreeTransaction>(snapshot, ltid, ServerUUID::get(), snapshot_lock);
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bool inserted = running_list.try_emplace(txn->tid.getHash(), txn).second;
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if (!inserted)
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throw Exception(ErrorCodes::LOGICAL_ERROR, "I's a bug: TID {} {} exists", txn->tid.getHash(), txn->tid);
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}
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LOG_TEST(log, "Beginning transaction {} ({})", txn->tid, txn->tid.getHash());
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tryWriteEventToSystemLog(log, global_context, TransactionsInfoLogElement::BEGIN, txn->tid);
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return txn;
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}
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CSN TransactionLog::commitTransaction(const MergeTreeTransactionPtr & txn, bool throw_on_unknown_status)
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{
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/// Some precommit checks, may throw
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auto state_guard = txn->beforeCommit();
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CSN allocated_csn = Tx::UnknownCSN;
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if (txn->isReadOnly())
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{
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/// Don't need to allocate CSN in ZK for readonly transactions, it's safe to use snapshot/start_csn as "commit" timestamp
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LOG_TEST(log, "Closing readonly transaction {}", txn->tid);
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}
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else
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{
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LOG_TEST(log, "Committing transaction {}", txn->dumpDescription());
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/// TODO support batching
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auto current_zookeeper = getZooKeeper();
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String csn_path_created;
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try
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{
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Coordination::SimpleFaultInjection fault(fault_probability_before_commit, fault_probability_after_commit, "commit");
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Coordination::Requests requests;
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requests.push_back(zkutil::makeCreateRequest(zookeeper_path_log + "/csn-", serializeTID(txn->tid), zkutil::CreateMode::PersistentSequential));
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/// Commit point
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auto res = current_zookeeper->multi(requests, /* check_session_valid */ true);
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csn_path_created = dynamic_cast<const Coordination::CreateResponse *>(res.back().get())->path_created;
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}
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catch (const Coordination::Exception & e)
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{
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if (!Coordination::isHardwareError(e.code))
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throw;
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/// We don't know if transaction has been actually committed or not.
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/// The only thing we can do is to postpone its finalization.
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{
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std::lock_guard lock{running_list_mutex};
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unknown_state_list.emplace_back(txn, std::move(state_guard));
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}
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log_updated_event->set();
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if (throw_on_unknown_status)
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throw Exception(ErrorCodes::UNKNOWN_STATUS_OF_TRANSACTION,
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"Connection lost on attempt to commit transaction {}, will finalize it later: {}",
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txn->tid, e.message());
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LOG_INFO(log, "Connection lost on attempt to commit transaction {}, will finalize it later: {}", txn->tid, e.message());
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return Tx::CommittingCSN;
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}
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/// Do not allow exceptions between commit point and the and of transaction finalization
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/// (otherwise it may stuck in COMMITTING state holding snapshot).
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NOEXCEPT_SCOPE_STRICT({
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/// FIXME Transactions: Sequential node numbers in ZooKeeper are Int32, but 31 bit is not enough for production use
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/// (overflow is possible in a several weeks/months of active usage)
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allocated_csn = deserializeCSN(csn_path_created.substr(zookeeper_path_log.size() + 1));
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});
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}
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return finalizeCommittedTransaction(txn.get(), allocated_csn, state_guard);
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}
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CSN TransactionLog::finalizeCommittedTransaction(MergeTreeTransaction * txn, CSN allocated_csn, scope_guard & state_guard) noexcept
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{
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LockMemoryExceptionInThread memory_tracker_lock(VariableContext::Global);
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chassert(!allocated_csn == txn->isReadOnly());
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if (allocated_csn)
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{
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LOG_INFO(log, "Transaction {} committed with CSN={}", txn->tid, allocated_csn);
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tryWriteEventToSystemLog(log, global_context, TransactionsInfoLogElement::COMMIT, txn->tid, allocated_csn);
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}
|
|
else
|
|
{
|
|
/// Transaction was readonly
|
|
allocated_csn = txn->snapshot;
|
|
tryWriteEventToSystemLog(log, global_context, TransactionsInfoLogElement::COMMIT, txn->tid, allocated_csn);
|
|
}
|
|
|
|
/// Write allocated CSN, so we will be able to cleanup log in ZK. This method is noexcept.
