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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::kReplicationInitialSync
#include "mongo/platform/basic.h"
#include "mongo/db/repl/database_cloner.h"
#include <algorithm>
#include <functional>
#include <iterator>
#include <set>
#include "mongo/client/remote_command_retry_scheduler.h"
#include "mongo/db/catalog/collection_options.h"
#include "mongo/db/commands/list_collections_filter.h"
#include "mongo/db/repl/repl_server_parameters_gen.h"
#include "mongo/db/repl/storage_interface.h"
#include "mongo/util/assert_util.h"
#include "mongo/util/destructor_guard.h"
#include "mongo/util/fail_point_service.h"
#include "mongo/util/log.h"
#include "mongo/util/str.h"
namespace mongo {
namespace repl {
// Failpoint which causes the initial sync function to hang before running listCollections.
MONGO_FAIL_POINT_DEFINE(initialSyncHangBeforeListCollections);
namespace {
using LockGuard = stdx::lock_guard<stdx::mutex>;
using UniqueLock = stdx::unique_lock<stdx::mutex>;
using executor::RemoteCommandRequest;
const char* kNameFieldName = "name";
const char* kOptionsFieldName = "options";
const char* kInfoFieldName = "info";
const char* kUUIDFieldName = "uuid";
// Failpoint which causes initial sync to hang right after listCollections, but before cloning
// any colelctions in the 'database' database.
MONGO_FAIL_POINT_DEFINE(initialSyncHangAfterListCollections);
/**
* Default listCollections predicate.
*/
bool acceptAllPred(const BSONObj&) {
return true;
}
/**
* Creates a listCollections command obj with an optional filter.
*/
BSONObj createListCollectionsCommandObject(const BSONObj& filter) {
BSONObjBuilder output;
output.append("listCollections", 1);
if (!filter.isEmpty()) {
output.append("filter", filter);
}
return output.obj();
}
} // namespace
DatabaseCloner::DatabaseCloner(executor::TaskExecutor* executor,
ThreadPool* dbWorkThreadPool,
const HostAndPort& source,
const std::string& dbname,
const BSONObj& listCollectionsFilter,
const ListCollectionsPredicateFn& listCollectionsPred,
StorageInterface* si,
const CollectionCallbackFn& collWork,
CallbackFn onCompletion)
: _executor(executor),
_dbWorkThreadPool(dbWorkThreadPool),
_source(source),
_dbname(dbname),
_listCollectionsFilter(
listCollectionsFilter.isEmpty()
? ListCollectionsFilter::makeTypeCollectionFilter()
: ListCollectionsFilter::addTypeCollectionFilter(listCollectionsFilter)),
_listCollectionsPredicate(listCollectionsPred ? listCollectionsPred : acceptAllPred),
_storageInterface(si),
_collectionWork(collWork),
_onCompletion(std::move(onCompletion)),
_listCollectionsFetcher(
_executor,
_source,
_dbname,
createListCollectionsCommandObject(_listCollectionsFilter),
[=](const StatusWith<Fetcher::QueryResponse>& result,
Fetcher::NextAction* nextAction,
BSONObjBuilder* getMoreBob) {
_listCollectionsCallback(result, nextAction, getMoreBob);
},
ReadPreferenceSetting::secondaryPreferredMetadata(),
RemoteCommandRequest::kNoTimeout /* find network timeout */,
RemoteCommandRequest::kNoTimeout /* getMore network timeout */,
RemoteCommandRetryScheduler::makeRetryPolicy<ErrorCategory::RetriableError>(
numInitialSyncListCollectionsAttempts.load(),
executor::RemoteCommandRequest::kNoTimeout)),
_startCollectionCloner([](CollectionCloner& cloner) { return cloner.startup(); }) {
// Fetcher throws an exception on null executor.
