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/**
* Copyright (C) 2020-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::kResharding
#include "mongo/platform/basic.h"
#include "mongo/db/s/resharding_util.h"
#include <fmt/format.h>
#include "mongo/bson/bsonobj.h"
#include "mongo/bson/json.h"
#include "mongo/bson/util/bson_extract.h"
#include "mongo/db/concurrency/write_conflict_exception.h"
#include "mongo/db/exec/document_value/document.h"
#include "mongo/db/namespace_string.h"
#include "mongo/db/op_observer.h"
#include "mongo/db/operation_context.h"
#include "mongo/db/pipeline/document_source_add_fields.h"
#include "mongo/db/pipeline/document_source_find_and_modify_image_lookup.h"
#include "mongo/db/pipeline/document_source_match.h"
#include "mongo/db/s/collection_sharding_state.h"
#include "mongo/db/s/resharding/document_source_resharding_iterate_transaction.h"
#include "mongo/db/s/sharding_state.h"
#include "mongo/db/storage/write_unit_of_work.h"
#include "mongo/logv2/log.h"
#include "mongo/rpc/get_status_from_command_result.h"
#include "mongo/s/async_requests_sender.h"
#include "mongo/s/grid.h"
#include "mongo/s/request_types/flush_routing_table_cache_updates_gen.h"
#include "mongo/s/shard_invalidated_for_targeting_exception.h"
#include "mongo/s/shard_key_pattern.h"
namespace mongo {
using namespace fmt::literals;
BSONObj serializeAndTruncateReshardingErrorIfNeeded(Status originalError) {
BSONObjBuilder originalBob;
originalError.serializeErrorToBSON(&originalBob);
auto originalObj = originalBob.obj();
if (originalObj.objsize() <= kReshardErrorMaxBytes ||
originalError.code() == ErrorCodes::ReshardCollectionTruncatedError) {
// The provided originalError either meets the size constraints or has already been
// truncated (and is just slightly larger than 2000 bytes to avoid complicating the
// truncation math).
return originalObj;
}
// ReshardCollectionAborted has special internal handling. It should always have a short, fixed
// error message so it never exceeds the size limit and requires truncation and error code
// substitution.
invariant(originalError.code() != ErrorCodes::ReshardCollectionAborted);
auto originalErrorStr = originalError.toString();
auto truncatedErrorStr =
str::UTF8SafeTruncation(StringData(originalErrorStr), kReshardErrorMaxBytes);
Status truncatedError{ErrorCodes::ReshardCollectionTruncatedError, truncatedErrorStr};
BSONObjBuilder truncatedBob;
truncatedError.serializeErrorToBSON(&truncatedBob);
return truncatedBob.obj();
}
DonorShardEntry makeDonorShard(ShardId shardId,
DonorStateEnum donorState,
boost::optional<Timestamp> minFetchTimestamp,
boost::optional<Status> abortReason) {
DonorShardContext donorCtx;
donorCtx.setState(donorState);
emplaceMinFetchTimestampIfExists(donorCtx, minFetchTimestamp);
emplaceTruncatedAbortReasonIfExists(donorCtx, abortReason);
return DonorShardEntry{std::move(shardId), std::move(donorCtx)};
}
RecipientShardEntry makeRecipientShard(ShardId shardId,
RecipientStateEnum recipientState,
boost::optional<Status> abortReason) {
RecipientShardContext recipientCtx;
recipientCtx.setState(recipientState);
emplaceTruncatedAbortReasonIfExists(recipientCtx, abortReason);
return RecipientShardEntry{std::move(shardId), std::move(recipientCtx)};
}
