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path: root/src/mongo/s/commands/strategy.cpp
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/**
 *    Copyright (C) 2010 10gen Inc.
 *
 *    This program is free software: you can redistribute it and/or  modify
 *    it under the terms of the GNU Affero General Public License, version 3,
 *    as published by the Free Software Foundation.
 *
 *    This program is distributed in the hope that it will be useful,
 *    but WITHOUT ANY WARRANTY; without even the implied warranty of
 *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *    GNU Affero General Public License for more details.
 *
 *    You should have received a copy of the GNU Affero General Public License
 *    along with this program.  If not, see <http://www.gnu.org/licenses/>.
 *
 *    As a special exception, the copyright holders give permission to link the
 *    code of portions of this program with the OpenSSL library under certain
 *    conditions as described in each individual source file and distribute
 *    linked combinations including the program with the OpenSSL library. You
 *    must comply with the GNU Affero General Public License in all respects
 *    for all of the code used other than as permitted herein. If you modify
 *    file(s) with this exception, you may extend this exception to your
 *    version of the file(s), but you are not obligated to do so. If you do not
 *    wish to do so, delete this exception statement from your version. If you
 *    delete this exception statement from all source files in the program,
 *    then also delete it in the license file.
 */

#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kSharding

#include "mongo/platform/basic.h"

#include "mongo/s/commands/strategy.h"

#include "mongo/base/data_cursor.h"
#include "mongo/base/init.h"
#include "mongo/base/status.h"
#include "mongo/bson/util/bson_extract.h"
#include "mongo/bson/util/builder.h"
#include "mongo/db/audit.h"
#include "mongo/db/auth/action_type.h"
#include "mongo/db/auth/authorization_session.h"
#include "mongo/db/commands.h"
#include "mongo/db/commands/test_commands_enabled.h"
#include "mongo/db/curop.h"
#include "mongo/db/handle_request_response.h"
#include "mongo/db/initialize_operation_session_info.h"
#include "mongo/db/lasterror.h"
#include "mongo/db/logical_clock.h"
#include "mongo/db/logical_session_id_helpers.h"
#include "mongo/db/logical_time_validator.h"
#include "mongo/db/matcher/extensions_callback_noop.h"
#include "mongo/db/namespace_string.h"
#include "mongo/db/operation_time_tracker.h"
#include "mongo/db/ops/write_ops.h"
#include "mongo/db/query/find_common.h"
#include "mongo/db/query/getmore_request.h"
#include "mongo/db/query/query_request.h"
#include "mongo/db/stats/counters.h"
#include "mongo/db/transaction_validation.h"
#include "mongo/db/views/resolved_view.h"
#include "mongo/rpc/factory.h"
#include "mongo/rpc/get_status_from_command_result.h"
#include "mongo/rpc/metadata/logical_time_metadata.h"
#include "mongo/rpc/metadata/tracking_metadata.h"
#include "mongo/rpc/op_msg.h"
#include "mongo/rpc/op_msg_rpc_impls.h"
#include "mongo/s/cannot_implicitly_create_collection_info.h"
#include "mongo/s/catalog_cache.h"
#include "mongo/s/client/parallel.h"
#include "mongo/s/client/shard_connection.h"
#include "mongo/s/client/shard_registry.h"
#include "mongo/s/cluster_commands_helpers.h"
#include "mongo/s/commands/cluster_explain.h"
#include "mongo/s/grid.h"
#include "mongo/s/query/cluster_cursor_manager.h"
#include "mongo/s/query/cluster_find.h"
#include "mongo/s/stale_exception.h"
#include "mongo/s/transaction_router.h"
#include "mongo/util/fail_point_service.h"
#include "mongo/util/log.h"
#include "mongo/util/mongoutils/str.h"
#include "mongo/util/scopeguard.h"
#include "mongo/util/timer.h"

namespace mongo {
namespace {

const auto kOperationTime = "operationTime"_sd;

/**
 * Extract and process metadata from the command request body.
 */
Status processCommandMetadata(OperationContext* opCtx, const BSONObj& cmdObj) {
    ReadPreferenceSetting::get(opCtx) =
        uassertStatusOK(ReadPreferenceSetting::fromContainingBSON(cmdObj));

    auto logicalClock = LogicalClock::get(opCtx);
    invariant(logicalClock);

    auto logicalTimeMetadata = rpc::LogicalTimeMetadata::readFromMetadata(cmdObj);
    if (!logicalTimeMetadata.isOK()) {
        return logicalTimeMetadata.getStatus();
    }

    auto logicalTimeValidator = LogicalTimeValidator::get(opCtx);
    const auto& signedTime = logicalTimeMetadata.getValue().getSignedTime();

