void WriteBatchExecutor::executeBatch( const BatchedCommandRequest& request, BatchedCommandResponse* response ) { // Validate namespace const NamespaceString nss = NamespaceString( request.getNS() ); if ( !nss.isValid() ) { toBatchError( Status( ErrorCodes::InvalidNamespace, nss.ns() + " is not a valid namespace" ), response ); return; } // Make sure we can write to the namespace Status allowedStatus = userAllowedWriteNS( nss ); if ( !allowedStatus.isOK() ) { toBatchError( allowedStatus, response ); return; } // Validate insert index requests // TODO: Push insert index requests through createIndex once all upgrade paths support it string errMsg; if ( request.isInsertIndexRequest() && !request.isValidIndexRequest( &errMsg ) ) { toBatchError( Status( ErrorCodes::InvalidOptions, errMsg ), response ); return; } // Validate write concern // TODO: Lift write concern parsing out of this entirely WriteConcernOptions writeConcern; BSONObj wcDoc; if ( request.isWriteConcernSet() ) { wcDoc = request.getWriteConcern(); } Status wcStatus = Status::OK(); if ( wcDoc.isEmpty() ) { // The default write concern if empty is w : 1 // Specifying w : 0 is/was allowed, but is interpreted identically to w : 1 wcStatus = writeConcern.parse( _defaultWriteConcern.isEmpty() ? WriteConcernOptions::Acknowledged : _defaultWriteConcern ); if ( writeConcern.wNumNodes == 0 && writeConcern.wMode.empty() ) { writeConcern.wNumNodes = 1; } } else { wcStatus = writeConcern.parse( wcDoc ); } if ( wcStatus.isOK() ) { wcStatus = validateWriteConcern( writeConcern ); } if ( !wcStatus.isOK() ) { toBatchError( wcStatus, response ); return; } if ( request.sizeWriteOps() == 0u ) { toBatchError( Status( ErrorCodes::InvalidLength, "no write ops were included in the batch" ), response ); return; } // Validate batch size if ( request.sizeWriteOps() > BatchedCommandRequest::kMaxWriteBatchSize ) { toBatchError( Status( ErrorCodes::InvalidLength, stream() << "exceeded maximum write batch size of " << BatchedCommandRequest::kMaxWriteBatchSize ), response ); return; } // // End validation // bool silentWC = writeConcern.wMode.empty() && writeConcern.wNumNodes == 0 && writeConcern.syncMode == WriteConcernOptions::NONE; Timer commandTimer; OwnedPointerVector<WriteErrorDetail> writeErrorsOwned; vector<WriteErrorDetail*>& writeErrors = writeErrorsOwned.mutableVector(); OwnedPointerVector<BatchedUpsertDetail> upsertedOwned; vector<BatchedUpsertDetail*>& upserted = upsertedOwned.mutableVector(); // // Apply each batch item, possibly bulking some items together in the write lock. // Stops on error if batch is ordered. // bulkExecute( request, &upserted, &writeErrors ); // // Try to enforce the write concern if everything succeeded (unordered or ordered) // OR if something succeeded and we're unordered. // auto_ptr<WCErrorDetail> wcError; bool needToEnforceWC = writeErrors.empty() || ( !request.getOrdered() && writeErrors.size() < request.sizeWriteOps() ); if ( needToEnforceWC ) { _client->curop()->setMessage( "waiting for write concern" ); WriteConcernResult res; Status status = waitForWriteConcern( _txn, writeConcern, _client->getLastOp(), &res ); if ( !status.isOK() ) { wcError.reset( toWriteConcernError( status, res ) ); } } // // Refresh metadata if needed // bool staleBatch = !writeErrors.empty() && writeErrors.back()->getErrCode() == ErrorCodes::StaleShardVersion; if ( staleBatch ) { const BatchedRequestMetadata* requestMetadata = request.getMetadata(); dassert( requestMetadata ); // Make sure our shard name is set or is the same as what was set previously if ( shardingState.setShardName( requestMetadata->getShardName() ) ) { // // First, we refresh metadata if we need to based on the requested