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|
/**
* Copyright (C) 2018-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* 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
* Server Side Public License for more details.
*
* 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>.
*
* 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 Server Side 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_LOGV2_DEFAULT_COMPONENT ::mongo::logv2::LogComponent::kSharding
#include "mongo/platform/basic.h"
#include "mongo/s/commands/strategy.h"
#include <fmt/format.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_checks.h"
#include "mongo/db/auth/authorization_session.h"
#include "mongo/db/commands.h"
#include "mongo/db/curop.h"
#include "mongo/db/error_labels.h"
#include "mongo/db/initialize_api_parameters.h"
#include "mongo/db/initialize_operation_session_info.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/not_primary_error_tracker.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_command_gen.h"
#include "mongo/db/query/query_request_helper.h"
#include "mongo/db/read_write_concern_defaults.h"
#include "mongo/db/repl/repl_server_parameters_gen.h"
#include "mongo/db/stats/api_version_metrics.h"
#include "mongo/db/stats/counters.h"
#include "mongo/db/transaction_validation.h"
#include "mongo/db/vector_clock.h"
#include "mongo/db/views/resolved_view.h"
#include "mongo/db/write_concern_options.h"
#include "mongo/logv2/log.h"
#include "mongo/rpc/factory.h"
#include "mongo/rpc/get_status_from_command_result.h"
#include "mongo/rpc/metadata/client_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/rpc/rewrite_state_change_errors.h"
#include "mongo/rpc/warn_deprecated_wire_ops.h"
#include "mongo/s/catalog_cache.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/load_balancer_support.h"
#include "mongo/s/mongos_topology_coordinator.h"
#include "mongo/s/query/cluster_cursor_manager.h"
#include "mongo/s/query/cluster_find.h"
#include "mongo/s/session_catalog_router.h"
#include "mongo/s/shard_invalidated_for_targeting_exception.h"
#include "mongo/s/stale_exception.h"
#include "mongo/s/transaction_router.h"
#include "mongo/transport/hello_metrics.h"
#include "mongo/transport/service_executor.h"
#include "mongo/transport/session.h"
#include "mongo/util/fail_point.h"
#include "mongo/util/future_util.h"
#include "mongo/util/scopeguard.h"
#include "mongo/util/str.h"
#include "mongo/util/timer.h"
namespace mongo {
namespace {
MONGO_FAIL_POINT_DEFINE(hangBeforeCheckingMongosShutdownInterrupt);
const auto kOperationTime = "operationTime"_sd;
/**
* Invoking `shouldGossipLogicalTime()` is expected to always return "true" during normal execution.
* SERVER-48013 uses this property to avoid the cost of calling this function during normal
* execution. However, it might be desired to do the validation for test purposes (e.g.,
* unit-tests). This fail-point allows going through a code path that does the check and quick
* returns from `appendRequiredFieldsToResponse()` if `shouldGossipLogicalTime()` returns "false".
* TODO SERVER-48142 should remove the following fail-point.
*/
MONGO_FAIL_POINT_DEFINE(allowSkippingAppendRequiredFieldsToResponse);
Future<void> runCommandInvocation(std::shared_ptr<RequestExecutionContext> rec,
std::shared_ptr<CommandInvocation> invocation) {
auto threadingModel = [client = rec->getOpCtx()->getClient()] {
if (auto context = transport::ServiceExecutorContext::get(client); context) {
return context->getThreadingModel();
}
tassert(5453902,
"Threading model may only be absent for internal and direct clients",
!client->hasRemote() || client->isInDirectClient());
return transport::ServiceExecutor::ThreadingModel::kDedicated;
}();
return CommandHelpers::runCommandInvocation(
std::move(rec), std::move(invocation), threadingModel);
}
/**
* Append required fields to command response.
*/
void appendRequiredFieldsToResponse(OperationContext* opCtx, BSONObjBuilder* responseBuilder) {
// TODO SERVER-48142 should remove the following block.
if (MONGO_unlikely(allowSkippingAppendRequiredFieldsToResponse.shouldFail())) {
auto validator = LogicalTimeValidator::get(opCtx);
if (!validator->shouldGossipLogicalTime()) {
LOGV2_DEBUG(4801301, 3, "Skipped gossiping logical time");
return;
}
}
// The appended operationTime must always be <= the appended $clusterTime, so in case we need to
// use $clusterTime as the operationTime below, take a $clusterTime value which is guaranteed to
// be <= the value output by gossipOut().
const auto currentTime = VectorClock::get(opCtx)->getTime();
const auto clusterTime = currentTime.clusterTime();
bool clusterTimeWasOutput = VectorClock::get(opCtx)->gossipOut(opCtx, responseBuilder);
// Ensure that either both operationTime and $clusterTime are output, or neither.
if (clusterTimeWasOutput) {
auto operationTime = OperationTimeTracker::get(opCtx)->getMaxOperationTime();
if (VectorClock::isValidComponentTime(operationTime)) {
LOGV2_DEBUG(22764,
5,
"Appending operationTime: {operationTime}",
"Appending operationTime",
"operationTime"_attr = operationTime.asTimestamp());
operationTime.appendAsOperationTime(responseBuilder);
} else if (VectorClock::isValidComponentTime(clusterTime)) {
// 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.
LOGV2_DEBUG(22765,
5,
"Appending clusterTime as operationTime {clusterTime}",
"Appending clusterTime as operationTime",
"clusterTime"_attr = clusterTime.asTimestamp());
clusterTime.appendAsOperationTime(responseBuilder);
}
}
}
/**
* Invokes the given command and aborts the transaction on any non-retryable errors.