    // No need to check proof is no time is given.
    if (signedTime.getTime() == LogicalTime::kUninitialized) {
        return Status::OK();
    }

    if (!LogicalTimeValidator::isAuthorizedToAdvanceClock(opCtx)) {
        auto advanceClockStatus = logicalTimeValidator->validate(opCtx, signedTime);

        if (!advanceClockStatus.isOK()) {
            return advanceClockStatus;
        }
    }

    return logicalClock->advanceClusterTime(signedTime.getTime());
}

/**
 * Append required fields to command response.
 */
void appendRequiredFieldsToResponse(OperationContext* opCtx, BSONObjBuilder* responseBuilder) {
    auto validator = LogicalTimeValidator::get(opCtx);
    if (validator->shouldGossipLogicalTime()) {
        auto now = LogicalClock::get(opCtx)->getClusterTime();

        // Add operationTime.
        auto operationTime = OperationTimeTracker::get(opCtx)->getMaxOperationTime();
        if (operationTime != LogicalTime::kUninitialized) {
            responseBuilder->append(kOperationTime, operationTime.asTimestamp());
        } else if (now != LogicalTime::kUninitialized) {
            // If we don't know the actual operation time, use the cluster time instead. This is
            // safe but not optimal because we can always return a later operation time than actual.
            responseBuilder->append(kOperationTime, now.asTimestamp());
        }

        // Add $clusterTime.
        if (LogicalTimeValidator::isAuthorizedToAdvanceClock(opCtx)) {
            SignedLogicalTime dummySignedTime(now, TimeProofService::TimeProof(), 0);
            rpc::LogicalTimeMetadata(dummySignedTime).writeToMetadata(responseBuilder);
        } else {
            auto currentTime = validator->signLogicalTime(opCtx, now);
            rpc::LogicalTimeMetadata(currentTime).writeToMetadata(responseBuilder);
        }
    }
}

/**
 * Invokes the given command and aborts the transaction on any non-retryable errors.
 */
void invokeInTransactionRouter(OperationContext* opCtx,
                               CommandInvocation* invocation,
                               TransactionRouter* txnRouter,
                               rpc::ReplyBuilderInterface* result) {
    // No-op if the transaction is not running with snapshot read concern.
    txnRouter->setDefaultAtClusterTime(opCtx);

    try {
        invocation->run(opCtx, result);
    } catch (const DBException& e) {
        if (ErrorCodes::isSnapshotError(e.code()) ||
            ErrorCodes::isNeedRetargettingError(e.code()) ||
            e.code() == ErrorCodes::StaleDbVersion) {
            // Don't abort on possibly retryable errors.
            throw;
        }

        txnRouter->implicitlyAbortTransaction(opCtx);
        throw;
    }
}

/**
 * Throws NoSuchTransaction if canRetry is false.
 */
void handleCanRetryInTransaction(OperationContext* opCtx,
                                 TransactionRouter* txnRouter,
                                 bool canRetry,
                                 const DBException& ex) {
    if (!canRetry) {
        uasserted(ErrorCodes::NoSuchTransaction,
                  str::stream() << "Transaction " << opCtx->getTxnNumber() << " was aborted after "
                                << kMaxNumStaleVersionRetries
                                << " failed retries. The latest attempt failed with: "
                                << ex.toStatus());
    }
}

void execCommandClient(OperationContext* opCtx,
                       CommandInvocation* invocation,
                       const OpMsgRequest& request,
                       rpc::ReplyBuilderInterface* result) {
    const Command* c = invocation->definition();
    ON_BLOCK_EXIT([opCtx, &result] {
        auto body = result->getBodyBuilder();
        appendRequiredFieldsToResponse(opCtx, &body);
    });

    const auto dbname = request.getDatabase();
    uassert(ErrorCodes::IllegalOperation,
            "Can't use 'local' database through mongos",
            dbname != NamespaceString::kLocalDb);
    uassert(ErrorCodes::InvalidNamespace,
            str::stream() << "Invalid database name: '" << dbname << "'",
            NamespaceString::validDBName(dbname, NamespaceString::DollarInDbNameBehavior::Allow));