UUID getCollectionUUIDFromChunkManger(const NamespaceString& originalNss, const ChunkManager& cm) {
auto collectionUUID = cm.getUUID();
uassert(ErrorCodes::InvalidUUID,
"Cannot reshard collection {} due to missing UUID"_format(originalNss.ns()),
collectionUUID);
return collectionUUID.get();
}
NamespaceString constructTemporaryReshardingNss(StringData db, const UUID& sourceUuid) {
return NamespaceString(db,
fmt::format("{}{}",
NamespaceString::kTemporaryReshardingCollectionPrefix,
sourceUuid.toString()));
}
std::set<ShardId> getRecipientShards(OperationContext* opCtx,
const NamespaceString& sourceNss,
const UUID& reshardingUUID) {
const auto& tempNss = constructTemporaryReshardingNss(sourceNss.db(), reshardingUUID);
auto* catalogCache = Grid::get(opCtx)->catalogCache();
auto cm = uassertStatusOK(catalogCache->getCollectionRoutingInfo(opCtx, tempNss));
uassert(ErrorCodes::NamespaceNotSharded,
str::stream() << "Expected collection " << tempNss << " to be sharded",
cm.isSharded());
std::set<ShardId> recipients;
cm.getAllShardIds(&recipients);
return recipients;
}
void checkForHolesAndOverlapsInChunks(std::vector<ReshardedChunk>& chunks,
const KeyPattern& keyPattern) {
std::sort(chunks.begin(), chunks.end(), [](const ReshardedChunk& a, const ReshardedChunk& b) {
return SimpleBSONObjComparator::kInstance.evaluate(a.getMin() < b.getMin());
});
// Check for global minKey and maxKey
uassert(ErrorCodes::BadValue,
"Chunk range must start at global min for new shard key",
SimpleBSONObjComparator::kInstance.evaluate(chunks.front().getMin() ==
keyPattern.globalMin()));
uassert(ErrorCodes::BadValue,
"Chunk range must end at global max for new shard key",
SimpleBSONObjComparator::kInstance.evaluate(chunks.back().getMax() ==
keyPattern.globalMax()));
boost::optional<BSONObj> prevMax = boost::none;
for (auto chunk : chunks) {
if (prevMax) {
uassert(ErrorCodes::BadValue,
"Chunk ranges must be contiguous",
SimpleBSONObjComparator::kInstance.evaluate(prevMax.get() == chunk.getMin()));
}
prevMax = boost::optional<BSONObj>(chunk.getMax());
}
}
void validateReshardedChunks(const std::vector<ReshardedChunk>& chunks,
OperationContext* opCtx,
const KeyPattern& keyPattern) {
std::vector<ReshardedChunk> validChunks;
for (const auto& chunk : chunks) {
uassertStatusOK(
Grid::get(opCtx)->shardRegistry()->getShard(opCtx, chunk.getRecipientShardId()));
validChunks.push_back(chunk);
}
checkForHolesAndOverlapsInChunks(validChunks, keyPattern);
}
Timestamp getHighestMinFetchTimestamp(const std::vector<DonorShardEntry>& donorShards) {
invariant(!donorShards.empty());
auto maxMinFetchTimestamp = Timestamp::min();
for (auto& donor : donorShards) {
auto donorFetchTimestamp = donor.getMutableState().getMinFetchTimestamp();
uassert(4957300,
"All donors must have a minFetchTimestamp, but donor {} does not."_format(
StringData{donor.getId()}),
donorFetchTimestamp.is_initialized());
if (maxMinFetchTimestamp < donorFetchTimestamp.value()) {
maxMinFetchTimestamp = donorFetchTimestamp.value();
}
}
return maxMinFetchTimestamp;
}
void checkForOverlappingZones(std::vector<ReshardingZoneType>& zones) {
std::sort(
zones.begin(), zones.end(), [](const ReshardingZoneType& a, const ReshardingZoneType& b) {
return SimpleBSONObjComparator::kInstance.evaluate(a.getMin() < b.getMin());
});
boost::optional<BSONObj> prevMax = boost::none;
