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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_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kCommand
#include "mongo/platform/basic.h"
#include "mongo/db/repl/apply_ops.h"
#include "mongo/bson/util/bson_extract.h"
#include "mongo/db/catalog/collection.h"
#include "mongo/db/catalog/database.h"
#include "mongo/db/catalog/database_holder.h"
#include "mongo/db/catalog/document_validation.h"
#include "mongo/db/client.h"
#include "mongo/db/concurrency/lock_state.h"
#include "mongo/db/concurrency/write_conflict_exception.h"
#include "mongo/db/curop.h"
#include "mongo/db/db_raii.h"
#include "mongo/db/dbdirectclient.h"
#include "mongo/db/index/index_descriptor.h"
#include "mongo/db/matcher/matcher.h"
#include "mongo/db/op_observer.h"
#include "mongo/db/operation_context.h"
#include "mongo/db/query/collation/collation_spec.h"
#include "mongo/db/repl/replication_coordinator.h"
#include "mongo/db/service_context.h"
#include "mongo/db/session_catalog_mongod.h"
#include "mongo/db/transaction_participant.h"
#include "mongo/rpc/get_status_from_command_result.h"
#include "mongo/util/fail_point_service.h"
#include "mongo/util/log.h"
namespace mongo {
namespace repl {
constexpr StringData ApplyOps::kPreconditionFieldName;
constexpr StringData ApplyOps::kOplogApplicationModeFieldName;
namespace {
// If enabled, causes loop in _applyOps() to hang after applying current operation.
MONGO_FAIL_POINT_DEFINE(applyOpsPauseBetweenOperations);
/**
* Return true iff the applyOpsCmd can be executed in a single WriteUnitOfWork.
*/
bool _parseAreOpsCrudOnly(const BSONObj& applyOpCmd) {
for (const auto& elem : applyOpCmd.firstElement().Obj()) {
const char* opType = elem.Obj().getField("op").valuestrsafe();
// All atomic ops have an opType of length 1.
if (opType[0] == '\0' || opType[1] != '\0')
return false;
// Only consider CRUD operations.
switch (*opType) {
case 'd':
case 'n':
case 'u':
break;
case 'i':
break;
// Fallthrough.
default:
return false;
}
}
return true;
}
Status _applyOps(OperationContext* opCtx,
const std::string& dbName,
const BSONObj& applyOpCmd,
const ApplyOpsCommandInfo& info,
repl::OplogApplication::Mode oplogApplicationMode,
BSONObjBuilder* result,
int* numApplied,
BSONArrayBuilder* opsBuilder) {
const auto& ops = info.getOperations();
// apply
*numApplied = 0;
int errors = 0;
BSONArrayBuilder ab;
const auto& alwaysUpsert = info.getAlwaysUpsert();
const bool haveWrappingWUOW = opCtx->lockState()->inAWriteUnitOfWork();
// Apply each op in the given 'applyOps' command object.
for (const auto& opObj : ops) {
// Ignore 'n' operations.
const char* opType = opObj["op"].valuestrsafe();
if (*opType == 'n')
continue;
const NamespaceString nss(opObj["ns"].String());
// Need to check this here, or OldClientContext may fail an invariant.
if (*opType != 'c' && !nss.isValid())
return {ErrorCodes::InvalidNamespace, "invalid ns: " + nss.ns()};
Status status(ErrorCodes::InternalError, "");
if (haveWrappingWUOW) {
// Only CRUD operations are allowed in atomic mode.
invariant(*opType != 'c');
// ApplyOps does not have the global writer lock when applying transaction
// operations, so we need to acquire the DB and Collection locks.
Lock::DBLock dbLock(opCtx, nss.db(), MODE_IX);
auto db = DatabaseHolder::getDatabaseHolder().get(opCtx, nss.ns());
if (!db) {
// Retry in non-atomic mode, since MMAP cannot implicitly create a new database
// within an active WriteUnitOfWork.
uasserted(ErrorCodes::AtomicityFailure,
"cannot create a database in atomic applyOps mode; will retry without "
"atomicity");
}
// When processing an update on a non-existent collection, applyOperation_inlock()
// returns UpdateOperationFailed on updates and allows the collection to be
// implicitly created on upserts. We detect both cases here and fail early with
// NamespaceNotFound.