version. // ChunkVersion latestShardVersion; shardingState.refreshMetadataIfNeeded( request.getTargetingNS(), requestMetadata->getShardVersion(), &latestShardVersion ); // Report if we're still changing our metadata // TODO: Better reporting per-collection if ( shardingState.inCriticalMigrateSection() ) { noteInCriticalSection( writeErrors.back() ); } if ( queueForMigrationCommit ) { // // Queue up for migration to end - this allows us to be sure that clients will // not repeatedly try to refresh metadata that is not yet written to the config // server. Not necessary for correctness. // Exposed as optional parameter to allow testing of queuing behavior with // different network timings. // const ChunkVersion& requestShardVersion = requestMetadata->getShardVersion(); // // Only wait if we're an older version (in the current collection epoch) and // we're not write compatible, implying that the current migration is affecting // writes. // if ( requestShardVersion.isOlderThan( latestShardVersion ) && !requestShardVersion.isWriteCompatibleWith( latestShardVersion ) ) { while ( shardingState.inCriticalMigrateSection() ) { log() << "write request to old shard version " << requestMetadata->getShardVersion().toString() << " waiting for migration commit" << endl; shardingState.waitTillNotInCriticalSection( 10 /* secs */); } } } } else { // If our shard name is stale, our version must have been stale as well dassert( writeErrors.size() == request.sizeWriteOps() ); } } // // Construct response // response->setOk( true ); if ( !silentWC ) { if ( upserted.size() ) { response->setUpsertDetails( upserted ); } if ( writeErrors.size() ) { response->setErrDetails( writeErrors ); } if ( wcError.get() ) { response->setWriteConcernError( wcError.release() ); } const repl::ReplicationCoordinator::Mode replMode = repl::getGlobalReplicationCoordinator()->getReplicationMode(); if (replMode != repl::ReplicationCoordinator::modeNone) { response->setLastOp( _client->getLastOp() ); if (replMode == repl::ReplicationCoordinator::modeReplSet) { response->setElectionId(repl::theReplSet->getElectionId()); } } // Set the stats for the response response->setN( _stats->numInserted + _stats->numUpserted + _stats->numMatched + _stats->numDeleted ); if ( request.getBatchType() == BatchedCommandRequest::BatchType_Update ) response->setNModified( _stats->numModified ); } dassert( response->isValid( NULL ) ); }
void WriteBatchExecutor::executeBatch( const BatchedCommandRequest& request, BatchedCommandResponse* response ) { Timer commandTimer; WriteStats stats; std::auto_ptr<BatchedErrorDetail> error( new BatchedErrorDetail ); BSONObj upsertedID = BSONObj(); bool batchSuccess = true; bool staleBatch = false; // Apply each batch item, stopping on an error if we were asked to apply the batch // sequentially. size_t numBatchOps = request.sizeWriteOps(); bool verbose = request.isVerboseWC(); for ( size_t i = 0; i < numBatchOps; i++ ) { if ( applyWriteItem( BatchItemRef( &request, i ), &stats, &upsertedID, error.get() ) ) { // In case updates turned out to be upserts, the callers may be interested // in learning what _id was used for that document. if ( !upsertedID.isEmpty() ) { if ( numBatchOps == 1 ) { response->setSingleUpserted(upsertedID); } else if ( verbose ) { std::auto_ptr<BatchedUpsertDetail> upsertDetail(new BatchedUpsertDetail); upsertDetail->setIndex(i); upsertDetail->setUpsertedID(upsertedID); response->addToUpsertDetails(upsertDetail.release()); } upsertedID = BSONObj(); } } else { // The applyWriteItem did not go thgrou // If the error is sharding related, we'll have to investigate whether we // have a stale view of sharding state. if ( error->getErrCode() == ErrorCodes::StaleShardVersion ) staleBatch = true; // Don't bother recording if the user doesn't want a verbose answer. We want to // keep the error if this is a one-item batch, since we already compact the // response for those. if (verbose || numBatchOps == 1) { error->setIndex( static_cast<int>( i ) ); response->addToErrDetails( error.release() ); } batchSuccess = false; if ( request.getOrdered() ) break; error.reset( new BatchedErrorDetail ); } } // So far, we may have failed some of the batch's items. So we record // that. Rergardless, we still need to apply the write concern. If that generates a // more specific error, we'd replace for the intermediate error here. Note that we // "compatct" the error messge if this is an one-item batch. (See rationale later in // this file.) if ( !batchSuccess ) { if (numBatchOps > 1) { // TODO // Define the final error code here. // Might be used as a final error, depending on write concern success. response->setErrCode( 99999 ); response->setErrMessage( "batch op errors occurred" ); } else { // Promote the single error. const BatchedErrorDetail* error = response->getErrDetailsAt( 0 ); response->setErrCode( error->getErrCode() ); if ( error->isErrInfoSet() ) response->setErrInfo( error->getErrInfo() ); response->setErrMessage( error->getErrMessage() ); response->unsetErrDetails(); error = NULL; } } // Apply write concern. Note, again, that we're only assembling a full response if the // user is interested in it. BSONObj writeConcern; if ( request.isWriteConcernSet() ) { writeConcern = request.getWriteConcern(); } else { writeConcern = _defaultWriteConcern; } string errMsg; BSONObjBuilder wcResultsB; if ( !waitForWriteConcern( writeConcern, !batchSuccess, &wcResultsB, &errMsg ) ) { // TODO Revisit when user visible family error codes are set response->setErrCode( ErrorCodes::WriteConcernFailed ); response->setErrMessage( errMsg ); if ( verbose ) { response->setErrInfo( wcResultsB.obj() ); } } // TODO: Audit where we want to queue here if ( staleBatch ) { ChunkVersion latestShardVersion; shardingState.refreshMetadataIfNeeded( request.getTargetingNS(), request.getShardVersion(), &latestShardVersion ); } // Set the main body of the response. We assume that, if there was an error, the error // code would already be set. response->setOk( !response->isErrCodeSet() ); response->setN( stats.numInserted + stats.numUpserted + stats.numUpdated + stats.numDeleted ); dassert( response->isValid( NULL ) ); }
void ClusterWriter::write( const BatchedCommandRequest& request, BatchedCommandResponse* response ) { const NamespaceString nss = NamespaceString( request.getNS() ); if ( !nss.isValid() ) { toBatchError( Status( ErrorCodes::InvalidNamespace, nss.ns() + " is not a valid namespace" ), response ); return; } if ( !NamespaceString::validCollectionName( nss.coll() ) ) { toBatchError( Status( ErrorCodes::BadValue, str::stream() << "invalid collection name " << nss.coll() ), response ); return; } if ( request.sizeWriteOps() > BatchedCommandRequest::kMaxWriteBatchSize ) { toBatchError( Status( ErrorCodes::FailedToParse, str::stream() << "exceeded maximum write batch size of " << BatchedCommandRequest::kMaxWriteBatchSize ), response ); return; } string errMsg; if ( request.isInsertIndexRequest() && !request.isValidIndexRequest( &errMsg ) ) { toBatchError( Status( ErrorCodes::InvalidOptions, errMsg ), response ); return; } // Config writes and shard writes are done differently string dbName = nss.db().toString(); if ( dbName == "config" || dbName == "admin" ) { bool verboseWC = request.isVerboseWC(); // We only support batch sizes of one for config writes if ( request.sizeWriteOps() != 1 ) { toBatchError( Status( ErrorCodes::InvalidOptions, mongoutils::str::stream() << "Writes