path: root/src/mongo/db/s/database_sharding_state.cpp

/**
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 *
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 *    it under the terms of the Server Side Public License, version 1,
 *    as published by MongoDB, Inc.
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 *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *    Server Side Public License for more details.
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 *    You should have received a copy of the Server Side Public License
 *    along with this program. If not, see
 *    <http://www.mongodb.com/licensing/server-side-public-license>.
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 *    code of portions of this program with the OpenSSL library under certain
 *    conditions as described in each individual source file and distribute
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#include "mongo/db/s/database_sharding_state.h"

#include <fmt/format.h>

#include "mongo/db/catalog_shard_feature_flag_gen.h"
#include "mongo/db/operation_context.h"
#include "mongo/db/s/operation_sharding_state.h"
#include "mongo/db/s/sharding_state.h"
#include "mongo/logv2/log.h"
#include "mongo/s/stale_exception.h"
#include "mongo/stdx/unordered_map.h"
#include "mongo/util/fail_point.h"

#define MONGO_LOGV2_DEFAULT_COMPONENT ::mongo::logv2::LogComponent::kSharding

namespace mongo {
namespace {

class DatabaseShardingStateMap {
    DatabaseShardingStateMap& operator=(const DatabaseShardingStateMap&) = delete;
    DatabaseShardingStateMap(const DatabaseShardingStateMap&) = delete;

public:
    static const ServiceContext::Decoration<DatabaseShardingStateMap> get;

    DatabaseShardingStateMap() {}

    struct DSSAndLock {
        DSSAndLock(const DatabaseName& dbName)
            : dssMutex("DSSMutex::" + dbName.db()),
              dss(std::make_unique<DatabaseShardingState>(dbName)) {}

        const Lock::ResourceMutex dssMutex;
        std::unique_ptr<DatabaseShardingState> dss;
    };

    DSSAndLock* getOrCreate(const DatabaseName& dbName) {
        stdx::lock_guard<Latch> lg(_mutex);

        auto it = _databases.find(dbName);
        if (it == _databases.end()) {
            auto inserted = _databases.try_emplace(dbName, std::make_unique<DSSAndLock>(dbName));
            invariant(inserted.second);
            it = std::move(inserted.first);
        }

        return it->second.get();
    }

    std::vector<DatabaseName> getDatabaseNames() {
        stdx::lock_guard lg(_mutex);
        std::vector<DatabaseName> result;
        result.reserve(_databases.size());
        for (const auto& [dbName, _] : _databases) {
            result.emplace_back(dbName);
        }
        return result;
    }

private:
    Mutex _mutex = MONGO_MAKE_LATCH("DatabaseShardingStateMap::_mutex");

    // Entries of the _databases map must never be deleted or replaced. This is to guarantee that a
    // 'dbName' is always associated to the same 'ResourceMutex'.
    using DatabasesMap = stdx::unordered_map<DatabaseName, std::unique_ptr<DSSAndLock>>;
    DatabasesMap _databases;
};

const ServiceContext::Decoration<DatabaseShardingStateMap> DatabaseShardingStateMap::get =
    ServiceContext::declareDecoration<DatabaseShardingStateMap>();

}  // namespace

DatabaseShardingState::DatabaseShardingState(const DatabaseName& dbName) : _dbName(dbName) {}

DatabaseShardingState::ScopedExclusiveDatabaseShardingState::ScopedExclusiveDatabaseShardingState(
    Lock::ResourceLock lock, DatabaseShardingState* dss)
    : _lock(std::move(lock)), _dss(dss) {}

DatabaseShardingState::ScopedSharedDatabaseShardingState::ScopedSharedDatabaseShardingState(
    Lock::ResourceLock lock, DatabaseShardingState* dss)
    : DatabaseShardingState::ScopedExclusiveDatabaseShardingState(std::move(lock), dss) {}

DatabaseShardingState::ScopedExclusiveDatabaseShardingState DatabaseShardingState::acquireExclusive(
    OperationContext* opCtx, const DatabaseName& dbName) {

    DatabaseShardingStateMap::DSSAndLock* dssAndLock =
        DatabaseShardingStateMap::get(opCtx->getServiceContext()).getOrCreate(dbName);

    // First lock the RESOURCE_MUTEX associated to this dbName to guarantee stability of the
    // DatabaseShardingState pointer. After that, it is safe to get and store the
    // DatabaseShadingState*, as long as the RESOURCE_MUTEX is kept locked.
    Lock::ResourceLock lock(opCtx->lockState(), dssAndLock->dssMutex.getRid(), MODE_X);

    return ScopedExclusiveDatabaseShardingState(std::move(lock), dssAndLock->dss.get());
}