*/
Future<void> invokeInTransactionRouter(std::shared_ptr<RequestExecutionContext> rec,
std::shared_ptr<CommandInvocation> invocation) {
auto opCtx = rec->getOpCtx();
auto txnRouter = TransactionRouter::get(opCtx);
invariant(txnRouter);
// No-op if the transaction is not running with snapshot read concern.
txnRouter.setDefaultAtClusterTime(opCtx);
return runCommandInvocation(rec, std::move(invocation))
.tapError([rec = std::move(rec)](Status status) {
if (auto code = status.code(); ErrorCodes::isSnapshotError(code) ||
ErrorCodes::isNeedRetargettingError(code) ||
code == ErrorCodes::ShardInvalidatedForTargeting ||
code == ErrorCodes::StaleDbVersion ||
code == ErrorCodes::ShardCannotRefreshDueToLocksHeld ||
code == ErrorCodes::WouldChangeOwningShard) {
// Don't abort on possibly retryable errors.
return;
}
auto opCtx = rec->getOpCtx();
// Abort if the router wasn't yielded, which may happen at global shutdown.
if (auto txnRouter = TransactionRouter::get(opCtx)) {
txnRouter.implicitlyAbortTransaction(opCtx, status);
}
});
}
/**
* Adds info from the active transaction and the given reason as context to the active exception.
*/
void addContextForTransactionAbortingError(StringData txnIdAsString,
StmtId latestStmtId,
Status& status,
StringData reason) {
status.addContext("Transaction {} was aborted on statement {} due to: {}"_format(
txnIdAsString, latestStmtId, reason));
}
// Factory class to construct a future-chain that executes the invocation against the database.
class ExecCommandClient final {
public:
ExecCommandClient(ExecCommandClient&&) = delete;
ExecCommandClient(const ExecCommandClient&) = delete;
ExecCommandClient(std::shared_ptr<RequestExecutionContext> rec,
std::shared_ptr<CommandInvocation> invocation)
: _rec(std::move(rec)), _invocation(std::move(invocation)) {}
Future<void> run();
private:
// Prepare the environment for running the invocation (e.g., checking authorization).
void _prologue();
// Returns a future that runs the command invocation.
Future<void> _run();
// Any logic that must be done post command execution, unless an exception is thrown.
void _epilogue();
// Runs at the end of the future-chain returned by `run()` unless an exception, other than
// `ErrorCodes::SkipCommandExecution`, is thrown earlier.
void _onCompletion();
const std::shared_ptr<RequestExecutionContext> _rec;
const std::shared_ptr<CommandInvocation> _invocation;
};
void ExecCommandClient::_prologue() {
auto opCtx = _rec->getOpCtx();
auto result = _rec->getReplyBuilder();
const auto& request = _rec->getRequest();
const Command* c = _invocation->definition();
const auto dbname = request.getDatabase();
uassert(ErrorCodes::IllegalOperation,
"Can't use 'local' database through mongos",
dbname != NamespaceString::kLocalDb);
uassert(ErrorCodes::InvalidNamespace,
"Invalid database name: '{}'"_format(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()) {
auto body = result->getBodyBuilder();
body.append("help", "help for: {} {}"_format(c->getName(), c->help()));
CommandHelpers::appendSimpleCommandStatus(body, true, "");
iassert(Status(ErrorCodes::SkipCommandExecution, "Already served help command"));
}
uassert(ErrorCodes::FailedToParse,
"Parsed command object contains duplicate top level key: {}"_format(fieldName),
topLevelFields[fieldName]++ == 0);
}
try {
_invocation->checkAuthorization(opCtx, request);
} catch (const DBException& e) {
auto body = result->getBodyBuilder();
CommandHelpers::appendCommandStatusNoThrow(body, e.toStatus());
iassert(Status(ErrorCodes::SkipCommandExecution, "Failed to check authorization"));
}
// attach tracking
rpc::TrackingMetadata trackingMetadata;
trackingMetadata.initWithOperName(c->getName());
rpc::TrackingMetadata::get(opCtx) = trackingMetadata;
// Extract and process metadata from the command request body.
ReadPreferenceSetting::get(opCtx) =
uassertStatusOK(ReadPreferenceSetting::fromContainingBSON(request.body));
VectorClock::get(opCtx)->gossipIn(opCtx, request.body, !c->requiresAuth());
}
Future<void> ExecCommandClient::_run() {
OperationContext* opCtx = _rec->getOpCtx();
if (auto txnRouter = TransactionRouter::get(opCtx); txnRouter) {
return invokeInTransactionRouter(_rec, _invocation);
} else {
return runCommandInvocation(_rec, _invocation);
}
}
void ExecCommandClient::_epilogue() {
auto opCtx = _rec->getOpCtx();
auto result = _rec->getReplyBuilder();
if (_invocation->supportsWriteConcern()) {
failCommand.executeIf(
[&](const BSONObj& data) {
rpc::RewriteStateChangeErrors::onActiveFailCommand(opCtx, data);
result->getBodyBuilder().append(data["writeConcernError"]);
if (data.hasField(kErrorLabelsFieldName) &&
data[kErrorLabelsFieldName].type() == Array) {
auto labels = data.getObjectField(kErrorLabelsFieldName).getOwned();
if (!labels.isEmpty()) {
result->getBodyBuilder().append(kErrorLabelsFieldName, BSONArray(labels));
}
}
},
[&](const BSONObj& data) {
return CommandHelpers::shouldActivateFailCommandFailPoint(
data, _invocation.get(), opCtx->getClient()) &&
data.hasField("writeConcernError");
});
}
auto body = result->getBodyBuilder();
if (bool ok = CommandHelpers::extractOrAppendOk(body); !ok) {
const Command* c = _invocation->definition();
c->incrementCommandsFailed();
if (auto txnRouter = TransactionRouter::get(opCtx)) {
txnRouter.implicitlyAbortTransaction(opCtx,
getStatusFromCommandResult(body.asTempObj()));
}
}
}
void ExecCommandClient::_onCompletion() {
auto opCtx = _rec->getOpCtx();
auto body = _rec->getReplyBuilder()->getBodyBuilder();
appendRequiredFieldsToResponse(opCtx, &body);
auto seCtx = transport::ServiceExecutorContext::get(opCtx->getClient());
if (!seCtx) {
// We were run by a background worker.
return;
}
if (!_invocation->isSafeForBorrowedThreads()) {
// If the last command wasn't safe for a borrowed thread, then let's move
// off of it.
seCtx->setThreadingModel(transport::ServiceExecutor::ThreadingModel::kDedicated);
}
}
Future<void> ExecCommandClient::run() {
return makeReadyFutureWith([&] {
_prologue();
return _run();
})
.then([this] { _epilogue(); })
.onCompletion([this](Status status) {
if (!status.isOK() && status.code() != ErrorCodes::SkipCommandExecution)
return status; // Execution was interrupted due to an error.