to config servers must " "have batch size of 1, found " << request.sizeWriteOps() ), response ); return; } // We only support {w: 0}, {w: 1}, and {w: 'majority'} write concern for config writes if ( request.isWriteConcernSet() && !validConfigWC( request.getWriteConcern() )) { toBatchError( Status( ErrorCodes::InvalidOptions, mongoutils::str::stream() << "Invalid write concern for write" " to config servers: " << request.getWriteConcern() ), response ); return; } // We need to support "best-effort" writes for pings to the config server. // {w:0} (!verbose) writes are interpreted as best-effort in this case - they may still // error, but do not do the initial fsync check. configWrite( request, response, verboseWC ); } else { shardWrite( request, response ); } }
void WriteBatchExecutor::executeBatch( const BatchedCommandRequest& request, BatchedCommandResponse* response ) { // TODO: Lift write concern parsing out of this entirely. WriteConcernOptions writeConcern; Status status = Status::OK(); BSONObj wcDoc; if ( request.isWriteConcernSet() ) { wcDoc = request.getWriteConcern(); } if ( wcDoc.isEmpty() ) { status = writeConcern.parse( _defaultWriteConcern ); } else { status = writeConcern.parse( wcDoc ); } if ( status.isOK() ) { status = validateWriteConcern( writeConcern ); } if ( !status.isOK() ) { response->setErrCode( status.code() ); response->setErrMessage( status.reason() ); response->setOk( false ); dassert( response->isValid(NULL) ); return; } bool silentWC = writeConcern.wMode.empty() && writeConcern.wNumNodes == 0 && writeConcern.syncMode == WriteConcernOptions::NONE; Timer commandTimer; OwnedPointerVector<WriteErrorDetail> writeErrorsOwned; vector<WriteErrorDetail*>& writeErrors = writeErrorsOwned.mutableVector(); OwnedPointerVector<BatchedUpsertDetail> upsertedOwned; vector<BatchedUpsertDetail*>& upserted = upsertedOwned.mutableVector(); // // Apply each batch item, possibly bulking some items together in the write lock. // Stops on error if batch is ordered. // bulkExecute( request, &upserted, &writeErrors ); // // Try to enforce the write concern if everything succeeded (unordered or ordered) // OR if something succeeded and we're unordered. // auto_ptr<WCErrorDetail> wcError; bool needToEnforceWC = writeErrors.empty() || ( !request.getOrdered() && writeErrors.size() < request.sizeWriteOps() ); if ( needToEnforceWC ) { _client->curop()->setMessage( "waiting for write concern" ); WriteConcernResult res; status = waitForWriteConcern( writeConcern, _client->getLastOp(), &res ); if ( !status.isOK() ) { wcError.reset( toWriteConcernError( status, res ) ); } } // // Refresh metadata if needed // bool staleBatch = !writeErrors.empty() && writeErrors.back()->getErrCode() == ErrorCodes::StaleShardVersion; if ( staleBatch ) { const BatchedRequestMetadata* requestMetadata = request.getMetadata(); dassert( requestMetadata ); // Make sure our shard name is set or is the same as what was set previously if ( shardingState.setShardName( requestMetadata->getShardName() ) ) { // // First, we refresh metadata if we need to based on the requested version. // ChunkVersion latestShardVersion; shardingState.refreshMetadataIfNeeded( request.getTargetingNS(), requestMetadata->getShardVersion(), &latestShardVersion ); // Report if we're still changing our metadata // TODO: Better reporting per-collection if ( shardingState.inCriticalMigrateSection() ) { noteInCriticalSection( writeErrors.back() ); } if ( queueForMigrationCommit ) { // // Queue up for migration to end - this allows us to be sure that clients will // not repeatedly try to refresh metadata that is not yet written to the config // server. Not necessary