DatabaseShardingState::ScopedSharedDatabaseShardingState DatabaseShardingState::acquireShared(
    OperationContext* opCtx, const DatabaseName& dbName) {

    DatabaseShardingStateMap::DSSAndLock* dssAndLock =
        DatabaseShardingStateMap::get(opCtx->getServiceContext()).getOrCreate(dbName);

    // First lock the RESOURCE_MUTEX associated to this dbName to guarantee stability of the
    // DatabaseShardingState pointer. After that, it is safe to get and store the
    // DatabaseShadingState*, as long as the RESOURCE_MUTEX is kept locked.
    Lock::ResourceLock lock(opCtx->lockState(), dssAndLock->dssMutex.getRid(), MODE_IS);

    return ScopedSharedDatabaseShardingState(std::move(lock), dssAndLock->dss.get());
}

DatabaseShardingState::ScopedExclusiveDatabaseShardingState
DatabaseShardingState::assertDbLockedAndAcquireExclusive(OperationContext* opCtx,
                                                         const DatabaseName& dbName) {
    dassert(opCtx->lockState()->isDbLockedForMode(dbName, MODE_IS));
    return acquireExclusive(opCtx, dbName);
}

DatabaseShardingState::ScopedSharedDatabaseShardingState
DatabaseShardingState::assertDbLockedAndAcquireShared(OperationContext* opCtx,
                                                      const DatabaseName& dbName) {
    dassert(opCtx->lockState()->isDbLockedForMode(dbName, MODE_IS));
    return acquireShared(opCtx, dbName);
}

std::vector<DatabaseName> DatabaseShardingState::getDatabaseNames(OperationContext* opCtx) {
    auto& databasesMap = DatabaseShardingStateMap::get(opCtx->getServiceContext());
    return databasesMap.getDatabaseNames();
}

void DatabaseShardingState::assertMatchingDbVersion(OperationContext* opCtx,
                                                    const DatabaseName& dbName) {
    const auto receivedVersion =
        OperationShardingState::get(opCtx).getDbVersion(DatabaseNameUtil::serialize(dbName));
    if (!receivedVersion) {
        return;
    }

    assertMatchingDbVersion(opCtx, dbName, *receivedVersion);
}

void DatabaseShardingState::assertMatchingDbVersion(OperationContext* opCtx,
                                                    const DatabaseName& dbName,
                                                    const DatabaseVersion& receivedVersion) {
    const auto scopedDss = acquireShared(opCtx, dbName);

    {
        const auto critSecSignal = scopedDss->getCriticalSectionSignal(
            opCtx->lockState()->isWriteLocked() ? ShardingMigrationCriticalSection::kWrite
                                                : ShardingMigrationCriticalSection::kRead);
        const auto optCritSecReason = scopedDss->getCriticalSectionReason();

        uassert(
            StaleDbRoutingVersion(
                DatabaseNameUtil::serialize(dbName), receivedVersion, boost::none, critSecSignal),
            str::stream() << "The critical section for the database "
                          << dbName.toStringForErrorMsg()
                          << " is acquired with reason: " << scopedDss->getCriticalSectionReason(),
            !critSecSignal);
    }

    const auto wantedVersion = scopedDss->getDbVersion(opCtx);
    uassert(
        StaleDbRoutingVersion(DatabaseNameUtil::serialize(dbName), receivedVersion, boost::none),
        str::stream() << "No cached info for the database " << dbName.toStringForErrorMsg(),
        wantedVersion);

    uassert(
        StaleDbRoutingVersion(DatabaseNameUtil::serialize(dbName), receivedVersion, *wantedVersion),
        str::stream() << "Version mismatch for the database " << dbName.toStringForErrorMsg(),
        receivedVersion == *wantedVersion);
}

void DatabaseShardingState::assertIsPrimaryShardForDb(OperationContext* opCtx,
                                                      const DatabaseName& dbName) {
    if (dbName == DatabaseName::kConfig || dbName == DatabaseName::kAdmin) {
        uassert(7393700,
                "The config server is the primary shard for database: {}"_format(
                    dbName.toStringForErrorMsg()),
                serverGlobalParams.clusterRole.has(ClusterRole::ConfigServer));
        return;
    }

    auto expectedDbVersion =
        OperationShardingState::get(opCtx).getDbVersion(DatabaseNameUtil::serialize(dbName));

    uassert(ErrorCodes::IllegalOperation,
            str::stream() << "Received request without the version for the database "
                          << dbName.toStringForErrorMsg(),
            expectedDbVersion);