_onCompletion();
return Status::OK();
});
}
MONGO_FAIL_POINT_DEFINE(doNotRefreshShardsOnRetargettingError);
/**
* Produces a future-chain that parses the command, runs the parsed command, and captures the result
* in replyBuilder.
*/
class ParseAndRunCommand final {
public:
ParseAndRunCommand(const ParseAndRunCommand&) = delete;
ParseAndRunCommand(ParseAndRunCommand&&) = delete;
ParseAndRunCommand(std::shared_ptr<RequestExecutionContext> rec,
std::shared_ptr<BSONObjBuilder> errorBuilder)
: _rec(std::move(rec)),
_errorBuilder(std::move(errorBuilder)),
_opType(_rec->getMessage().operation()),
_commandName(_rec->getRequest().getCommandName()) {}
Future<void> run();
private:
class RunInvocation;
class RunAndRetry;
// Prepares the environment for running the command (e.g., parsing the command to produce the
// invocation and extracting read/write concerns).
void _parseCommand();
// updates statistics and applies labels if an error occurs.
void _updateStatsAndApplyErrorLabels(const Status& status);
const std::shared_ptr<RequestExecutionContext> _rec;
const std::shared_ptr<BSONObjBuilder> _errorBuilder;
const NetworkOp _opType;
const StringData _commandName;
std::shared_ptr<CommandInvocation> _invocation;
boost::optional<std::string> _ns;
boost::optional<OperationSessionInfoFromClient> _osi;
boost::optional<WriteConcernOptions> _wc;
boost::optional<bool> _isHello;
};
/*
* Produces a future-chain to run the invocation and capture the result in replyBuilder.
*/
class ParseAndRunCommand::RunInvocation final {
public:
RunInvocation(RunInvocation&&) = delete;
RunInvocation(const RunInvocation&) = delete;
explicit RunInvocation(ParseAndRunCommand* parc) : _parc(parc) {}
~RunInvocation() {
if (!_shouldAffectCommandCounter)
return;
auto opCtx = _parc->_rec->getOpCtx();
Grid::get(opCtx)->catalogCache()->checkAndRecordOperationBlockedByRefresh(
opCtx, mongo::LogicalOp::opCommand);
}
Future<void> run();
private:
Status _setup();
ParseAndRunCommand* const _parc;
boost::optional<RouterOperationContextSession> _routerSession;
bool _shouldAffectCommandCounter = false;
};
/*
* Produces a future-chain that runs the invocation and retries if necessary.
*/
class ParseAndRunCommand::RunAndRetry final {
public:
RunAndRetry(RunAndRetry&&) = delete;
RunAndRetry(const RunAndRetry&) = delete;
explicit RunAndRetry(ParseAndRunCommand* parc) : _parc(parc) {}
Future<void> run();
private:
bool _canRetry() const {
return _tries < kMaxNumStaleVersionRetries;
}
// Sets up the environment for running the invocation, and clears the state from the last try.
void _setup();
Future<void> _run();
// Exception handler for error codes that may trigger a retry. All methods will throw `status`
// unless an attempt to retry is possible.
void _checkRetryForTransaction(Status& status);
void _onShardInvalidatedForTargeting(Status& status);
void _onNeedRetargetting(Status& status);
void _onStaleDbVersion(Status& status);
void _onSnapshotError(Status& status);
void _onShardCannotRefreshDueToLocksHeldError(Status& status);
void _onTenantMigrationAborted(Status& status);
ParseAndRunCommand* const _parc;
int _tries = 0;
};
void ParseAndRunCommand::_updateStatsAndApplyErrorLabels(const Status& status) {
auto opCtx = _rec->getOpCtx();
const auto command = _rec->getCommand();
if (command)
command->incrementCommandsFailed();
NotPrimaryErrorTracker::get(opCtx->getClient()).recordError(status.code());
// WriteConcern error (wcCode) is set to boost::none because:
// 1. TransientTransaction error label handling for commitTransaction command in mongos is
// delegated to the shards. Mongos simply propagates the shard's response up to the client.
// 2. For other commands in a transaction, they shouldn't get a writeConcern error so this
// setting doesn't apply.
if (_osi.has_value()) {
auto errorLabels = getErrorLabels(opCtx,
*_osi,
command->getName(),
status.code(),
boost::none,
false /* isInternalClient */,
true /* isMongos */);
_errorBuilder->appendElements(errorLabels);
}
}
void ParseAndRunCommand::_parseCommand() {
auto opCtx = _rec->getOpCtx();
const auto& m = _rec->getMessage();
const auto& request = _rec->getRequest();
auto replyBuilder = _rec->getReplyBuilder();
auto const command = CommandHelpers::findCommand(_commandName);
if (!command) {
const std::string errorMsg = "no such cmd: {}"_format(_commandName);
auto builder = replyBuilder->getBodyBuilder();
CommandHelpers::appendCommandStatusNoThrow(builder,
{ErrorCodes::CommandNotFound, errorMsg});
globalCommandRegistry()->incrementUnknownCommands();
appendRequiredFieldsToResponse(opCtx, &builder);
iassert(Status(ErrorCodes::SkipCommandExecution, errorMsg));
}
_rec->setCommand(command);
_isHello.emplace(command->getName() == "hello"_sd || command->getName() == "isMaster"_sd);
opCtx->setExhaust(OpMsg::isFlagSet(m, OpMsg::kExhaustSupported));
Client* client = opCtx->getClient();
const auto session = client->session();
if (session) {
if (!opCtx->isExhaust() || !_isHello.get()) {
InExhaustHello::get(session.get())->setInExhaust(false, _commandName);
}
}
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 $maxTimeMs; use maxTimeMS instead",
request.body[query_request_helper::queryOptionMaxTimeMS].eoo());
// If the command includes a 'comment' field, set it on the current OpCtx.
if (auto commentField = request.body["comment"]) {
stdx::lock_guard<Client> lk(*client);
opCtx->setComment(commentField.wrap());
}
auto const apiParamsFromClient = initializeAPIParameters(request.body, command);
{
// We must obtain the client lock to set APIParameters on the operation context, as it may
// be concurrently read by CurrentOp.
stdx::lock_guard<Client> lk(*client);
APIParameters::get(opCtx) = APIParameters::fromClient(apiParamsFromClient);
}
_invocation = command->parse(opCtx, request);
CommandInvocation::set(opCtx, _invocation);
// Set the logical optype, command object and namespace as soon as we identify the command. If
// the command does not define a fully-qualified namespace, set CurOp to the generic command
// namespace db.$cmd.