for correctness. // Exposed as optional parameter to allow testing of queuing behavior with // different network timings. // const ChunkVersion& requestShardVersion = requestMetadata->getShardVersion(); // // Only wait if we're an older version (in the current collection epoch) and // we're not write compatible, implying that the current migration is affecting // writes. // if ( requestShardVersion.isOlderThan( latestShardVersion ) && !requestShardVersion.isWriteCompatibleWith( latestShardVersion ) ) { while ( shardingState.inCriticalMigrateSection() ) { log() << "write request to old shard version " << requestMetadata->getShardVersion().toString() << " waiting for migration commit" << endl; shardingState.waitTillNotInCriticalSection( 10 /* secs */); } } } } else { // If our shard name is stale, our version must have been stale as well dassert( writeErrors.size() == request.sizeWriteOps() ); } } // // Construct response // response->setOk( true ); if ( !silentWC ) { if ( upserted.size() ) { response->setUpsertDetails( upserted ); upserted.clear(); } if ( writeErrors.size() ) { response->setErrDetails( writeErrors ); writeErrors.clear(); } if ( wcError.get() ) { response->setWriteConcernError( wcError.release() ); } if ( anyReplEnabled() ) { response->setLastOp( _client->getLastOp() ); if (theReplSet) { response->setElectionId( theReplSet->getElectionId() ); } } // Set the stats for the response response->setN( _stats->numInserted + _stats->numUpserted + _stats->numMatched + _stats->numDeleted ); if ( request.getBatchType() == BatchedCommandRequest::BatchType_Update ) response->setNModified( _stats->numModified ); } dassert( response->isValid( NULL ) ); }
void BatchSafeWriter::safeWriteBatch( DBClientBase* conn, const BatchedCommandRequest& request, BatchedCommandResponse* response ) { const NamespaceString nss( request.getNS() ); // N starts at zero, and we add to it for each item response->setN( 0 ); for ( size_t i = 0; i < request.sizeWriteOps(); ++i ) { // Break on first error if we're ordered if ( request.getOrdered() && response->isErrDetailsSet() ) break; BatchItemRef itemRef( &request, static_cast<int>( i ) ); bool isLastItem = ( i == request.sizeWriteOps() - 1 ); BSONObj writeConcern; if ( isLastItem && request.isWriteConcernSet() ) { writeConcern = request.getWriteConcern(); // Pre-2.4.2 mongods react badly to 'w' being set on config servers if ( nss.db() == "config" ) writeConcern = fixWCForConfig( writeConcern ); } BSONObj gleResult; GLEErrors errors; Status status = _safeWriter->safeWrite( conn, itemRef, writeConcern, &gleResult ); if ( status.isOK() ) { status = extractGLEErrors( gleResult, &errors ); } if ( !status.isOK() ) { response->clear(); response->setOk( false ); response->setErrCode( status.code() ); response->setErrMessage( status.reason() ); return; } // // STATS HANDLING // GLEStats stats; extractGLEStats( gleResult, &stats ); // Special case for making legacy "n" field result for insert match the write // command result. if ( request.getBatchType() == BatchedCommandRequest::BatchType_Insert && !errors.writeError.get() ) { // n is always 0 for legacy inserts. dassert( stats.n == 0 ); stats.n = 1; } response->setN( response->getN() + stats.n ); if ( !stats.upsertedId.isEmpty() ) { BatchedUpsertDetail* upsertedId = new BatchedUpsertDetail; upsertedId->setIndex( i ); upsertedId->setUpsertedID( stats.upsertedId ); response->addToUpsertDetails( upsertedId ); } response->setLastOp( stats.lastOp ); // // WRITE ERROR HANDLING // // If any error occurs (except stale config) the previous GLE was not enforced bool enforcedWC = !errors.writeError.get() || errors.writeError->getErrCode() == ErrorCodes::StaleShardVersion; // Save