/** * 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 * . * * 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. */ #include "mongo/platform/basic.h" #include #include "mongo/db/write_concern_options.h" #include "mongo/base/status.h" #include "mongo/base/string_data.h" #include "mongo/bson/util/bson_extract.h" #include "mongo/db/field_parser.h" #include "mongo/db/repl/repl_set_config.h" #include "mongo/idl/basic_types_gen.h" #include "mongo/util/str.h" namespace mongo { using std::string; namespace { /** * Controls how much a client cares about writes and serves as initializer for the pre-defined * write concern options. * * Default is NORMAL. */ enum WriteConcern { W_NONE = 0, W_NORMAL = 1 }; constexpr StringData kJFieldName = "j"_sd; constexpr StringData kFSyncFieldName = "fsync"_sd; constexpr StringData kWFieldName = "w"_sd; constexpr StringData kWTimeoutFieldName = "wtimeout"_sd; constexpr StringData kGetLastErrorFieldName = "getLastError"_sd; constexpr StringData kWOpTimeFieldName = "wOpTime"_sd; constexpr StringData kWElectionIdFieldName = "wElectionId"_sd; } // namespace constexpr int WriteConcernOptions::kNoTimeout; constexpr int WriteConcernOptions::kNoWaiting; constexpr StringData WriteConcernOptions::kWriteConcernField; const char WriteConcernOptions::kMajority[] = "majority"; const BSONObj WriteConcernOptions::Default = BSONObj(); const BSONObj WriteConcernOptions::Acknowledged(BSON("w" << W_NORMAL)); const BSONObj WriteConcernOptions::Unacknowledged(BSON("w" << W_NONE)); const BSONObj WriteConcernOptions::Majority(BSON("w" << WriteConcernOptions::kMajority)); // The "kImplicitDefault" write concern, used by internal operations, is deliberately empty (no // 'w' or 'wtimeout' specified). This allows internal operations to specify a write concern, while // still allowing it to be either w:1 or automatically upconverted to w:majority on configsvrs. const BSONObj WriteConcernOptions::kImplicitDefault; constexpr Seconds WriteConcernOptions::kWriteConcernTimeoutSystem; constexpr Seconds WriteConcernOptions::kWriteConcernTimeoutMigration; constexpr Seconds WriteConcernOptions::kWriteConcernTimeoutSharding; constexpr Seconds WriteConcernOptions::kWriteConcernTimeoutUserCommand; WriteConcernOptions::WriteConcernOptions(int numNodes, SyncMode sync, int timeout) : WriteConcernOptions(numNodes, sync, Milliseconds(timeout)) {} WriteConcernOptions::WriteConcernOptions(const std::string& mode, SyncMode sync, int timeout) : WriteConcernOptions(mode, sync, Milliseconds(timeout)) {} WriteConcernOptions::WriteConcernOptions(int numNodes, SyncMode sync, Milliseconds timeout) : syncMode(sync), wNumNodes(numNodes), wTimeout(durationCount(timeout)) {} WriteConcernOptions::WriteConcernOptions(const std::string& mode, SyncMode sync, Milliseconds timeout) : syncMode(sync), wNumNodes(0), wMode(mode), wTimeout(durationCount(timeout)) {} StatusWith WriteConcernOptions::parse(const BSONObj& obj) { if (obj.isEmpty()) { return Status(ErrorCodes::FailedToParse, "write concern object cannot be empty"); } BSONElement jEl; BSONElement fsyncEl; BSONElement wEl; int wTimeout = 0; WriteConcernOptions writeConcern; for (auto e : obj) { const auto fieldName = e.fieldNameStringData(); if (fieldName == kJFieldName) { jEl = e; if (!jEl.isNumber() && jEl.type() != Bool) { return Status(ErrorCodes::FailedToParse, "j must be numeric or a boolean value"); } writeConcern.usedDefault = false; } else if (fieldName == kFSyncFieldName) { fsyncEl = e; if (!fsyncEl.isNumber() && fsyncEl.type() != Bool) { return Status(ErrorCodes::FailedToParse, "fsync must be numeric or a boolean value"); } writeConcern.usedDefault = false; } else if (fieldName == kWFieldName) { wEl = e; writeConcern.usedDefault = false; } else if (fieldName == kWTimeoutFieldName) { wTimeout = e.safeNumberLong(); writeConcern.usedDefault = false; } else if (fieldName == kWElectionIdFieldName) { // Ignore. } else if (fieldName == kWOpTimeFieldName) { // Ignore. } else if (fieldName.equalCaseInsensitive(kGetLastErrorFieldName)) { // Ignore GLE field. } else if (fieldName == ReadWriteConcernProvenance::kSourceFieldName) { try { writeConcern._provenance = ReadWriteConcernProvenance::parse( IDLParserErrorContext("WriteConcernOptions::parse"), obj); } catch (const DBException&) { return exceptionToStatus(); } } else { return Status(ErrorCodes::FailedToParse, str::stream() << "unrecognized write concern field: " << fieldName); } } const bool j = jEl.trueValue(); const bool fsync = fsyncEl.trueValue(); if (j && fsync) { return Status(ErrorCodes::FailedToParse, "fsync and j options cannot be used together"); } if (j) { writeConcern.syncMode = SyncMode::JOURNAL; } else if (fsync) { writeConcern.syncMode = SyncMode::FSYNC; } else if (!jEl.eoo()) { writeConcern.syncMode = SyncMode::NONE; } if (wEl.isNumber()) { auto wNumNodes = wEl.safeNumberLong(); if (wNumNodes < 0 || wNumNodes > static_cast(repl::ReplSetConfig::kMaxMembers)) { return Status(ErrorCodes::FailedToParse, str::stream() << "w has to be a non-negative number and not greater than " << repl::ReplSetConfig::kMaxMembers); } writeConcern.wNumNodes = static_cast(wNumNodes); writeConcern.usedDefaultW = false; } else if (wEl.type() == String) { writeConcern.wNumNodes = 0; writeConcern.wMode = wEl.valuestrsafe(); writeConcern.usedDefaultW = false; } else if (wEl.eoo() || wEl.type() == jstNULL || wEl.type() == Undefined) { writeConcern.wNumNodes = 1; } else { return Status(ErrorCodes::FailedToParse, "w has to be a number or a string"); } writeConcern.wTimeout = wTimeout; return writeConcern; } WriteConcernOptions WriteConcernOptions::deserializerForIDL(const BSONObj& obj) { if (!obj.isEmpty()) { return uassertStatusOK(parse(obj)); } return WriteConcernOptions(); } StatusWith WriteConcernOptions::extractWCFromCommand(const BSONObj& cmdObj) { // Return the default write concern if no write concern is provided. We check for the existence // of the write concern field up front in order to avoid the expense of constructing an error // status in bsonExtractTypedField() below. if (!cmdObj.hasField(kWriteConcernField)) { return WriteConcernOptions(); } BSONElement writeConcernElement; Status wcStatus = bsonExtractTypedField(cmdObj, kWriteConcernField, Object, &writeConcernElement); if (!wcStatus.isOK()) { return wcStatus; } BSONObj writeConcernObj = writeConcernElement.Obj(); // Empty write concern is interpreted to default. if (writeConcernObj.isEmpty()) { return WriteConcernOptions(); } // Ensure that the write concern document complies with the strict IDL definition, found in // idl/basic_types.idl. try { auto writeConcernIdl = WriteConcernIdl::parse(IDLParserErrorContext("writeConcern"), writeConcernObj); // Convert the IDL parsed WriteConcern into a WriteConcernOptions object. auto sw = convertFromIdl(writeConcernIdl); if (!sw.isOK()) { return sw.getStatus(); } auto writeConcernOptions = sw.getValue(); writeConcernOptions.usedDefault = false; return writeConcernOptions; } catch (const DBException& ex) { return ex.toStatus(); } } StatusWith WriteConcernOptions::convertFromIdl( const WriteConcernIdl& writeConcernIdl) { WriteConcernOptions writeConcern; auto parsedW = writeConcernIdl.getWriteConcernW(); if (!parsedW.usedDefault()) { writeConcern.usedDefaultW = false; auto wVal = parsedW.getValue(); if (auto wNum = stdx::get_if(&wVal)) { if (*wNum < 0 || *wNum > static_cast>(repl::ReplSetConfig::kMaxMembers)) { uasserted(ErrorCodes::FailedToParse, str::stream() << "w has to be a non-negative number and not greater than " << repl::ReplSetConfig::kMaxMembers); } writeConcern.wNumNodes = static_cast(*wNum); } else { auto wMode = stdx::get_if(&wVal); invariant(wMode); writeConcern.wNumNodes = 0; // Have to reset from default 1. writeConcern.wMode = std::move(*wMode); } } auto j = writeConcernIdl.getJ(); auto fsync = writeConcernIdl.getFsync(); if (j && fsync && *j && *fsync) { // If j and fsync are both set to true return Status{ErrorCodes::FailedToParse, "fsync and j options cannot be used together"}; } if (j && *j) { writeConcern.syncMode = SyncMode::JOURNAL; } else if (fsync && *fsync) { writeConcern.syncMode = SyncMode::FSYNC; } else if (j) { // j has been set to false writeConcern.syncMode = SyncMode::NONE; } writeConcern.wTimeout = writeConcernIdl.getWtimeout(); if (auto source = writeConcernIdl.getSource()) { writeConcern._provenance = ReadWriteConcernProvenance(*source); } return writeConcern; } BSONObj WriteConcernOptions::toBSON() const { BSONObjBuilder builder; if (wMode.empty()) { builder.append("w", wNumNodes); } else { builder.append("w", wMode); } if (syncMode == SyncMode::FSYNC) { builder.append("fsync", true); } else if (syncMode == SyncMode::JOURNAL) { builder.append("j", true); } else if (syncMode == SyncMode::NONE) { builder.append("j", false); } builder.append("wtimeout", wTimeout); _provenance.serialize(&builder); return builder.obj(); } bool WriteConcernOptions::needToWaitForOtherNodes() const { return !wMode.empty() || wNumNodes > 1; } bool WriteConcernOptions::operator==(const WriteConcernOptions& other) const { return syncMode == other.syncMode && wMode == other.wMode && wNumNodes == other.wNumNodes && wDeadline == other.wDeadline && wTimeout == other.wTimeout && _provenance == other._provenance; } } // namespace mongo