_ns.emplace(_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);
_osi.emplace(initializeOperationSessionInfo(opCtx,
request.body,
command->requiresAuth(),
command->attachLogicalSessionsToOpCtx(),
true));
// TODO SERVER-28756: Change allowTransactionsOnConfigDatabase to true once we fix the bug
// where the mongos custom write path incorrectly drops the client's txnNumber.
auto allowTransactionsOnConfigDatabase = false;
validateSessionOptions(*_osi, command->getName(), nss, allowTransactionsOnConfigDatabase);
_wc.emplace(uassertStatusOK(WriteConcernOptions::extractWCFromCommand(request.body)));
auto& readConcernArgs = repl::ReadConcernArgs::get(opCtx);
Status readConcernParseStatus = Status::OK();
{
// We must obtain the client lock to set ReadConcernArgs on the operation context, as it may
// be concurrently read by CurrentOp.
stdx::lock_guard<Client> lk(*client);
readConcernParseStatus = readConcernArgs.initialize(request.body);
}
if (!readConcernParseStatus.isOK()) {
auto builder = replyBuilder->getBodyBuilder();
CommandHelpers::appendCommandStatusNoThrow(builder, readConcernParseStatus);
iassert(Status(ErrorCodes::SkipCommandExecution, "Failed to parse read concern"));
}
}
Status ParseAndRunCommand::RunInvocation::_setup() {
auto invocation = _parc->_invocation;
auto opCtx = _parc->_rec->getOpCtx();
auto command = _parc->_rec->getCommand();
const auto& request = _parc->_rec->getRequest();
auto replyBuilder = _parc->_rec->getReplyBuilder();
const int maxTimeMS =
uassertStatusOK(parseMaxTimeMS(request.body[query_request_helper::cmdOptionMaxTimeMS]));
if (maxTimeMS > 0 && command->getLogicalOp() != LogicalOp::opGetMore) {
opCtx->setDeadlineAfterNowBy(Milliseconds{maxTimeMS}, ErrorCodes::MaxTimeMSExpired);
}
if (MONGO_unlikely(
hangBeforeCheckingMongosShutdownInterrupt.shouldFail([&](const BSONObj& data) {
if (data.hasField("cmdName") && data.hasField("ns")) {
std::string cmdNS = _parc->_ns.get();
return ((data.getStringField("cmdName") == _parc->_commandName) &&
(data.getStringField("ns") == cmdNS));
}
return false;
}))) {
LOGV2(6217501, "Hanging before hangBeforeCheckingMongosShutdownInterrupt is cancelled");
hangBeforeCheckingMongosShutdownInterrupt.pauseWhileSet();
}
opCtx->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point.
auto appendStatusToReplyAndSkipCommandExecution = [replyBuilder](Status status) -> Status {
auto responseBuilder = replyBuilder->getBodyBuilder();
CommandHelpers::appendCommandStatusNoThrow(responseBuilder, status);
return Status(ErrorCodes::SkipCommandExecution, status.reason());
};
if (_parc->_isHello.get()) {
// Preload generic ClientMetadata ahead of our first hello request. After the first
// request, metaElement should always be empty.
auto metaElem = request.body[kMetadataDocumentName];
ClientMetadata::setFromMetadata(opCtx->getClient(), metaElem);
}
enforceRequireAPIVersion(opCtx, command);
auto& apiParams = APIParameters::get(opCtx);
auto& apiVersionMetrics = APIVersionMetrics::get(opCtx->getServiceContext());
if (auto clientMetadata = ClientMetadata::get(opCtx->getClient())) {
auto appName = clientMetadata->getApplicationName().toString();
apiVersionMetrics.update(appName, apiParams);
}
rpc::readRequestMetadata(opCtx, request, command->requiresAuth());
CommandHelpers::evaluateFailCommandFailPoint(opCtx, invocation.get());
bool startTransaction = false;
if (_parc->_osi->getAutocommit()) {
_routerSession.emplace(opCtx);
load_balancer_support::setMruSession(opCtx->getClient(), *opCtx->getLogicalSessionId());
auto txnRouter = TransactionRouter::get(opCtx);
invariant(txnRouter);
auto txnNumber = opCtx->getTxnNumber();
invariant(txnNumber);
auto transactionAction = ([&] {
auto startTxnSetting = _parc->_osi->getStartTransaction();
if (startTxnSetting && *startTxnSetting) {
return TransactionRouter::TransactionActions::kStart;
}
if (command->getName() == CommitTransaction::kCommandName) {
return TransactionRouter::TransactionActions::kCommit;
}
return TransactionRouter::TransactionActions::kContinue;
})();
startTransaction = (transactionAction == TransactionRouter::TransactionActions::kStart);
txnRouter.beginOrContinueTxn(opCtx, *txnNumber, transactionAction);
}
bool supportsWriteConcern = invocation->supportsWriteConcern();
if (!supportsWriteConcern && request.body.hasField(WriteConcernOptions::kWriteConcernField)) {
// This command doesn't do writes so it should not be passed a writeConcern.
const auto errorMsg = "Command does not support writeConcern";
return appendStatusToReplyAndSkipCommandExecution({ErrorCodes::InvalidOptions, errorMsg});
}
// This is the WC extracted from the command object, so the CWWC or implicit default hasn't been
// applied yet, which is why "usedDefaultConstructedWC" flag can be used an indicator of whether
// the client supplied a WC or not.