write error if ( errors.writeError.get() ) { errors.writeError->setIndex( i ); response->addToErrDetails( errors.writeError.release() ); } // // WRITE CONCERN ERROR HANDLING // // The last write is weird, since we enforce write concern and check the error through // the same GLE if possible. If the last GLE was an error, the write concern may not // have been enforced in that same GLE, so we need to send another after resetting the // error. if ( isLastItem ) { // Try to enforce the write concern if everything succeeded (unordered or ordered) // OR if something succeeded and we're unordered. bool needToEnforceWC = !response->isErrDetailsSet() || ( !request.getOrdered() && response->sizeErrDetails() < request.sizeWriteOps() ); if ( !enforcedWC && needToEnforceWC ) { dassert( !errors.writeError.get() ); // emptied above // Might have gotten a write concern validity error earlier, these are // enforced even if the wc isn't applied, so we ignore. errors.wcError.reset(); Status status = _safeWriter->enforceWriteConcern( conn, nss.db().toString(), writeConcern, &gleResult ); if ( status.isOK() ) { status = extractGLEErrors( gleResult, &errors ); } if ( !status.isOK() ) { response->clear(); response->setOk( false ); response->setErrCode( status.code() ); response->setErrMessage( status.reason() ); return; } } // END Write concern retry if ( errors.wcError.get() ) { response->setWriteConcernError( errors.wcError.release() ); } } } response->setOk( true ); dassert( response->isValid( NULL ) ); }
void WriteBatchExecutor::executeBatch( const BatchedCommandRequest& request, BatchedCommandResponse* response ) { Timer commandTimer; WriteStats stats; auto_ptr<BatchedErrorDetail> error( new BatchedErrorDetail ); bool batchSuccess = true; // Apply batch ops size_t numBatchOps = request.sizeWriteOps(); for ( size_t i = 0; i < numBatchOps; i++ ) { if ( !applyWriteItem( request, i, &stats, error.get() ) ) { // Batch item failed error->setIndex( static_cast<int>( i ) ); response->addToErrDetails( error.release() ); batchSuccess = false; if ( !request.getContinueOnError() ) break; error.reset( new BatchedErrorDetail ); } } //int batchTime = commandTimer.millisReset(); // Do write concern string errMsg; BSONObjBuilder wcResultsB; if ( !waitForWriteConcern( request.getWriteConcern(), !batchSuccess, &wcResultsB, &errMsg ) ) { response->setErrCode( 99999 ); response->setErrInfo( wcResultsB.obj() ); response->setErrMessage( errMsg ); } // int wcTime = commandTimer.millisReset(); // Only one of these is set response->setN( stats.numUpdated + stats.numInserted + stats.numDeleted ); response->setUpserted( stats.numUpserted ); bool onlyOpErrors = !response->isErrCodeSet() && response->isErrDetailsSet() && response->sizeErrDetails() > 0; if ( numBatchOps == 1 && onlyOpErrors ) { // Promote single error const BatchedErrorDetail* error = response->getErrDetailsAt( 0 ); response->setErrCode( error->getErrCode() ); if ( error->isErrInfoSet() ) response->setErrInfo( error->getErrInfo() ); response->setErrMessage( error->getErrMessage() ); response->unsetErrDetails(); error = NULL; } else if ( numBatchOps > 1 && onlyOpErrors ) { response->setErrCode( 99999 ); response->setErrMessage( "batch op errors occurred" ); } response->setOk( !response->isErrCodeSet() ); }