invariant(executor);
uassert(ErrorCodes::BadValue, "db worker thread pool cannot be null", dbWorkThreadPool);
uassert(ErrorCodes::BadValue, "empty database name", !dbname.empty());
uassert(ErrorCodes::BadValue, "storage interface cannot be null", si);
uassert(ErrorCodes::BadValue, "collection callback function cannot be null", collWork);
uassert(ErrorCodes::BadValue, "callback function cannot be null", _onCompletion);
_stats.dbname = _dbname;
}
DatabaseCloner::~DatabaseCloner() {
DESTRUCTOR_GUARD(shutdown(); join(););
}
const std::vector<BSONObj>& DatabaseCloner::getCollectionInfos_forTest() const {
LockGuard lk(_mutex);
return _collectionInfos;
}
bool DatabaseCloner::isActive() const {
LockGuard lk(_mutex);
return _isActive_inlock();
}
bool DatabaseCloner::_isActive_inlock() const {
return State::kRunning == _state || State::kShuttingDown == _state;
}
bool DatabaseCloner::_isShuttingDown() const {
LockGuard lk(_mutex);
return State::kShuttingDown == _state;
}
Status DatabaseCloner::startup() noexcept {
UniqueLock lk(_mutex);
switch (_state) {
case State::kPreStart:
_state = State::kRunning;
break;
case State::kRunning:
return Status(ErrorCodes::InternalError, "database cloner already started");
case State::kShuttingDown:
return Status(ErrorCodes::ShutdownInProgress, "database cloner shutting down");
case State::kComplete:
return Status(ErrorCodes::ShutdownInProgress, "database cloner completed");
}
MONGO_FAIL_POINT_BLOCK(initialSyncHangBeforeListCollections, customArgs) {
const auto& data = customArgs.getData();
const auto databaseElem = data["database"];
if (!databaseElem || databaseElem.checkAndGetStringData() == _dbname) {
lk.unlock();
log() << "initial sync - initialSyncHangBeforeListCollections fail point "
"enabled. Blocking until fail point is disabled.";
while (MONGO_FAIL_POINT(initialSyncHangBeforeListCollections) && !_isShuttingDown()) {
mongo::sleepsecs(1);
}
lk.lock();
}
}
_stats.start = _executor->now();
LOG(1) << "Scheduling listCollections call for database: " << _dbname;
Status scheduleResult = _listCollectionsFetcher.schedule();
if (!scheduleResult.isOK()) {
error() << "Error scheduling listCollections for database: " << _dbname
<< ", error:" << scheduleResult;
_state = State::kComplete;
return scheduleResult;
}
return Status::OK();
}
void DatabaseCloner::shutdown() {
stdx::lock_guard<stdx::mutex> lock(_mutex);
switch (_state) {
case State::kPreStart:
// Transition directly from PreStart to Complete if not started yet.
_state = State::kComplete;
return;
case State::kRunning:
_state = State::kShuttingDown;
break;
case State::kShuttingDown:
case State::kComplete:
// Nothing to do if we are already in ShuttingDown or Complete state.
return;
}
for (auto&& collectionCloner : _collectionCloners) {
collectionCloner.shutdown();
}
_listCollectionsFetcher.shutdown();
}
DatabaseCloner::Stats DatabaseCloner::getStats() const {
LockGuard lk(_mutex);
DatabaseCloner::Stats stats = _stats;
for (auto&& collectionCloner : _collectionCloners) {
stats.collectionStats.emplace_back(collectionCloner.getStats());
}
return stats;
}
void DatabaseCloner::join() {
UniqueLock lk(_mutex);
_condition.wait(lk, [this]() { return !_isActive_inlock(); });
}
void DatabaseCloner::setScheduleDbWorkFn_forTest(const ScheduleDbWorkFn& work) {
LockGuard lk(_mutex);
_scheduleDbWorkFn = work;
}
void DatabaseCloner::setStartCollectionClonerFn(
const StartCollectionClonerFn& startCollectionCloner) {
_startCollectionCloner = startCollectionCloner;
}
DatabaseCloner::State DatabaseCloner::getState_forTest() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return _state;
}
void DatabaseCloner::_listCollectionsCallback(const StatusWith<Fetcher::QueryResponse>& result,
Fetcher::NextAction* nextAction,
BSONObjBuilder* getMoreBob) {
if (!result.isOK()) {
_finishCallback(result.getStatus().withContext(
str::stream() << "Error issuing listCollections on db '" << _dbname
<< "' (host:" << _source.toString() << ")"));
return;
}
auto batchData(result.getValue());
auto&& documents = batchData.documents;
UniqueLock lk(_mutex);
// We may be called with multiple batches leading to a need to grow _collectionInfos.