|
|
txn->afterCommit(allocated_csn);
|
|
state_guard = {};
|
|
|
|
{
|
|
/// Finally we can remove transaction from the list and release the snapshot
|
|
std::lock_guard lock{running_list_mutex};
|
|
snapshots_in_use.erase(txn->snapshot_in_use_it);
|
|
bool removed = running_list.erase(txn->tid.getHash());
|
|
if (!removed)
|
|
{
|
|
LOG_ERROR(log, "It's a bug: TID {} {} doesn't exist", txn->tid.getHash(), txn->tid);
|
|
abort();
|
|
}
|
|
}
|
|
|
|
txn->afterFinalize();
|
|
return allocated_csn;
|
|
}
|
|
|
|
bool TransactionLog::waitForCSNLoaded(CSN csn) const
|
|
{
|
|
auto current_latest_snapshot = latest_snapshot.load();
|
|
while (current_latest_snapshot < csn && !stop_flag)
|
|
{
|
|
latest_snapshot.wait(current_latest_snapshot);
|
|
current_latest_snapshot = latest_snapshot.load();
|
|
}
|
|
return csn <= current_latest_snapshot;
|
|
}
|
|
|
|
void TransactionLog::rollbackTransaction(const MergeTreeTransactionPtr & txn) noexcept
|
|
{
|
|
LockMemoryExceptionInThread memory_tracker_lock(VariableContext::Global);
|
|
LOG_TRACE(log, "Rolling back transaction {}{}", txn->tid,
|
|
std::uncaught_exceptions() ? fmt::format(" due to uncaught exception (code: {})", getCurrentExceptionCode()) : "");
|
|
|
|
if (!txn->rollback())
|
|
{
|
|
/// Transaction was cancelled or committed concurrently
|
|
chassert(txn->csn != Tx::UnknownCSN);
|
|
return;
|
|
}
|
|
|
|
{
|
|
std::lock_guard lock{running_list_mutex};
|
|
bool removed = running_list.erase(txn->tid.getHash());
|
|
if (!removed)
|
|
abort();
|
|
snapshots_in_use.erase(txn->snapshot_in_use_it);
|
|
}
|
|
|
|
tryWriteEventToSystemLog(log, global_context, TransactionsInfoLogElement::ROLLBACK, txn->tid);
|
|
txn->afterFinalize();
|
|
}
|
|
|
|
MergeTreeTransactionPtr TransactionLog::tryGetRunningTransaction(const TIDHash & tid)
|
|
{
|
|
std::lock_guard lock{running_list_mutex};
|
|
auto it = running_list.find(tid);
|
|
if (it == running_list.end())
|
|
return NO_TRANSACTION_PTR;
|
|
return it->second;
|
|
}
|
|
|
|
CSN TransactionLog::getCSN(const TransactionID & tid, const std::atomic<CSN> * failback_with_strict_load_csn)
|
|
{
|
|
/// Avoid creation of the instance if transactions are not actually involved
|
|
if (tid == Tx::PrehistoricTID)
|
|
return Tx::PrehistoricCSN;
|
|
return instance().getCSNImpl(tid.getHash(), failback_with_strict_load_csn);
|
|
}
|
|
|
|
CSN TransactionLog::getCSN(const TIDHash & tid, const std::atomic<CSN> * failback_with_strict_load_csn)
|
|
{
|
|
/// Avoid creation of the instance if transactions are not actually involved
|
|
if (tid == Tx::PrehistoricTID.getHash())
|
|
return Tx::PrehistoricCSN;
|
|
return instance().getCSNImpl(tid, failback_with_strict_load_csn);
|
|
}
|
|
|
|
CSN TransactionLog::getCSNImpl(const TIDHash & tid_hash, const std::atomic<CSN> * failback_with_strict_load_csn) const
|
|
{
|
|
chassert(tid_hash);
|
|
chassert(tid_hash != Tx::EmptyTID.getHash());
|
|
|
|
{
|
|
std::lock_guard lock{mutex};
|
|
auto it = tid_to_csn.find(tid_hash);
|
|
if (it != tid_to_csn.end())
|
|
return it->second.csn;
|
|
}
|
|
|
|
/// Usually commit csn checked by load memory with memory_order_relaxed option just for performance improvements
|
|
/// If fast loading fails than getCSN is called.