    StringMap<int> topLevelFields;
    for (auto&& element : request.body) {
        StringData fieldName = element.fieldNameStringData();
        if (fieldName == "help" && element.type() == Bool && element.Bool()) {
            std::stringstream help;
            help << "help for: " << c->getName() << " " << c->help();
            auto body = result->getBodyBuilder();
            body.append("help", help.str());
            CommandHelpers::appendSimpleCommandStatus(body, true, "");
            return;
        }

        uassert(ErrorCodes::FailedToParse,
                str::stream() << "Parsed command object contains duplicate top level key: "
                              << fieldName,
                topLevelFields[fieldName]++ == 0);
    }

    try {
        invocation->checkAuthorization(opCtx, request);
    } catch (const DBException& e) {
        auto body = result->getBodyBuilder();
        CommandHelpers::appendCommandStatusNoThrow(body, e.toStatus());
        return;
    }

    c->incrementCommandsExecuted();

    if (c->shouldAffectCommandCounter()) {
        globalOpCounters.gotCommand();
    }

    auto wcResult = uassertStatusOK(WriteConcernOptions::extractWCFromCommand(request.body));

    bool supportsWriteConcern = invocation->supportsWriteConcern();
    if (!supportsWriteConcern && !wcResult.usedDefault) {
        // This command doesn't do writes so it should not be passed a writeConcern.
        // If we did not use the default writeConcern, one was provided when it shouldn't have
        // been by the user.
        auto body = result->getBodyBuilder();
        CommandHelpers::appendCommandStatusNoThrow(
            body, Status(ErrorCodes::InvalidOptions, "Command does not support writeConcern"));
        return;
    }

    if (TransactionRouter::get(opCtx)) {
        validateWriteConcernForTransaction(wcResult, c->getName());
    }

    auto& readConcernArgs = repl::ReadConcernArgs::get(opCtx);
    if (readConcernArgs.getLevel() == repl::ReadConcernLevel::kSnapshotReadConcern) {
        uassert(ErrorCodes::InvalidOptions,
                "read concern snapshot is only supported in a multi-statement transaction",
                TransactionRouter::get(opCtx));
    }

    // attach tracking
    rpc::TrackingMetadata trackingMetadata;
    trackingMetadata.initWithOperName(c->getName());
    rpc::TrackingMetadata::get(opCtx) = trackingMetadata;

    auto metadataStatus = processCommandMetadata(opCtx, request.body);
    if (!metadataStatus.isOK()) {
        auto body = result->getBodyBuilder();
        CommandHelpers::appendCommandStatusNoThrow(body, metadataStatus);
        return;
    }

    auto txnRouter = TransactionRouter::get(opCtx);
    if (!supportsWriteConcern) {
        if (txnRouter) {
            invokeInTransactionRouter(opCtx, invocation, txnRouter, result);
        } else {
            invocation->run(opCtx, result);
        }
    } else {
        // Change the write concern while running the command.
        const auto oldWC = opCtx->getWriteConcern();
        ON_BLOCK_EXIT([&] { opCtx->setWriteConcern(oldWC); });
        opCtx->setWriteConcern(wcResult);

        if (txnRouter) {
            invokeInTransactionRouter(opCtx, invocation, txnRouter, result);
        } else {
            invocation->run(opCtx, result);
        }
    }

    auto body = result->getBodyBuilder();
    bool ok = CommandHelpers::extractOrAppendOk(body);
    if (!ok) {
        c->incrementCommandsFailed();

        if (auto txnRouter = TransactionRouter::get(opCtx)) {
            txnRouter->implicitlyAbortTransaction(opCtx);
        }
    }
}

MONGO_FAIL_POINT_DEFINE(doNotRefreshShardsOnRetargettingError);

/**
 * Executes the command for the given request, and appends the result to replyBuilder
 * and error labels, if any, to errorBuilder.
 */
void runCommand(OperationContext* opCtx,
                const OpMsgRequest& request,
                const NetworkOp opType,
                rpc::ReplyBuilderInterface* replyBuilder,
                BSONObjBuilder* errorBuilder) {
    auto const commandName = request.getCommandName();
    auto const command = CommandHelpers::findCommand(commandName);
    if (!command) {
        auto builder = replyBuilder->getBodyBuilder();
        ON_BLOCK_EXIT([opCtx, &builder] { appendRequiredFieldsToResponse(opCtx, &builder); });
        CommandHelpers::appendCommandStatusNoThrow(
            builder,
            {ErrorCodes::CommandNotFound, str::stream() << "no such cmd: " << commandName});
        globalCommandRegistry()->incrementUnknownCommands();
        return;
    }

    CommandHelpers::uassertShouldAttemptParse(opCtx, command, request);