_collectionInfos.reserve(_collectionInfos.size() + documents.size());
std::copy_if(documents.begin(),
documents.end(),
std::back_inserter(_collectionInfos),
_listCollectionsPredicate);
_stats.collections += _collectionInfos.size();
// The fetcher will continue to call with kGetMore until an error or the last batch.
if (*nextAction == Fetcher::NextAction::kGetMore) {
invariant(getMoreBob);
getMoreBob->append("getMore", batchData.cursorId);
getMoreBob->append("collection", batchData.nss.coll());
return;
}
// Nothing to do for an empty database.
if (_collectionInfos.empty()) {
_finishCallback_inlock(lk, Status::OK());
return;
}
MONGO_FAIL_POINT_BLOCK(initialSyncHangAfterListCollections, options) {
const BSONObj& data = options.getData();
if (data["database"].String() == _dbname) {
log() << "initial sync - initialSyncHangAfterListCollections fail point "
"enabled. Blocking until fail point is disabled.";
while (MONGO_FAIL_POINT(initialSyncHangAfterListCollections)) {
mongo::sleepsecs(1);
}
}
}
_collectionNamespaces.reserve(_collectionInfos.size());
std::set<std::string> seen;
for (auto&& info : _collectionInfos) {
BSONElement nameElement = info.getField(kNameFieldName);
if (nameElement.eoo()) {
_finishCallback_inlock(lk,
{ErrorCodes::FailedToParse,
str::stream() << "collection info must contain '"
<< kNameFieldName << "' "
<< "field : " << info});
return;
}
if (nameElement.type() != mongo::String) {
_finishCallback_inlock(
lk,
{ErrorCodes::TypeMismatch,
str::stream() << "'" << kNameFieldName << "' field must be a string: " << info});
return;
}
const std::string collectionName = nameElement.String();
if (seen.find(collectionName) != seen.end()) {
_finishCallback_inlock(lk,
{ErrorCodes::Error(51005),
str::stream()
<< "collection info contains duplicate collection name "
<< "'" << collectionName << "': " << info});
return;
}
BSONElement optionsElement = info.getField(kOptionsFieldName);
if (optionsElement.eoo()) {
_finishCallback_inlock(lk,
{ErrorCodes::FailedToParse,
str::stream() << "collection info must contain '"
<< kOptionsFieldName << "' "
<< "field : " << info});
return;
}
if (!optionsElement.isABSONObj()) {
_finishCallback_inlock(lk,
Status(ErrorCodes::TypeMismatch,
str::stream() << "'" << kOptionsFieldName
<< "' field must be an object: " << info));
return;
}
const BSONObj optionsObj = optionsElement.Obj();
CollectionOptions options;
auto statusWithCollectionOptions =
CollectionOptions::parse(optionsObj, CollectionOptions::parseForStorage);
if (!statusWithCollectionOptions.isOK()) {
_finishCallback_inlock(lk, statusWithCollectionOptions.getStatus());
return;
}
options = statusWithCollectionOptions.getValue();
BSONElement infoElement = info.getField(kInfoFieldName);
if (infoElement.isABSONObj()) {
BSONElement uuidElement = infoElement[kUUIDFieldName];
if (!uuidElement.eoo()) {
auto res = CollectionUUID::parse(uuidElement);
if (!res.isOK()) {
_finishCallback_inlock(lk, res.getStatus());
return;
}
options.uuid = res.getValue();
}
}
// TODO(SERVER-27994): Ensure UUID present when FCV >= "3.6".
seen.insert(collectionName);
_collectionNamespaces.emplace_back(_dbname, collectionName);
auto&& nss = *_collectionNamespaces.crbegin();
try {
_collectionCloners.emplace_back(
_executor,
_dbWorkThreadPool,
_source,
nss,
options,
[=](const Status& status) { return _collectionClonerCallback(status, nss); },
_storageInterface,
collectionClonerBatchSize);
} catch (const AssertionException& ex) {
_finishCallback_inlock(lk, ex.toStatus());
return;
}
}
if (_scheduleDbWorkFn) {
for (auto&& collectionCloner : _collectionCloners) {
collectionCloner.setScheduleDbWorkFn_forTest(_scheduleDbWorkFn);
}
}
// Start first collection cloner.