void BatchSafeWriter::safeWriteBatch( DBClientBase* conn, const BatchedCommandRequest& request, BatchedCommandResponse* response ) { const NamespaceString nss( request.getNS() ); // N starts at zero, and we add to it for each item response->setN( 0 ); // GLE path always sets nModified to -1 (sentinel) to indicate we should omit it later. response->setNModified(-1); for ( size_t i = 0; i < request.sizeWriteOps(); ++i ) { // Break on first error if we're ordered if ( request.getOrdered() && response->isErrDetailsSet() ) break; BatchItemRef itemRef( &request, static_cast<int>( i ) ); BSONObj gleResult; GLEErrors errors; Status status = _safeWriter->safeWrite( conn, itemRef, WriteConcernOptions::Acknowledged, &gleResult ); if ( status.isOK() ) { status = extractGLEErrors( gleResult, &errors ); } if ( !status.isOK() ) { response->clear(); response->setOk( false ); response->setErrCode( ErrorCodes::RemoteResultsUnavailable ); StringBuilder builder; builder << "could not get write error from safe write"; builder << causedBy( status.toString() ); response->setErrMessage( builder.str() ); return; } if ( errors.wcError.get() ) { response->setWriteConcernError( errors.wcError.release() ); } // // STATS HANDLING // GLEStats stats; extractGLEStats( gleResult, &stats ); // Special case for making legacy "n" field result for insert match the write // command result. if ( request.getBatchType() == BatchedCommandRequest::BatchType_Insert && !errors.writeError.get() ) { // n is always 0 for legacy inserts. dassert( stats.n == 0 ); stats.n = 1; } response->setN( response->getN() + stats.n ); if ( !stats.upsertedId.isEmpty() ) { BatchedUpsertDetail* upsertedId = new BatchedUpsertDetail; upsertedId->setIndex( i ); upsertedId->setUpsertedID( stats.upsertedId ); response->addToUpsertDetails( upsertedId ); } response->setLastOp( stats.lastOp ); // Save write error if ( errors.writeError.get() ) { errors.writeError->setIndex( i ); response->addToErrDetails( errors.writeError.release() ); } } // // WRITE CONCERN ERROR HANDLING // // The last write is weird, since we enforce write concern and check the error through // the same GLE if possible. If the last GLE was an error, the write concern may not // have been enforced in that same GLE, so we need to send another after resetting the // error. BSONObj writeConcern; if ( request.isWriteConcernSet() ) { writeConcern = request.getWriteConcern(); // Pre-2.4.2 mongods react badly to 'w' being set on config servers if ( nss.db() == "config" ) writeConcern = fixWCForConfig( writeConcern ); } bool needToEnforceWC = WriteConcernOptions::Acknowledged.woCompare(writeConcern) != 0 && WriteConcernOptions::Unacknowledged.woCompare(writeConcern) != 0; if ( needToEnforceWC && ( !response->isErrDetailsSet() || ( !request.getOrdered() && // Not all errored. Note: implicit response->isErrDetailsSet(). response->sizeErrDetails() < request.sizeWriteOps() ))) { // Might have gotten a write concern validity error earlier, these are // enforced even if the wc isn't applied, so we ignore. response->unsetWriteConcernError(); const string dbName( nss.db().toString() ); Status status( Status::OK() ); if ( response->isErrDetailsSet() ) { const WriteErrorDetail* lastError = response->getErrDetails().back(); // If last write op was an error. if ( lastError->getIndex() == static_cast<int>( request.sizeWriteOps() - 1 )) { // Reset previous errors so we can apply the write concern no matter what // as long as it is valid. status = _safeWriter->clearErrors( conn, dbName ); } } BSONObj gleResult; if ( status.isOK() ) { status = _safeWriter->enforceWriteConcern( conn, dbName, writeConcern, &gleResult ); } GLEErrors errors; if ( status.isOK() ) { status = extractGLEErrors( gleResult, &errors ); } if ( !status.isOK() ) { auto_ptr<WCErrorDetail> wcError( new WCErrorDetail ); wcError->setErrCode( status.code() ); wcError->setErrMessage( status.reason() ); response->setWriteConcernError( wcError.release() ); } else if ( errors.wcError.get() ) { response->setWriteConcernError( errors.wcError.release() ); } } response->setOk( true ); dassert( response->isValid( NULL ) ); }