// Additionally for inserts, we fail early on non-existent collections.
Lock::CollectionLock collectionLock(opCtx->lockState(), nss.ns(), MODE_IX);
auto collection = db->getCollection(opCtx, nss);
if (!collection && (*opType == 'i' || *opType == 'u')) {
uasserted(
ErrorCodes::AtomicityFailure,
str::stream()
<< "cannot apply insert or update operation on a non-existent namespace "
<< nss.ns()
<< " in atomic applyOps mode: "
<< redact(opObj));
}
// Reject malformed operations in an atomic applyOps.
try {
ReplOperation::parse(IDLParserErrorContext("applyOps"), opObj);
} catch (...) {
uasserted(ErrorCodes::AtomicityFailure,
str::stream()
<< "cannot apply a malformed operation in atomic applyOps mode: "
<< redact(opObj)
<< "; will retry without atomicity: "
<< exceptionToStatus().toString());
}
OldClientContext ctx(opCtx, nss.ns());
status = repl::applyOperation_inlock(
opCtx, ctx.db(), opObj, alwaysUpsert, oplogApplicationMode);
if (!status.isOK())
return status;
// Append completed op, including UUID if available, to 'opsBuilder'.
if (opsBuilder) {
if (opObj.hasField("ui") || !(collection && collection->uuid())) {
// No changes needed to operation document.
opsBuilder->append(opObj);
} else {
// Operation document has no "ui" field and collection has a UUID.
auto uuid = collection->uuid();
BSONObjBuilder opBuilder;
opBuilder.appendElements(opObj);
uuid->appendToBuilder(&opBuilder, "ui");
opsBuilder->append(opBuilder.obj());
}
}
} else {
try {
status = writeConflictRetry(
opCtx,
"applyOps",
nss.ns(),
[opCtx, nss, opObj, opType, alwaysUpsert, oplogApplicationMode] {
BSONObjBuilder builder;
builder.appendElements(opObj);
if (!builder.hasField(OplogEntry::kTimestampFieldName)) {
builder.append(OplogEntry::kTimestampFieldName, Timestamp());
}
if (!builder.hasField(OplogEntry::kHashFieldName)) {
builder.append(OplogEntry::kHashFieldName, 0LL);
}
auto entryObj = builder.done();
auto entry = uassertStatusOK(OplogEntry::parse(entryObj));
if (*opType == 'c') {
invariant(opCtx->lockState()->isW());
uassertStatusOK(repl::applyCommand_inlock(
opCtx, opObj, entry, oplogApplicationMode));
return Status::OK();
}
AutoGetCollection autoColl(opCtx, nss, MODE_IX);
if (!autoColl.getCollection()) {
// For idempotency reasons, return success on delete operations.
if (*opType == 'd') {
return Status::OK();
}
uasserted(ErrorCodes::NamespaceNotFound,
str::stream()
<< "cannot apply insert or update operation on a "
"non-existent namespace "
<< nss.ns()
<< ": "
<< mongo::redact(opObj));
}
OldClientContext ctx(opCtx, nss.ns());
// We return the status rather than merely aborting so failure of CRUD
// ops doesn't stop the applyOps from trying to process the rest of the
// ops. This is to leave the door open to parallelizing CRUD op
// application in the future.