    // Parse the 'maxTimeMS' command option, and use it to set a deadline for the operation on
    // the OperationContext. Be sure to do this as soon as possible so that further processing by
    // subsequent code has the deadline available. The 'maxTimeMS' option unfortunately has a
    // different meaning for a getMore command, where it is used to communicate the maximum time to
    // wait for new inserts on tailable cursors, not as a deadline for the operation.
    // TODO SERVER-34277 Remove the special handling for maxTimeMS for getMores. This will
    // require introducing a new 'max await time' parameter for getMore, and eventually banning
    // maxTimeMS altogether on a getMore command.
    uassert(ErrorCodes::InvalidOptions,
            "no such command option $maxTimeMs; use maxTimeMS instead",
            request.body[QueryRequest::queryOptionMaxTimeMS].eoo());
    const int maxTimeMS = uassertStatusOK(
        QueryRequest::parseMaxTimeMS(request.body[QueryRequest::cmdOptionMaxTimeMS]));
    if (maxTimeMS > 0 && command->getLogicalOp() != LogicalOp::opGetMore) {
        opCtx->setDeadlineAfterNowBy(Milliseconds{maxTimeMS}, ErrorCodes::MaxTimeMSExpired);
    }
    opCtx->checkForInterrupt();  // May trigger maxTimeAlwaysTimeOut fail point.

    auto invocation = command->parse(opCtx, request);

    // Set the logical optype, command object and namespace as soon as we identify the command. If
    // the command does not define a fully-qualified namespace, set CurOp to the generic command
    // namespace db.$cmd.
    std::string ns = invocation->ns().toString();
    auto nss = (request.getDatabase() == ns ? NamespaceString(ns, "$cmd") : NamespaceString(ns));

    // Fill out all currentOp details.
    CurOp::get(opCtx)->setGenericOpRequestDetails(opCtx, nss, command, request.body, opType);

    auto& readConcernArgs = repl::ReadConcernArgs::get(opCtx);
    auto readConcernParseStatus = readConcernArgs.initialize(request.body);
    if (!readConcernParseStatus.isOK()) {
        auto builder = replyBuilder->getBodyBuilder();
        CommandHelpers::appendCommandStatusNoThrow(builder, readConcernParseStatus);
        return;
    }

    if (readConcernArgs.getLevel() == repl::ReadConcernLevel::kSnapshotReadConcern) {
        uassert(ErrorCodes::InvalidOptions,
                str::stream() << "read concern snapshot is not supported on mongos for the command "
                              << commandName,
                invocation->supportsReadConcern(readConcernArgs.getLevel()));
        uassert(ErrorCodes::InvalidOptions,
                "read concern snapshot is not supported with atClusterTime on mongos",
                !readConcernArgs.getArgsAtClusterTime());
    }

    boost::optional<ScopedRouterSession> scopedSession;
    auto osi =
        initializeOperationSessionInfo(opCtx, request.body, command->requiresAuth(), true, true);

    try {
        if (osi && osi->getAutocommit()) {
            scopedSession.emplace(opCtx);

            auto txnRouter = TransactionRouter::get(opCtx);
            invariant(txnRouter);

            auto txnNumber = opCtx->getTxnNumber();
            invariant(txnNumber);

            auto startTxnSetting = osi->getStartTransaction();
            bool startTransaction = startTxnSetting ? *startTxnSetting : false;

            uassertStatusOK(CommandHelpers::canUseTransactions(nss.db(), command->getName()));

            txnRouter->beginOrContinueTxn(opCtx, *txnNumber, startTransaction);
        }

        for (int tries = 0;; ++tries) {
            // Try kMaxNumStaleVersionRetries times. On the last try, exceptions are rethrown.
            bool canRetry = tries < kMaxNumStaleVersionRetries - 1;

            if (tries > 0) {
                // Re-parse before retrying in case the process of run()-ning the
                // invocation could affect the parsed result.
                invocation = command->parse(opCtx, request);
                invariant(invocation->ns().toString() == ns,
                          "unexpected change of namespace when retrying");
            }

            replyBuilder->reset();
            try {
                execCommandClient(opCtx, invocation.get(), request, replyBuilder);
                return;
            } catch (const ExceptionForCat<ErrorCategory::NeedRetargettingError>& ex) {
                const auto staleNs = [&] {
                    if (auto staleInfo = ex.extraInfo<StaleConfigInfo>()) {
                        return staleInfo->getNss();
                    } else if (auto implicitCreateInfo =
                                   ex.extraInfo<CannotImplicitlyCreateCollectionInfo>()) {
                        return implicitCreateInfo->getNss();
                    } else {
                        throw;
                    }
                }();

                // Send setShardVersion on this thread's versioned connections to shards (to support
                // commands that use the legacy (ShardConnection) versioning protocol).
                //
                // Versioned connections are a legacy concept, which is never used from code running
                // under a transaction (see the invariant inside ShardConnection). Because of this,
                // the retargeting error could not have come from a ShardConnection, so we don't
                // need to reset the connection's in-memory state.
                if (!MONGO_FAIL_POINT(doNotRefreshShardsOnRetargettingError) &&
                    !TransactionRouter::get(opCtx)) {
                    ShardConnection::checkMyConnectionVersions(opCtx, staleNs.ns());
                }