_currentCollectionClonerIter = _collectionCloners.begin();
LOG(1) << " cloning collection " << _currentCollectionClonerIter->getSourceNamespace();
Status startStatus = _startCollectionCloner(*_currentCollectionClonerIter);
if (!startStatus.isOK()) {
LOG(1) << " failed to start collection cloning on "
<< _currentCollectionClonerIter->getSourceNamespace() << ": " << redact(startStatus);
_finishCallback_inlock(lk, startStatus);
return;
}
}
void DatabaseCloner::_collectionClonerCallback(const Status& status, const NamespaceString& nss) {
UniqueLock lk(_mutex);
auto collStatus = Status::OK();
// Record failure, but do not return just yet, in case we want to do some logging.
if (!status.isOK()) {
collStatus = status.withContext(str::stream()
<< "Error cloning collection '" << nss.toString() << "'");
}
// Forward collection cloner result to caller.
lk.unlock();
_collectionWork(collStatus, nss);
lk.lock();
// Failure to clone a collection will stop the database cloner from
// cloning the rest of the collections in the listCollections result.
if (!collStatus.isOK()) {
Status failStatus = {ErrorCodes::InitialSyncFailure, collStatus.toString()};
_finishCallback_inlock(lk, failStatus);
return;
}
++_stats.clonedCollections;
_currentCollectionClonerIter++;
if (_currentCollectionClonerIter != _collectionCloners.end()) {
Status startStatus = _startCollectionCloner(*_currentCollectionClonerIter);
if (!startStatus.isOK()) {
LOG(1) << " failed to start collection cloning on "
<< _currentCollectionClonerIter->getSourceNamespace() << ": "
<< redact(startStatus);
_finishCallback_inlock(lk, startStatus);
return;
}
return;
}
_finishCallback_inlock(lk, Status::OK());
}
void DatabaseCloner::_finishCallback(const Status& status) {
_onCompletion(status);
LockGuard lk(_mutex);
invariant(_state != State::kComplete);
_state = State::kComplete;
_condition.notify_all();
_stats.end = _executor->now();
LOG(1) << " database: " << _dbname << ", stats: " << _stats.toString();
}
void DatabaseCloner::_finishCallback_inlock(UniqueLock& lk, const Status& status) {
if (lk.owns_lock()) {
lk.unlock();
}
_finishCallback(status);
}
std::string DatabaseCloner::getDBName() const {
return _dbname;
}
std::string DatabaseCloner::Stats::toString() const {
return toBSON().toString();
}
BSONObj DatabaseCloner::Stats::toBSON() const {
BSONObjBuilder bob;
bob.append("dbname", dbname);
append(&bob);
return bob.obj();
}
void DatabaseCloner::Stats::append(BSONObjBuilder* builder) const {
builder->appendNumber("collections", collections);
builder->appendNumber("clonedCollections", clonedCollections);
if (start != Date_t()) {
builder->appendDate("start", start);
if (end != Date_t()) {
builder->appendDate("end", end);
auto elapsed = end - start;
long long elapsedMillis = duration_cast<Milliseconds>(elapsed).count();
builder->appendNumber("elapsedMillis", elapsedMillis);
}
}
for (auto&& collection : collectionStats) {
BSONObjBuilder collectionBuilder(builder->subobjStart(collection.ns));
collection.append(&collectionBuilder);
collectionBuilder.doneFast();
}
}
std::ostream& operator<<(std::ostream& os, const DatabaseCloner::State& state) {
switch (state) {
case DatabaseCloner::State::kPreStart:
return os << "PreStart";
case DatabaseCloner::State::kRunning:
return os << "Running";
case DatabaseCloner::State::kShuttingDown:
return os << "ShuttingDown";
case DatabaseCloner::State::kComplete:
return os << "Complete";
}
MONGO_UNREACHABLE;
}
} // namespace repl
} // namespace mongo
|