bool clientSuppliedWriteConcern = !_parc->_wc->usedDefaultConstructedWC;
bool customDefaultWriteConcernWasApplied = false;
bool isInternalClient =
(opCtx->getClient()->session() &&
(opCtx->getClient()->session()->getTags() & transport::Session::kInternalClient));
if (supportsWriteConcern && !clientSuppliedWriteConcern &&
(!TransactionRouter::get(opCtx) || isTransactionCommand(_parc->_commandName)) &&
!opCtx->getClient()->isInDirectClient()) {
if (isInternalClient) {
uassert(
5569900,
"received command without explicit writeConcern on an internalClient connection {}"_format(
redact(request.body.toString())),
request.body.hasField(WriteConcernOptions::kWriteConcernField));
} else {
// This command is not from a DBDirectClient or internal client, and supports WC, but
// wasn't given one - so apply the default, if there is one.
const auto rwcDefaults =
ReadWriteConcernDefaults::get(opCtx->getServiceContext()).getDefault(opCtx);
if (const auto wcDefault = rwcDefaults.getDefaultWriteConcern()) {
_parc->_wc = *wcDefault;
const auto defaultWriteConcernSource = rwcDefaults.getDefaultWriteConcernSource();
customDefaultWriteConcernWasApplied = defaultWriteConcernSource &&
defaultWriteConcernSource == DefaultWriteConcernSourceEnum::kGlobal;
LOGV2_DEBUG(22766,
2,
"Applying default writeConcern on {command} of {writeConcern}",
"Applying default writeConcern on command",
"command"_attr = request.getCommandName(),
"writeConcern"_attr = *wcDefault);
}
}
}
if (TransactionRouter::get(opCtx)) {
validateWriteConcernForTransaction(*_parc->_wc, _parc->_commandName);
}
if (supportsWriteConcern) {
auto& provenance = _parc->_wc->getProvenance();
// ClientSupplied is the only provenance that clients are allowed to pass to mongos.
if (provenance.hasSource() && !provenance.isClientSupplied()) {
const auto errorMsg = "writeConcern provenance must be unset or \"{}\""_format(
ReadWriteConcernProvenance::kClientSupplied);
return appendStatusToReplyAndSkipCommandExecution(
{ErrorCodes::InvalidOptions, errorMsg});
}
// If the client didn't provide a provenance, then an appropriate value needs to be
// determined.
if (!provenance.hasSource()) {
if (clientSuppliedWriteConcern) {
provenance.setSource(ReadWriteConcernProvenance::Source::clientSupplied);
} else if (customDefaultWriteConcernWasApplied) {
provenance.setSource(ReadWriteConcernProvenance::Source::customDefault);
} else if (opCtx->getClient()->isInDirectClient() || isInternalClient) {
provenance.setSource(ReadWriteConcernProvenance::Source::internalWriteDefault);
} else {
provenance.setSource(ReadWriteConcernProvenance::Source::implicitDefault);
}
}
// Ensure that the WC being set on the opCtx has provenance.
invariant(_parc->_wc->getProvenance().hasSource(),
"unexpected unset provenance on writeConcern: {}"_format(
_parc->_wc->toBSON().toString()));
opCtx->setWriteConcern(*_parc->_wc);
}
auto& readConcernArgs = repl::ReadConcernArgs::get(opCtx);
bool clientSuppliedReadConcern = readConcernArgs.isSpecified();
bool customDefaultReadConcernWasApplied = false;
auto readConcernSupport = invocation->supportsReadConcern(readConcernArgs.getLevel(),
readConcernArgs.isImplicitDefault());
auto applyDefaultReadConcern = [&](const repl::ReadConcernArgs rcDefault) -> void {
// We must obtain the client lock to set ReadConcernArgs, because it's an
// in-place reference to the object on the operation context, which may be
// concurrently used elsewhere (eg. read by currentOp).
stdx::lock_guard<Client> lk(*opCtx->getClient());
LOGV2_DEBUG(22767,
2,
"Applying default readConcern on {command} of {readConcern}",
"Applying default readConcern on command",
"command"_attr = invocation->definition()->getName(),
"readConcern"_attr = rcDefault);
readConcernArgs = std::move(rcDefault);
// Update the readConcernSupport, since the default RC was applied.
readConcernSupport = invocation->supportsReadConcern(readConcernArgs.getLevel(),
!customDefaultReadConcernWasApplied);
};
auto shouldApplyDefaults = startTransaction || !TransactionRouter::get(opCtx);
if (readConcernSupport.defaultReadConcernPermit.isOK() && shouldApplyDefaults) {
if (readConcernArgs.isEmpty()) {
const auto rwcDefaults =
ReadWriteConcernDefaults::get(opCtx->getServiceContext()).getDefault(opCtx);
const auto rcDefault = rwcDefaults.getDefaultReadConcern();
if (rcDefault) {
const auto readConcernSource = rwcDefaults.getDefaultReadConcernSource();
customDefaultReadConcernWasApplied =
(readConcernSource &&
readConcernSource.get() == DefaultReadConcernSourceEnum::kGlobal);
applyDefaultReadConcern(*rcDefault);
}
}
}
// Apply the implicit default read concern even if the command does not support a cluster wide
// read concern.
if (!readConcernSupport.defaultReadConcernPermit.isOK() &&
readConcernSupport.implicitDefaultReadConcernPermit.isOK() && shouldApplyDefaults &&
readConcernArgs.isEmpty()) {
const auto rcDefault = ReadWriteConcernDefaults::get(opCtx->getServiceContext())
.getImplicitDefaultReadConcern();
applyDefaultReadConcern(rcDefault);
}
auto& provenance = readConcernArgs.getProvenance();
// ClientSupplied is the only provenance that clients are allowed to pass to mongos.
if (provenance.hasSource() && !provenance.isClientSupplied()) {
const auto errorMsg = "readConcern provenance must be unset or \"{}\""_format(
ReadWriteConcernProvenance::kClientSupplied);
return appendStatusToReplyAndSkipCommandExecution({ErrorCodes::InvalidOptions, errorMsg});
}
// If the client didn't provide a provenance, then an appropriate value needs to be determined.