return repl::applyOperation_inlock(
opCtx, ctx.db(), opObj, alwaysUpsert, oplogApplicationMode);
});
} catch (const DBException& ex) {
ab.append(false);
result->append("applied", ++(*numApplied));
result->append("code", ex.code());
result->append("codeName", ErrorCodes::errorString(ex.code()));
result->append("errmsg", ex.what());
result->append("results", ab.arr());
return Status(ex.code(), ex.what());
}
}
ab.append(status.isOK());
if (!status.isOK()) {
log() << "applyOps error applying: " << status;
errors++;
}
(*numApplied)++;
if (MONGO_FAIL_POINT(applyOpsPauseBetweenOperations)) {
MONGO_FAIL_POINT_PAUSE_WHILE_SET(applyOpsPauseBetweenOperations);
}
}
result->append("applied", *numApplied);
result->append("results", ab.arr());
if (errors != 0) {
return Status(ErrorCodes::UnknownError, "applyOps had one or more errors applying ops");
}
return Status::OK();
}
Status _applyPrepareTransaction(OperationContext* opCtx,
const repl::OplogEntry& entry,
repl::OplogApplication::Mode oplogApplicationMode) {
// Wait until the end of recovery to apply the operations from the prepared transaction.
if (oplogApplicationMode == OplogApplication::Mode::kRecovering) {
if (!serverGlobalParams.enableMajorityReadConcern) {
error() << "Cannot replay a prepared transaction when 'enableMajorityReadConcern' is "
"set to false. Restart the server with --enableMajorityReadConcern=true "
"to complete recovery.";
}
fassert(50964, serverGlobalParams.enableMajorityReadConcern);
return Status::OK();
}
// Return error if run via applyOps command.
uassert(50945,
"applyOps with prepared flag is only used internally by secondaries.",
oplogApplicationMode != repl::OplogApplication::Mode::kApplyOpsCmd);
// TODO: SERVER-36492 Only run on secondary until we support initial sync.
invariant(oplogApplicationMode == repl::OplogApplication::Mode::kSecondary);
const auto info = ApplyOpsCommandInfo::parse(entry.getObject());
invariant(info.getPrepare() && *info.getPrepare());
uassert(
50946,
"applyOps with prepared must only include CRUD operations and cannot have precondition.",
!info.getPreCondition() && info.areOpsCrudOnly());
// Transaction operations are in its own batch, so we can modify their opCtx.
invariant(entry.getSessionId());
invariant(entry.getTxnNumber());
opCtx->setLogicalSessionId(*entry.getSessionId());
opCtx->setTxnNumber(*entry.getTxnNumber());
// The write on transaction table may be applied concurrently, so refreshing state
// from disk may read that write, causing starting a new transaction on an existing
// txnNumber. Thus, we start a new transaction without refreshing state from disk.
MongoDOperationContextSessionWithoutRefresh sessionCheckout(opCtx);
auto transaction = TransactionParticipant::get(opCtx);
transaction->unstashTransactionResources(opCtx, "prepareTransaction");
// Apply the operations via applysOps functionality.
int numApplied = 0;
BSONObjBuilder resultWeDontCareAbout;
auto status = _applyOps(opCtx,
entry.getNss().db().toString(),
entry.getObject(),
info,
oplogApplicationMode,
&resultWeDontCareAbout,
&numApplied,
nullptr);
if (!status.isOK()) {
return status;
}
invariant(!entry.getOpTime().isNull());
transaction->prepareTransaction(opCtx, entry.getOpTime());
transaction->stashTransactionResources(opCtx);
return Status::OK();
}
Status _checkPrecondition(OperationContext* opCtx,
const std::vector<BSONObj>& preConditions,
BSONObjBuilder* result) {
invariant(opCtx->lockState()->isW());
for (const auto& preCondition : preConditions) {
if (preCondition["ns"].type() != BSONType::String) {
return {ErrorCodes::InvalidNamespace,
str::stream() << "ns in preCondition must be a string, but found type: "
<< typeName(preCondition["ns"].type())};
}
const NamespaceString nss(preCondition["ns"].valueStringData());
if (!nss.isValid()) {
return {ErrorCodes::InvalidNamespace, "invalid ns: " + nss.ns()};
}
DBDirectClient db(opCtx);
BSONObj realres = db.findOne(nss.ns(), preCondition["q"].Obj());
// Get collection default collation.