|
|
/// There is a race possible, transaction could be committed concurrently. Right before getCSN has been called. In that case tid_to_csn has no tid_hash but commit csn is set.
|
|
/// In order to be sure, commit csn has to be loaded with memory_order_seq_cst after lookup at tid_to_csn
|
|
if (failback_with_strict_load_csn)
|
|
if (CSN maybe_csn = failback_with_strict_load_csn->load())
|
|
return maybe_csn;
|
|
|
|
return Tx::UnknownCSN;
|
|
}
|
|
|
|
CSN TransactionLog::getCSNAndAssert(const TransactionID & tid, std::atomic<CSN> & failback_with_strict_load_csn)
|
|
{
|
|
/// failback_with_strict_load_csn is not provided to getCSN
|
|
/// Because it would be checked after assertTIDIsNotOutdated
|
|
if (CSN maybe_csn = getCSN(tid))
|
|
return maybe_csn;
|
|
|
|
assertTIDIsNotOutdated(tid, &failback_with_strict_load_csn);
|
|
|
|
/// If transaction is not outdated then it might be already committed
|
|
/// We should load CSN again to distinguish it
|
|
/// Otherwise the transactiuon hasn't been committed yet
|
|
if (CSN maybe_csn = failback_with_strict_load_csn.load())
|
|
return maybe_csn;
|
|
|
|
return Tx::UnknownCSN;
|
|
}
|
|
|
|
void TransactionLog::assertTIDIsNotOutdated(const TransactionID & tid, const std::atomic<CSN> * failback_with_strict_load_csn)
|
|
{
|
|
if (tid == Tx::PrehistoricTID)
|
|
return;
|
|
|
|
/// Ensure that we are not trying to get CSN for TID that was already removed from the log
|
|
CSN tail = instance().tail_ptr.load();
|
|
if (tail <= tid.start_csn)
|
|
return;
|
|
|
|
/// At this point of execution tail is lesser that tid.start_csn
|
|
/// This mean that transaction is either outdated or just has been committed concurrently and the tail moved forward.
|
|
/// If the second case takes place transaction's commit csn has to be set.
|
|
/// We should load CSN again to distinguish the second case.
|
|
if (failback_with_strict_load_csn)
|
|
if (CSN maybe_csn = failback_with_strict_load_csn->load())
|
|
return;
|
|
|
|
throw Exception(ErrorCodes::LOGICAL_ERROR, "Trying to get CSN for too old TID {}, current tail_ptr is {}, probably it's a bug", tid, tail);
|
|
}
|
|
|
|
CSN TransactionLog::getOldestSnapshot() const
|
|
{
|
|
std::lock_guard lock{running_list_mutex};
|
|
if (snapshots_in_use.empty())
|
|
return getLatestSnapshot();
|
|
chassert(running_list.size() == snapshots_in_use.size());
|
|
chassert(snapshots_in_use.size() < 2 || snapshots_in_use.front() <= *++snapshots_in_use.begin());
|
|
return snapshots_in_use.front();
|
|
}
|
|
|
|
TransactionLog::TransactionsList TransactionLog::getTransactionsList() const
|
|
{
|
|
std::lock_guard lock{running_list_mutex};
|
|
return running_list;
|
|
}
|
|
|
|
|
|
void TransactionLog::sync() const
|
|
{
|
|
Strings entries_list = getZooKeeper()->getChildren(zookeeper_path_log);
|
|
chassert(!entries_list.empty());
|
|
::sort(entries_list.begin(), entries_list.end());
|
|
CSN newest_csn = deserializeCSN(entries_list.back());
|
|
waitForCSNLoaded(newest_csn);
|
|
}
|
|
|
|
}
|