    Lock::DBLock dbLock(opCtx, dbName, MODE_IS);
    assertMatchingDbVersion(opCtx, dbName, *expectedDbVersion);

    const auto scopedDss = assertDbLockedAndAcquireShared(opCtx, dbName);
    const auto primaryShardId = scopedDss->_dbInfo->getPrimary();
    const auto thisShardId = ShardingState::get(opCtx)->shardId();
    uassert(ErrorCodes::IllegalOperation,
            str::stream() << "This is not the primary shard for the database "
                          << dbName.toStringForErrorMsg() << ". Expected: " << primaryShardId
                          << " Actual: " << thisShardId,
            primaryShardId == thisShardId);
}

void DatabaseShardingState::setDbInfo(OperationContext* opCtx, const DatabaseType& dbInfo) {
    invariant(opCtx->lockState()->isDbLockedForMode(_dbName, MODE_IX));

    LOGV2(7286900,
          "Setting this node's cached database info",
          logAttrs(_dbName),
          "dbVersion"_attr = dbInfo.getVersion());
    _dbInfo.emplace(dbInfo);
}

void DatabaseShardingState::clearDbInfo(OperationContext* opCtx, bool cancelOngoingRefresh) {
    invariant(opCtx->lockState()->isDbLockedForMode(_dbName, MODE_IX));

    if (cancelOngoingRefresh) {
        _cancelDbMetadataRefresh();
    }

    LOGV2(7286901, "Clearing this node's cached database info", logAttrs(_dbName));
    _dbInfo = boost::none;
}

boost::optional<DatabaseVersion> DatabaseShardingState::getDbVersion(
    OperationContext* opCtx) const {
    return _dbInfo ? boost::optional<DatabaseVersion>(_dbInfo->getVersion()) : boost::none;
}

void DatabaseShardingState::enterCriticalSectionCatchUpPhase(OperationContext* opCtx,
                                                             const BSONObj& reason) {
    _critSec.enterCriticalSectionCatchUpPhase(reason);

    _cancelDbMetadataRefresh();
}

void DatabaseShardingState::enterCriticalSectionCommitPhase(OperationContext* opCtx,
                                                            const BSONObj& reason) {
    _critSec.enterCriticalSectionCommitPhase(reason);
}

void DatabaseShardingState::exitCriticalSection(OperationContext* opCtx, const BSONObj& reason) {
    _critSec.exitCriticalSection(reason);
}

void DatabaseShardingState::exitCriticalSectionNoChecks(OperationContext* opCtx) {
    _critSec.exitCriticalSectionNoChecks();
}

void DatabaseShardingState::setMovePrimaryInProgress(OperationContext* opCtx) {
    invariant(opCtx->lockState()->isDbLockedForMode(_dbName, MODE_X));
    _movePrimaryInProgress = true;
}

void DatabaseShardingState::unsetMovePrimaryInProgress(OperationContext* opCtx) {
    invariant(opCtx->lockState()->isDbLockedForMode(_dbName, MODE_IX));
    _movePrimaryInProgress = false;
}

void DatabaseShardingState::setDbMetadataRefreshFuture(SharedSemiFuture<void> future,
                                                       CancellationSource cancellationSource) {
    invariant(!_dbMetadataRefresh);
    _dbMetadataRefresh.emplace(std::move(future), std::move(cancellationSource));
}

boost::optional<SharedSemiFuture<void>> DatabaseShardingState::getDbMetadataRefreshFuture() const {
    return _dbMetadataRefresh ? boost::optional<SharedSemiFuture<void>>(_dbMetadataRefresh->future)
                              : boost::none;
}

void DatabaseShardingState::resetDbMetadataRefreshFuture() {
    _dbMetadataRefresh = boost::none;
}

void DatabaseShardingState::_cancelDbMetadataRefresh() {
    if (_dbMetadataRefresh) {
        _dbMetadataRefresh->cancellationSource.cancel();
    }
}

boost::optional<bool> DatabaseShardingState::_isPrimaryShardForDb(OperationContext* opCtx) const {
    return _dbInfo
        ? boost::optional<bool>(_dbInfo->getPrimary() == ShardingState::get(opCtx)->shardId())
        : boost::none;
}

}  // namespace mongo