if (!provenance.hasSource()) {
// We must obtain the client lock to set the provenance of the opCtx's ReadConcernArgs as it
// may be concurrently read by CurrentOp.
stdx::lock_guard<Client> lk(*opCtx->getClient());
if (clientSuppliedReadConcern) {
provenance.setSource(ReadWriteConcernProvenance::Source::clientSupplied);
} else if (customDefaultReadConcernWasApplied) {
provenance.setSource(ReadWriteConcernProvenance::Source::customDefault);
} else {
provenance.setSource(ReadWriteConcernProvenance::Source::implicitDefault);
}
}
// Ensure that the RC on the opCtx has provenance.
invariant(readConcernArgs.getProvenance().hasSource(),
"unexpected unset provenance on readConcern: {}"_format(
readConcernArgs.toBSONInner().toString()));
// If we are starting a transaction, we only need to check whether the read concern is
// appropriate for running a transaction. There is no need to check whether the specific command
// supports the read concern, because all commands that are allowed to run in a transaction must
// support all applicable read concerns.
if (startTransaction) {
if (!isReadConcernLevelAllowedInTransaction(readConcernArgs.getLevel())) {
const auto errorMsg =
"The readConcern level must be either 'local' (default), 'majority' or "
"'snapshot' in order to run in a transaction";
return appendStatusToReplyAndSkipCommandExecution(
{ErrorCodes::InvalidOptions, errorMsg});
}
if (readConcernArgs.getArgsOpTime()) {
const std::string errorMsg =
"The readConcern cannot specify '{}' in a transaction"_format(
repl::ReadConcernArgs::kAfterOpTimeFieldName);
return appendStatusToReplyAndSkipCommandExecution(
{ErrorCodes::InvalidOptions, errorMsg});
}
}
// Otherwise, if there is a read concern present - either user-specified or the default - then
// check whether the command supports it. If there is no explicit read concern level, then it is
// implicitly "local". There is no need to check whether this is supported, because all commands
// either support "local" or upconvert the absent readConcern to a stronger level that they do
// support; e.g. $changeStream upconverts to RC "majority".
//
// Individual transaction statements are checked later on, after we've unstashed the transaction
// resources.
if (!TransactionRouter::get(opCtx) && readConcernArgs.hasLevel()) {
if (!readConcernSupport.readConcernSupport.isOK()) {
const std::string errorMsg = "Command {} does not support {}"_format(
invocation->definition()->getName(), readConcernArgs.toString());
return appendStatusToReplyAndSkipCommandExecution(
readConcernSupport.readConcernSupport.withContext(errorMsg));
}
}
// Remember whether or not this operation is starting a transaction, in case something later in
// the execution needs to adjust its behavior based on this.
opCtx->setIsStartingMultiDocumentTransaction(startTransaction);
command->incrementCommandsExecuted();
if (command->shouldAffectCommandCounter()) {
globalOpCounters.gotCommand();
_shouldAffectCommandCounter = true;
}
return Status::OK();
}
void ParseAndRunCommand::RunAndRetry::_setup() {
auto opCtx = _parc->_rec->getOpCtx();
const auto command = _parc->_rec->getCommand();
const auto& request = _parc->_rec->getRequest();
auto& readConcernArgs = repl::ReadConcernArgs::get(opCtx);
if (_tries > 1) {
// Re-parse before retrying in case the process of run()-ning the invocation could
// affect the parsed result.
_parc->_invocation = command->parse(opCtx, request);
invariant(_parc->_invocation->ns().toString() == _parc->_ns,
"unexpected change of namespace when retrying");
}
// On each try, select the latest known clusterTime as the atClusterTime for snapshot reads
// outside of transactions.
if (readConcernArgs.getLevel() == repl::ReadConcernLevel::kSnapshotReadConcern &&
!TransactionRouter::get(opCtx) &&
(!readConcernArgs.getArgsAtClusterTime() || readConcernArgs.wasAtClusterTimeSelected())) {
auto atClusterTime = [](OperationContext* opCtx, repl::ReadConcernArgs& readConcernArgs) {
const auto latestKnownTime = VectorClock::get(opCtx)->getTime();
// Choose a time after the user-supplied afterClusterTime.
auto afterClusterTime = readConcernArgs.getArgsAfterClusterTime();
if (afterClusterTime && *afterClusterTime > latestKnownTime.clusterTime()) {
return afterClusterTime->asTimestamp();
}
return latestKnownTime.clusterTime().asTimestamp();
}(opCtx, readConcernArgs);
readConcernArgs.setArgsAtClusterTimeForSnapshot(atClusterTime);
}
_parc->_rec->getReplyBuilder()->reset();
}
Future<void> ParseAndRunCommand::RunAndRetry::_run() {
return future_util::makeState<ExecCommandClient>(_parc->_rec, _parc->_invocation)
.thenWithState([](auto* runner) { return runner->run(); })
.then([rec = _parc->_rec] {
auto opCtx = rec->getOpCtx();
auto responseBuilder = rec->getReplyBuilder()->getBodyBuilder();
if (auto txnRouter = TransactionRouter::get(opCtx)) {
txnRouter.appendRecoveryToken(&responseBuilder);
}
});
}
void ParseAndRunCommand::RunAndRetry::_checkRetryForTransaction(Status& status) {
// Retry logic specific to transactions. Throws and aborts the transaction if the error
// cannot be retried on.
auto opCtx = _parc->_rec->getOpCtx();
auto txnRouter = TransactionRouter::get(opCtx);
if (!txnRouter) {
if (opCtx->inMultiDocumentTransaction()) {
// This command must have failed while its session was yielded. We cannot retry in
// this case, whatever the session was yielded to is responsible for that, so
// rethrow the error.
iassert(status);
}
return;
}
ScopeGuard abortGuard([&] { txnRouter.implicitlyAbortTransaction(opCtx, status); });
if (!_canRetry()) {
addContextForTransactionAbortingError(
txnRouter.txnIdToString(), txnRouter.getLatestStmtId(), status, "exhausted retries");
iassert(status);
}
// TODO SERVER-39704 Allow mongos to retry on stale shard, stale db, snapshot, or shard
// invalidated for targeting errors.