                Grid::get(opCtx)->catalogCache()->invalidateShardedCollection(staleNs);

                // Update transaction tracking state for a possible retry. Throws and aborts the
                // transaction if it cannot continue.
                if (auto txnRouter = TransactionRouter::get(opCtx)) {
                    auto abortGuard =
                        MakeGuard([&] { txnRouter->implicitlyAbortTransaction(opCtx); });
                    handleCanRetryInTransaction(opCtx, txnRouter, canRetry, ex);
                    txnRouter->onStaleShardOrDbError(commandName);
                    abortGuard.Dismiss();
                }

                if (canRetry) {
                    continue;
                }
                throw;
            } catch (const ExceptionFor<ErrorCodes::StaleDbVersion>& ex) {
                // Mark database entry in cache as stale.
                Grid::get(opCtx)->catalogCache()->onStaleDatabaseVersion(ex->getDb(),
                                                                         ex->getVersionReceived());

                // Update transaction tracking state for a possible retry. Throws and aborts the
                // transaction if it cannot continue.
                if (auto txnRouter = TransactionRouter::get(opCtx)) {
                    auto abortGuard =
                        MakeGuard([&] { txnRouter->implicitlyAbortTransaction(opCtx); });
                    handleCanRetryInTransaction(opCtx, txnRouter, canRetry, ex);
                    txnRouter->onStaleShardOrDbError(commandName);
                    abortGuard.Dismiss();
                }

                if (canRetry) {
                    continue;
                }
                throw;
            } catch (const ExceptionForCat<ErrorCategory::SnapshotError>& ex) {
                // Simple retry on any type of snapshot error.

                // Update transaction tracking state for a possible retry. Throws and aborts the
                // transaction if it cannot continue.
                if (auto txnRouter = TransactionRouter::get(opCtx)) {
                    auto abortGuard =
                        MakeGuard([&] { txnRouter->implicitlyAbortTransaction(opCtx); });
                    handleCanRetryInTransaction(opCtx, txnRouter, canRetry, ex);
                    txnRouter->onSnapshotError();
                    abortGuard.Dismiss();
                }

                if (canRetry) {
                    continue;
                }
                throw;
            }
            MONGO_UNREACHABLE;
        }
    } catch (const DBException& e) {
        command->incrementCommandsFailed();
        LastError::get(opCtx->getClient()).setLastError(e.code(), e.reason());
        auto errorLabels = getErrorLabels(osi, command->getName(), e.code());
        errorBuilder->appendElements(errorLabels);
        throw;
    }
}

}  // namespace

DbResponse Strategy::queryOp(OperationContext* opCtx, const NamespaceString& nss, DbMessage* dbm) {
    globalOpCounters.gotQuery();

    const QueryMessage q(*dbm);

    const auto upconvertedQuery = upconvertQueryEntry(q.query, nss, q.ntoreturn, q.ntoskip);

    // Set the upconverted query as the CurOp command object.
    CurOp::get(opCtx)->setGenericOpRequestDetails(
        opCtx, nss, nullptr, upconvertedQuery, dbm->msg().operation());

    Client* const client = opCtx->getClient();
    AuthorizationSession* const authSession = AuthorizationSession::get(client);

    Status status = authSession->checkAuthForFind(nss, false);
    audit::logQueryAuthzCheck(client, nss, q.query, status.code());
    uassertStatusOK(status);

    LOG(3) << "query: " << q.ns << " " << redact(q.query) << " ntoreturn: " << q.ntoreturn
           << " options: " << q.queryOptions;

    if (q.queryOptions & QueryOption_Exhaust) {
        uasserted(18526,
                  str::stream() << "The 'exhaust' query option is invalid for mongos queries: "
                                << nss.ns()
                                << " "
                                << q.query.toString());
    }

    // Determine the default read preference mode based on the value of the slaveOk flag.
    const auto defaultReadPref = q.queryOptions & QueryOption_SlaveOk
        ? ReadPreference::SecondaryPreferred
        : ReadPreference::PrimaryOnly;
    ReadPreferenceSetting::get(opCtx) =
        uassertStatusOK(ReadPreferenceSetting::fromContainingBSON(q.query, defaultReadPref));

    const boost::intrusive_ptr<ExpressionContext> expCtx;
    auto canonicalQuery = uassertStatusOK(
        CanonicalQuery::canonicalize(opCtx,
                                     q,
                                     expCtx,
                                     ExtensionsCallbackNoop(),
                                     MatchExpressionParser::kAllowAllSpecialFeatures));

    const QueryRequest& queryRequest = canonicalQuery->getQueryRequest();
    // Handle query option $maxTimeMS (not used with commands).
    if (queryRequest.getMaxTimeMS() > 0) {
        uassert(50749,
                "Illegal attempt to set operation deadline within DBDirectClient",
                !opCtx->getClient()->isInDirectClient());
        opCtx->setDeadlineAfterNowBy(Milliseconds{queryRequest.getMaxTimeMS()},
                                     ErrorCodes::MaxTimeMSExpired);
    }
    opCtx->checkForInterrupt();  // May trigger maxTimeAlwaysTimeOut fail point.