Database* database = DatabaseHolder::getDatabaseHolder().get(opCtx, nss.db());
if (!database) {
return {ErrorCodes::NamespaceNotFound, "database in ns does not exist: " + nss.ns()};
}
Collection* collection = database->getCollection(opCtx, nss);
if (!collection) {
return {ErrorCodes::NamespaceNotFound, "collection in ns does not exist: " + nss.ns()};
}
const CollatorInterface* collator = collection->getDefaultCollator();
// applyOps does not allow any extensions, such as $text, $where, $geoNear, $near,
// $nearSphere, or $expr.
boost::intrusive_ptr<ExpressionContext> expCtx(new ExpressionContext(opCtx, collator));
Matcher matcher(preCondition["res"].Obj(), std::move(expCtx));
if (!matcher.matches(realres)) {
result->append("got", realres);
result->append("whatFailed", preCondition);
return {ErrorCodes::BadValue, "preCondition failed"};
}
}
return Status::OK();
}
} // namespace
// static
ApplyOpsCommandInfo ApplyOpsCommandInfo::parse(const BSONObj& applyOpCmd) {
try {
return ApplyOpsCommandInfo(applyOpCmd);
} catch (DBException& ex) {
ex.addContext(str::stream() << "Failed to parse applyOps command: " << redact(applyOpCmd));
throw;
}
}
bool ApplyOpsCommandInfo::areOpsCrudOnly() const {
return _areOpsCrudOnly;
}
bool ApplyOpsCommandInfo::isAtomic() const {
return getAllowAtomic() && areOpsCrudOnly();
}
ApplyOpsCommandInfo::ApplyOpsCommandInfo(const BSONObj& applyOpCmd)
: _areOpsCrudOnly(_parseAreOpsCrudOnly(applyOpCmd)) {
parseProtected(IDLParserErrorContext("applyOps"), applyOpCmd);
if (getPreCondition()) {
uassert(ErrorCodes::InvalidOptions,
"Cannot use preCondition with {allowAtomic: false}",
getAllowAtomic());
uassert(ErrorCodes::InvalidOptions,
"Cannot use preCondition when operations include commands.",
areOpsCrudOnly());
}
}
Status applyApplyOpsOplogEntry(OperationContext* opCtx,
const OplogEntry& entry,
repl::OplogApplication::Mode oplogApplicationMode) {
// Apply prepare transaction operation if "prepare" is true.
// The lock requirement of transaction operations should be the same as that on the primary,
// so we don't acquire the locks conservatively for them.
if (entry.shouldPrepare()) {
return _applyPrepareTransaction(opCtx, entry, oplogApplicationMode);
}
BSONObjBuilder resultWeDontCareAbout;
return applyOps(opCtx,
entry.getNss().db().toString(),
entry.getObject(),
oplogApplicationMode,
&resultWeDontCareAbout);
}
Status applyOps(OperationContext* opCtx,
const std::string& dbName,
const BSONObj& applyOpCmd,
repl::OplogApplication::Mode oplogApplicationMode,
BSONObjBuilder* result) {
auto info = ApplyOpsCommandInfo::parse(applyOpCmd);
int numApplied = 0;
boost::optional<Lock::GlobalWrite> globalWriteLock;
boost::optional<Lock::DBLock> dbWriteLock;
uassert(
ErrorCodes::BadValue, "applyOps command can't have 'prepare' field", !info.getPrepare());
// There's only one case where we are allowed to take the database lock instead of the global
// lock - no preconditions; only CRUD ops; and non-atomic mode.