if (ErrorCodes::isA<ErrorCategory::SnapshotError>(status)) {
if (!txnRouter.canContinueOnSnapshotError()) {
addContextForTransactionAbortingError(txnRouter.txnIdToString(),
txnRouter.getLatestStmtId(),
status,
"a non-retryable snapshot error");
iassert(status);
}
// The error is retryable, so update transaction state before retrying.
txnRouter.onSnapshotError(opCtx, status);
} else {
invariant(ErrorCodes::isA<ErrorCategory::NeedRetargettingError>(status) ||
status.code() == ErrorCodes::ShardInvalidatedForTargeting ||
status.code() == ErrorCodes::StaleDbVersion ||
status.code() == ErrorCodes::ShardCannotRefreshDueToLocksHeld);
if (!txnRouter.canContinueOnStaleShardOrDbError(_parc->_commandName, status)) {
if (status.code() == ErrorCodes::ShardInvalidatedForTargeting) {
auto catalogCache = Grid::get(opCtx)->catalogCache();
(void)catalogCache->getCollectionRoutingInfoWithRefresh(
opCtx, status.extraInfo<ShardInvalidatedForTargetingInfo>()->getNss());
}
addContextForTransactionAbortingError(txnRouter.txnIdToString(),
txnRouter.getLatestStmtId(),
status,
"an error from cluster data placement change");
iassert(status);
}
// The error is retryable, so update transaction state before retrying.
txnRouter.onStaleShardOrDbError(opCtx, _parc->_commandName, status);
}
abortGuard.dismiss();
}
void ParseAndRunCommand::RunAndRetry::_onShardInvalidatedForTargeting(Status& status) {
invariant(status.code() == ErrorCodes::ShardInvalidatedForTargeting);
auto opCtx = _parc->_rec->getOpCtx();
auto catalogCache = Grid::get(opCtx)->catalogCache();
catalogCache->setOperationShouldBlockBehindCatalogCacheRefresh(opCtx, true);
_checkRetryForTransaction(status);
if (!_canRetry())
iassert(status);
}
void ParseAndRunCommand::RunAndRetry::_onNeedRetargetting(Status& status) {
invariant(ErrorCodes::isA<ErrorCategory::NeedRetargettingError>(status));
auto staleInfo = status.extraInfo<StaleConfigInfo>();
if (!staleInfo)
iassert(status);
auto opCtx = _parc->_rec->getOpCtx();
const auto staleNs = staleInfo->getNss();
auto catalogCache = Grid::get(opCtx)->catalogCache();
catalogCache->invalidateShardOrEntireCollectionEntryForShardedCollection(
staleNs, staleInfo->getVersionWanted(), staleInfo->getShardId());
catalogCache->setOperationShouldBlockBehindCatalogCacheRefresh(opCtx, true);
_checkRetryForTransaction(status);
if (!_canRetry())
iassert(status);
}
void ParseAndRunCommand::RunAndRetry::_onStaleDbVersion(Status& status) {
invariant(status.code() == ErrorCodes::StaleDbVersion);
auto opCtx = _parc->_rec->getOpCtx();
// Mark database entry in cache as stale.
auto extraInfo = status.extraInfo<StaleDbRoutingVersion>();
invariant(extraInfo);
Grid::get(opCtx)->catalogCache()->onStaleDatabaseVersion(extraInfo->getDb(),
extraInfo->getVersionWanted());
_checkRetryForTransaction(status);
if (!_canRetry())
iassert(status);
}
void ParseAndRunCommand::RunAndRetry::_onSnapshotError(Status& status) {
// Simple retry on any type of snapshot error.
invariant(ErrorCodes::isA<ErrorCategory::SnapshotError>(status));
_checkRetryForTransaction(status);
auto opCtx = _parc->_rec->getOpCtx();
if (auto txnRouter = TransactionRouter::get(opCtx);
!txnRouter && !repl::ReadConcernArgs::get(opCtx).wasAtClusterTimeSelected()) {
// Non-transaction snapshot read. The client sent readConcern: {level: "snapshot",
// atClusterTime: T}, where T is older than minSnapshotHistoryWindowInSeconds, retrying
// won't succeed.
iassert(status);
}
if (!_canRetry())
iassert(status);
}
void ParseAndRunCommand::RunAndRetry::_onShardCannotRefreshDueToLocksHeldError(Status& status) {
invariant(status.code() == ErrorCodes::ShardCannotRefreshDueToLocksHeld);
_checkRetryForTransaction(status);
if (!_canRetry())
iassert(status);
}
void ParseAndRunCommand::RunAndRetry::_onTenantMigrationAborted(Status& status) {
invariant(status.code() == ErrorCodes::TenantMigrationAborted);
if (!_canRetry())
iassert(status);
}
Future<void> ParseAndRunCommand::RunAndRetry::run() {
return makeReadyFutureWith([&] {
// Try kMaxNumStaleVersionRetries times. On the last try, exceptions are
// rethrown.
_tries++;
_setup();
return _run();
})
.onError<ErrorCodes::ShardInvalidatedForTargeting>([this](Status status) {
_onShardInvalidatedForTargeting(status);
return run(); // Retry
})
.onErrorCategory<ErrorCategory::NeedRetargettingError>([this](Status status) {
_onNeedRetargetting(status);
return run(); // Retry
})
.onError<ErrorCodes::StaleDbVersion>([this](Status status) {
_onStaleDbVersion(status);
return run(); // Retry
})
.onErrorCategory<ErrorCategory::SnapshotError>([this](Status status) {
_onSnapshotError(status);
return run(); // Retry
})
.onError<ErrorCodes::ShardCannotRefreshDueToLocksHeld>([this](Status status) {
_onShardCannotRefreshDueToLocksHeldError(status);
return run(); // Retry
})
.onError<ErrorCodes::TenantMigrationAborted>([this](Status status) {
_onTenantMigrationAborted(status);
return run(); // Retry
});
}
Future<void> ParseAndRunCommand::RunInvocation::run() {
return makeReadyFutureWith([&] {
iassert(_setup());
return future_util::makeState<RunAndRetry>(_parc).thenWithState(
[](auto* runner) { return runner->run(); });
});
}
Future<void> ParseAndRunCommand::run() {
return makeReadyFutureWith([&] {
_parseCommand();
return future_util::makeState<RunInvocation>(this).thenWithState(
[](auto* runner) { return runner->run(); });
})
.tapError([this](Status status) { _updateStatsAndApplyErrorLabels(status); })
.onError<ErrorCodes::SkipCommandExecution>([this](Status status) {
// We've already skipped execution, so no other action is required.