    // If the $explain flag was set, we must run the operation on the shards as an explain command
    // rather than a find command.
    if (queryRequest.isExplain()) {
        const BSONObj findCommand = queryRequest.asFindCommand();

        // We default to allPlansExecution verbosity.
        const auto verbosity = ExplainOptions::Verbosity::kExecAllPlans;

        BSONObjBuilder explainBuilder;
        Strategy::explainFind(opCtx,
                              findCommand,
                              queryRequest,
                              verbosity,
                              ReadPreferenceSetting::get(opCtx),
                              &explainBuilder);

        BSONObj explainObj = explainBuilder.done();
        return replyToQuery(explainObj);
    }

    // Do the work to generate the first batch of results. This blocks waiting to get responses from
    // the shard(s).
    std::vector<BSONObj> batch;

    // 0 means the cursor is exhausted. Otherwise we assume that a cursor with the returned id can
    // be retrieved via the ClusterCursorManager.
    CursorId cursorId;
    try {
        cursorId = ClusterFind::runQuery(
            opCtx, *canonicalQuery, ReadPreferenceSetting::get(opCtx), &batch);
    } catch (const ExceptionFor<ErrorCodes::CommandOnShardedViewNotSupportedOnMongod>&) {
        uasserted(40247, "OP_QUERY not supported on views");
    }

    // Fill out the response buffer.
    int numResults = 0;
    OpQueryReplyBuilder reply;
    for (auto&& obj : batch) {
        obj.appendSelfToBufBuilder(reply.bufBuilderForResults());
        numResults++;
    }

    return DbResponse{reply.toQueryReply(0,  // query result flags
                                         numResults,
                                         0,  // startingFrom
                                         cursorId)};
}

DbResponse Strategy::clientCommand(OperationContext* opCtx, const Message& m) {
    auto reply = rpc::makeReplyBuilder(rpc::protocolForMessage(m));
    BSONObjBuilder errorBuilder;

    bool propagateException = false;

    try {
        // Parse.
        OpMsgRequest request = [&] {
            try {
                return rpc::opMsgRequestFromAnyProtocol(m);
            } catch (const DBException& ex) {
                // If this error needs to fail the connection, propagate it out.
                if (ErrorCodes::isConnectionFatalMessageParseError(ex.code()))
                    propagateException = true;

                LOG(1) << "Exception thrown while parsing command " << causedBy(redact(ex));
                throw;
            }
        }();

        // Execute.
        std::string db = request.getDatabase().toString();
        try {
            LOG(3) << "Command begin db: " << db << " msg id: " << m.header().getId();
            runCommand(opCtx, request, m.operation(), reply.get(), &errorBuilder);
            LOG(3) << "Command end db: " << db << " msg id: " << m.header().getId();
        } catch (const DBException& ex) {
            LOG(1) << "Exception thrown while processing command on " << db
                   << " msg id: " << m.header().getId() << causedBy(redact(ex));

            // Record the exception in CurOp.
            CurOp::get(opCtx)->debug().errInfo = ex.toStatus();
            throw;
        }
    } catch (const DBException& ex) {
        if (propagateException) {
            throw;
        }
        reply->reset();
        auto bob = reply->getBodyBuilder();
        CommandHelpers::appendCommandStatusNoThrow(bob, ex.toStatus());
        appendRequiredFieldsToResponse(opCtx, &bob);
        bob.appendElements(errorBuilder.obj());
    }

    if (OpMsg::isFlagSet(m, OpMsg::kMoreToCome)) {
        return {};  // Don't reply.
    }

    return DbResponse{reply->done()};
}

void Strategy::commandOp(OperationContext* opCtx,
                         const std::string& db,
                         const BSONObj& command,
                         const std::string& versionedNS,
                         const BSONObj& targetingQuery,
                         const BSONObj& targetingCollation,
                         std::vector<CommandResult>* results) {
    QuerySpec qSpec(db + ".$cmd", command, BSONObj(), 0, 1, 0);