if (!info.getPreCondition() && info.areOpsCrudOnly() && !info.getAllowAtomic()) {
dbWriteLock.emplace(opCtx, dbName, MODE_IX);
} else {
globalWriteLock.emplace(opCtx);
}
auto replCoord = repl::ReplicationCoordinator::get(opCtx);
bool userInitiatedWritesAndNotPrimary =
opCtx->writesAreReplicated() && !replCoord->canAcceptWritesForDatabase(opCtx, dbName);
if (userInitiatedWritesAndNotPrimary)
return Status(ErrorCodes::NotMaster,
str::stream() << "Not primary while applying ops to database " << dbName);
if (auto preCondition = info.getPreCondition()) {
invariant(info.isAtomic());
auto status = _checkPrecondition(opCtx, *preCondition, result);
if (!status.isOK()) {
return status;
}
}
if (!info.isAtomic()) {
return _applyOps(
opCtx, dbName, applyOpCmd, info, oplogApplicationMode, result, &numApplied, nullptr);
}
// Perform write ops atomically
invariant(globalWriteLock);
try {
writeConflictRetry(opCtx, "applyOps", dbName, [&] {
BSONObjBuilder intermediateResult;
std::unique_ptr<BSONArrayBuilder> opsBuilder;
if (opCtx->writesAreReplicated()) {
opsBuilder = stdx::make_unique<BSONArrayBuilder>();
}
WriteUnitOfWork wunit(opCtx);
numApplied = 0;
{
// Suppress replication for atomic operations until end of applyOps.
repl::UnreplicatedWritesBlock uwb(opCtx);
uassertStatusOK(_applyOps(opCtx,
dbName,
applyOpCmd,
info,
oplogApplicationMode,
&intermediateResult,
&numApplied,
opsBuilder.get()));
}
// Generate oplog entry for all atomic ops collectively.
if (opCtx->writesAreReplicated()) {
// We want this applied atomically on slaves so we rewrite the oplog entry without
// the pre-condition for speed.
BSONObjBuilder cmdBuilder;
auto opsFieldName = applyOpCmd.firstElement().fieldNameStringData();
for (auto elem : applyOpCmd) {
auto name = elem.fieldNameStringData();
if (name == opsFieldName && opsBuilder) {
cmdBuilder.append(opsFieldName, opsBuilder->arr());
continue;
}
if (name == ApplyOps::kPreconditionFieldName)
continue;
if (name == bypassDocumentValidationCommandOption())
continue;
cmdBuilder.append(elem);
}
const BSONObj cmdRewritten = cmdBuilder.done();
auto opObserver = getGlobalServiceContext()->getOpObserver();
invariant(opObserver);
opObserver->onApplyOps(opCtx, dbName, cmdRewritten);
}
wunit.commit();
result->appendElements(intermediateResult.obj());
});
} catch (const DBException& ex) {
if (ex.code() == ErrorCodes::AtomicityFailure) {
// Retry in non-atomic mode.
return _applyOps(opCtx,
dbName,
applyOpCmd,
info,
oplogApplicationMode,
result,
&numApplied,
nullptr);
}
BSONArrayBuilder ab;
++numApplied;
for (int j = 0; j < numApplied; j++)
ab.append(false);
result->append("applied", numApplied);
result->append("code", ex.code());
result->append("codeName", ErrorCodes::errorString(ex.code()));
result->append("errmsg", ex.what());
result->append("results", ab.arr());
return ex.toStatus();
}
return Status::OK();
}
// static
MultiApplier::Operations ApplyOps::extractOperations(const OplogEntry& applyOpsOplogEntry) {
uassert(ErrorCodes::TypeMismatch,
str::stream() << "ApplyOps::extractOperations(): not a command: "
<< redact(applyOpsOplogEntry.toBSON()),
applyOpsOplogEntry.isCommand());
uassert(ErrorCodes::CommandNotSupported,
str::stream() << "ApplyOps::extractOperations(): not applyOps command: "
<< redact(applyOpsOplogEntry.toBSON()),
OplogEntry::CommandType::kApplyOps == applyOpsOplogEntry.getCommandType());
auto cmdObj = applyOpsOplogEntry.getOperationToApply();
auto operationDocs = cmdObj.firstElement().Obj();
if (operationDocs.isEmpty()) {
return {};
}
MultiApplier::Operations operations;
auto topLevelDoc = applyOpsOplogEntry.toBSON();
for (const auto& elem : operationDocs) {
auto operationDoc = elem.Obj();
BSONObjBuilder builder(operationDoc);
builder.appendElementsUnique(topLevelDoc);
auto operation = builder.obj();
operations.emplace_back(operation);
}
return operations;
}
} // namespace repl
} // namespace mongo
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