return Status::OK();
});
}
} // namespace
// Maintains the state required to execute client commands, and provides the interface to construct
// a future-chain that runs the command against the database.
class ClientCommand final {
public:
ClientCommand(ClientCommand&&) = delete;
ClientCommand(const ClientCommand&) = delete;
explicit ClientCommand(std::shared_ptr<RequestExecutionContext> rec)
: _rec(std::move(rec)), _errorBuilder(std::make_shared<BSONObjBuilder>()) {}
Future<DbResponse> run();
private:
void _parseMessage();
Future<void> _execute();
// Handler for exceptions thrown during parsing and executing the command.
Future<void> _handleException(Status);
// Extracts the command response from the replyBuilder.
DbResponse _produceResponse();
const std::shared_ptr<RequestExecutionContext> _rec;
const std::shared_ptr<BSONObjBuilder> _errorBuilder;
bool _propagateException = false;
};
void ClientCommand::_parseMessage() try {
const auto& msg = _rec->getMessage();
_rec->setReplyBuilder(rpc::makeReplyBuilder(rpc::protocolForMessage(msg)));
auto opMsgReq = rpc::opMsgRequestFromAnyProtocol(msg);
if (msg.operation() == dbQuery) {
checkAllowedOpQueryCommand(*(_rec->getOpCtx()->getClient()), opMsgReq.getCommandName());
}
_rec->setRequest(opMsgReq);
} catch (const DBException& ex) {
// If this error needs to fail the connection, propagate it out.
if (ErrorCodes::isConnectionFatalMessageParseError(ex.code()))
_propagateException = true;
LOGV2_DEBUG(22769,
1,
"Exception thrown while parsing command {error}",
"Exception thrown while parsing command",
"error"_attr = redact(ex));
throw;
}
Future<void> ClientCommand::_execute() {
LOGV2_DEBUG(22770,
3,
"Command begin db: {db} msg id: {headerId}",
"Command begin",
"db"_attr = _rec->getRequest().getDatabase().toString(),
"headerId"_attr = _rec->getMessage().header().getId());
return future_util::makeState<ParseAndRunCommand>(_rec, _errorBuilder)
.thenWithState([](auto* runner) { return runner->run(); })
.then([this] {
LOGV2_DEBUG(22771,
3,
"Command end db: {db} msg id: {headerId}",
"Command end",
"db"_attr = _rec->getRequest().getDatabase().toString(),
"headerId"_attr = _rec->getMessage().header().getId());
})
.tapError([this](Status status) {
LOGV2_DEBUG(
22772,
1,
"Exception thrown while processing command on {db} msg id: {headerId} {error}",
"Exception thrown while processing command",
"db"_attr = _rec->getRequest().getDatabase().toString(),
"headerId"_attr = _rec->getMessage().header().getId(),
"error"_attr = redact(status));
// Record the exception in CurOp.
CurOp::get(_rec->getOpCtx())->debug().errInfo = std::move(status);
});
}
Future<void> ClientCommand::_handleException(Status status) {
if (status == ErrorCodes::CloseConnectionForShutdownCommand || _propagateException) {
return status;
}
auto opCtx = _rec->getOpCtx();
auto reply = _rec->getReplyBuilder();
reply->reset();
auto bob = reply->getBodyBuilder();
CommandHelpers::appendCommandStatusNoThrow(bob, status);
appendRequiredFieldsToResponse(opCtx, &bob);
// Only attach the topology version to the response if mongos is in quiesce mode. If mongos is
// in quiesce mode, this shutdown error is due to mongos rather than a shard.
if (ErrorCodes::isA<ErrorCategory::ShutdownError>(status)) {
if (auto mongosTopCoord = MongosTopologyCoordinator::get(opCtx);
mongosTopCoord && mongosTopCoord->inQuiesceMode()) {
// Append the topology version to the response.
const auto topologyVersion = mongosTopCoord->getTopologyVersion();
BSONObjBuilder topologyVersionBuilder(_errorBuilder->subobjStart("topologyVersion"));
topologyVersion.serialize(&topologyVersionBuilder);
}
}
bob.appendElements(_errorBuilder->obj());
return Status::OK();
}
DbResponse ClientCommand::_produceResponse() {
const auto& m = _rec->getMessage();
auto reply = _rec->getReplyBuilder();
if (OpMsg::isFlagSet(m, OpMsg::kMoreToCome)) {
return {}; // Don't reply.
}
DbResponse dbResponse;
if (OpMsg::isFlagSet(m, OpMsg::kExhaustSupported)) {
auto responseObj = reply->getBodyBuilder().asTempObj();
if (responseObj.getField("ok").trueValue()) {
dbResponse.shouldRunAgainForExhaust = reply->shouldRunAgainForExhaust();
dbResponse.nextInvocation = reply->getNextInvocation();
}
}
if (auto doc = rpc::RewriteStateChangeErrors::rewrite(reply->getBodyBuilder().asTempObj(),
_rec->getOpCtx())) {
reply->reset();
reply->getBodyBuilder().appendElements(*doc);
}
dbResponse.response = reply->done();
return dbResponse;
}
Future<DbResponse> ClientCommand::run() {
return makeReadyFutureWith([&] {
_parseMessage();
return _execute();
})
.onError([this](Status status) { return _handleException(std::move(status)); })
.then([this] { return _produceResponse(); });
}
Future<DbResponse> Strategy::clientCommand(std::shared_ptr<RequestExecutionContext> rec) {
return future_util::makeState<ClientCommand>(std::move(rec)).thenWithState([](auto* runner) {
return runner->run();
});
}
} // namespace mongo
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