    ParallelSortClusteredCursor cursor(
        qSpec, CommandInfo(versionedNS, targetingQuery, targetingCollation));

    // Initialize the cursor
    cursor.init(opCtx);

    std::set<ShardId> shardIds;
    cursor.getQueryShardIds(shardIds);

    for (const ShardId& shardId : shardIds) {
        CommandResult result;
        result.shardTargetId = shardId;

        result.target =
            fassert(34417, ConnectionString::parse(cursor.getShardCursor(shardId)->originalHost()));
        result.result = cursor.getShardCursor(shardId)->peekFirst().getOwned();
        results->push_back(result);
    }
}

DbResponse Strategy::getMore(OperationContext* opCtx, const NamespaceString& nss, DbMessage* dbm) {
    const int ntoreturn = dbm->pullInt();
    uassert(
        34424, str::stream() << "Invalid ntoreturn for OP_GET_MORE: " << ntoreturn, ntoreturn >= 0);
    const long long cursorId = dbm->pullInt64();

    globalOpCounters.gotGetMore();

    // TODO: Handle stale config exceptions here from coll being dropped or sharded during op for
    // now has same semantics as legacy request.

    auto statusGetDb = Grid::get(opCtx)->catalogCache()->getDatabase(opCtx, nss.db());
    if (statusGetDb == ErrorCodes::NamespaceNotFound) {
        return replyToQuery(ResultFlag_CursorNotFound, nullptr, 0, 0);
    }
    uassertStatusOK(statusGetDb);

    boost::optional<std::int64_t> batchSize;
    if (ntoreturn) {
        batchSize = ntoreturn;
    }

    GetMoreRequest getMoreRequest(nss, cursorId, batchSize, boost::none, boost::none, boost::none);

    // Set the upconverted getMore as the CurOp command object.
    CurOp::get(opCtx)->setGenericOpRequestDetails(
        opCtx, nss, nullptr, getMoreRequest.toBSON(), dbm->msg().operation());

    auto cursorResponse = ClusterFind::runGetMore(opCtx, getMoreRequest);
    if (cursorResponse == ErrorCodes::CursorNotFound) {
        return replyToQuery(ResultFlag_CursorNotFound, nullptr, 0, 0);
    }
    uassertStatusOK(cursorResponse.getStatus());

    // Build the response document.
    BufBuilder buffer(FindCommon::kInitReplyBufferSize);

    int numResults = 0;
    for (const auto& obj : cursorResponse.getValue().getBatch()) {
        buffer.appendBuf((void*)obj.objdata(), obj.objsize());
        ++numResults;
    }

    return replyToQuery(0,
                        buffer.buf(),
                        buffer.len(),
                        numResults,
                        cursorResponse.getValue().getNumReturnedSoFar().value_or(0),
                        cursorResponse.getValue().getCursorId());
}

void Strategy::killCursors(OperationContext* opCtx, DbMessage* dbm) {
    const int numCursors = dbm->pullInt();
    massert(34425,
            str::stream() << "Invalid killCursors message. numCursors: " << numCursors
                          << ", message size: "
                          << dbm->msg().dataSize()
                          << ".",
            dbm->msg().dataSize() == 8 + (8 * numCursors));
    uassert(28794,
            str::stream() << "numCursors must be between 1 and 29999.  numCursors: " << numCursors
                          << ".",
            numCursors >= 1 && numCursors < 30000);

    globalOpCounters.gotOp(dbKillCursors, false);

    ConstDataCursor cursors(dbm->getArray(numCursors));

    Client* const client = opCtx->getClient();
    ClusterCursorManager* const manager = Grid::get(opCtx)->getCursorManager();

    for (int i = 0; i < numCursors; ++i) {
        const CursorId cursorId = cursors.readAndAdvance<LittleEndian<int64_t>>();

        boost::optional<NamespaceString> nss = manager->getNamespaceForCursorId(cursorId);
        if (!nss) {
            LOG(3) << "Can't find cursor to kill.  Cursor id: " << cursorId << ".";
            continue;
        }

        auto authzSession = AuthorizationSession::get(client);
        auto authChecker = [&authzSession, &nss](UserNameIterator userNames) -> Status {
            return authzSession->checkAuthForKillCursors(*nss, userNames);
        };
        auto authzStatus = manager->checkAuthForKillCursors(opCtx, *nss, cursorId, authChecker);
        audit::logKillCursorsAuthzCheck(client, *nss, cursorId, authzStatus.code());
        if (!authzStatus.isOK()) {
            LOG(3) << "Not authorized to kill cursor.  Namespace: '" << *nss
                   << "', cursor id: " << cursorId << ".";
            continue;
        }

        Status killCursorStatus = manager->killCursor(opCtx, *nss, cursorId);
        if (!killCursorStatus.isOK()) {
            LOG(3) << "Can't find cursor to kill.  Namespace: '" << *nss
                   << "', cursor id: " << cursorId << ".";
            continue;
        }

        LOG(3) << "Killed cursor.  Namespace: '" << *nss << "', cursor id: " << cursorId << ".";
    }
}

void Strategy::writeOp(OperationContext* opCtx, DbMessage* dbm) {
    const auto& msg = dbm->msg();
    rpc::OpMsgReplyBuilder reply;
    BSONObjBuilder errorBuilder;
    runCommand(opCtx,
               [&]() {
                   switch (msg.operation()) {
                       case dbInsert: {
                           return InsertOp::parseLegacy(msg).serialize({});
                       }
                       case dbUpdate: {
                           return UpdateOp::parseLegacy(msg).serialize({});
                       }
                       case dbDelete: {
                           return DeleteOp::parseLegacy(msg).serialize({});
                       }
                       default:
                           MONGO_UNREACHABLE;
                   }
               }(),
               msg.operation(),
               &reply,
               &errorBuilder);  // built objects are ignored
}

void Strategy::explainFind(OperationContext* opCtx,
                           const BSONObj& findCommand,
                           const QueryRequest& qr,
                           ExplainOptions::Verbosity verbosity,
                           const ReadPreferenceSetting& readPref,
                           BSONObjBuilder* out) {
    const auto explainCmd = ClusterExplain::wrapAsExplain(findCommand, verbosity);

    long long millisElapsed;
    std::vector<AsyncRequestsSender::Response> shardResponses;

    for (int tries = 0;; ++tries) {
        bool canRetry = tries < 4;  // Fifth try (i.e. try #4) is the last one.

        // We will time how long it takes to run the commands on the shards.
        Timer timer;
        try {
            const auto routingInfo = uassertStatusOK(
                Grid::get(opCtx)->catalogCache()->getCollectionRoutingInfo(opCtx, qr.nss()));
            shardResponses =
                scatterGatherVersionedTargetByRoutingTable(opCtx,
                                                           qr.nss().db(),
                                                           qr.nss(),
                                                           routingInfo,
                                                           explainCmd,
                                                           readPref,
                                                           Shard::RetryPolicy::kIdempotent,
                                                           qr.getFilter(),
                                                           qr.getCollation());
            millisElapsed = timer.millis();
            break;
        } catch (const ExceptionForCat<ErrorCategory::NeedRetargettingError>& ex) {
            const auto staleNs = [&] {
                if (auto staleInfo = ex.extraInfo<StaleConfigInfo>()) {
                    return staleInfo->getNss();
                } else if (auto implicitCreateInfo =
                               ex.extraInfo<CannotImplicitlyCreateCollectionInfo>()) {
                    return implicitCreateInfo->getNss();
                } else {
                    throw;
                }
            }();

            // Send setShardVersion on this thread's versioned connections to shards (to support
            // commands that use the legacy (ShardConnection) versioning protocol).
            //
            // Versioned connections are a legacy concept, which is never used from code running
            // under a transaction (see the invariant inside ShardConnection). Because of this, the
            // retargeting error could not have come from a ShardConnection, so we don't need to
            // reset the connection's in-memory state.
            if (!MONGO_FAIL_POINT(doNotRefreshShardsOnRetargettingError) &&
                !TransactionRouter::get(opCtx)) {
                ShardConnection::checkMyConnectionVersions(opCtx, staleNs.ns());
            }

            Grid::get(opCtx)->catalogCache()->invalidateShardedCollection(staleNs);

            if (canRetry) {
                continue;
            }
            throw;
        } catch (const ExceptionFor<ErrorCodes::StaleDbVersion>& ex) {
            // Mark database entry in cache as stale.
            Grid::get(opCtx)->catalogCache()->onStaleDatabaseVersion(ex->getDb(),
                                                                     ex->getVersionReceived());
            if (canRetry) {
                continue;
            }
            throw;
        } catch (const ExceptionForCat<ErrorCategory::SnapshotError>&) {
            // Simple retry on any type of snapshot error.
            if (canRetry) {
                continue;
            }
            throw;
        }
    }

    const char* mongosStageName =
        ClusterExplain::getStageNameForReadOp(shardResponses.size(), findCommand);

    uassertStatusOK(
        ClusterExplain::buildExplainResult(opCtx,
                                           ClusterExplain::downconvert(opCtx, shardResponses),
                                           mongosStageName,
                                           millisElapsed,
                                           out));
}
}  // namespace mongo