for (auto zone : zones) {
if (prevMax) {
uassert(ErrorCodes::BadValue,
"Zone ranges must not overlap",
SimpleBSONObjComparator::kInstance.evaluate(prevMax.get() <= zone.getMin()));
}
prevMax = boost::optional<BSONObj>(zone.getMax());
}
}
std::vector<BSONObj> buildTagsDocsFromZones(const NamespaceString& tempNss,
const std::vector<ReshardingZoneType>& zones) {
std::vector<BSONObj> tags;
tags.reserve(zones.size());
for (const auto& zone : zones) {
ChunkRange range(zone.getMin(), zone.getMax());
TagsType tag(tempNss, zone.getZone().toString(), range);
tags.push_back(tag.toBSON());
}
return tags;
}
std::unique_ptr<Pipeline, PipelineDeleter> createOplogFetchingPipelineForResharding(
const boost::intrusive_ptr<ExpressionContext>& expCtx,
const ReshardingDonorOplogId& startAfter,
UUID collUUID,
const ShardId& recipientShard) {
using Doc = Document;
using Arr = std::vector<Value>;
using V = Value;
const Value EXISTS = V{Doc{{"$exists", true}}};
const Value DNE = V{Doc{{"$exists", false}}};
Pipeline::SourceContainer stages;
// The node receiving the query verifies continuity of oplog entries (i.e: that the recipient
// hasn't fallen off the oplog). This stage provides the input timestamp that the donor uses for
// verification.
stages.emplace_back(DocumentSourceMatch::create(
Doc{{"ts", Doc{{"$gte", startAfter.getTs()}}}}.toBson(), expCtx));
stages.emplace_back(DocumentSourceMatch::create(
Doc{{"$or",
// Only capture CRUD operations relevant for the `destinedRecipient`.
Arr{V{Doc{{"op", Doc{{"$in", Arr{V{"i"_sd}, V{"u"_sd}, V{"d"_sd}, V{"n"_sd}}}}},
{"ui", collUUID},
{"destinedRecipient", recipientShard.toString()}}},
// Capture all commands. One cannot determine if a command is relevant to the
// `destinedRecipient` until after oplog chaining via `prevOpTime` is resolved.
V{Doc{{"op", "c"_sd},
{"o.applyOps", EXISTS},
{"o.partialTxn", DNE},
{"o.prepare", DNE}}},
V{Doc{{"op", "c"_sd}, {"o.commitTransaction", EXISTS}}},
V{Doc{{"op", "c"_sd}, {"o.abortTransaction", EXISTS}}},
V{Doc{{"op", "c"_sd}, {"ui", collUUID}}}}}}
.toBson(),
expCtx));
// Converts oplog entries with kNeedsRetryImageFieldName into the old style pair of
// update/delete oplog and pre/post image no-op oplog.
stages.emplace_back(DocumentSourceFindAndModifyImageLookup::create(expCtx));
// Emits transaction entries chronologically, and adds _id to all events in the stream.
stages.emplace_back(DocumentSourceReshardingIterateTransaction::create(expCtx));
// Filter out applyOps entries which do not contain any relevant operations.
stages.emplace_back(DocumentSourceMatch::create(
Doc{{"$or",
Arr{V{Doc{{"op", Doc{{"$ne", "c"_sd}}}}},
V{Doc{{"op", "c"_sd}, {"o.applyOps", DNE}}},
V{Doc{{"op", "c"_sd},
{"o.applyOps",
Doc{{"$elemMatch",
Doc{{"destinedRecipient", recipientShard.toString()},
{"ui", collUUID}}}}}}}}}}
.toBson(),
expCtx));
// Now that the chained oplog entries are adjacent with an annotated `ReshardingDonorOplogId`,
// the pipeline can prune anything earlier than the resume time.
stages.emplace_back(DocumentSourceMatch::create(
Doc{{"_id", Doc{{"$gt", startAfter.toBSON()}}}}.toBson(), expCtx));
// Filter out anything inside of an `applyOps` specifically destined for another shard. This
// ensures zone restrictions are obeyed. Data will never be sent to a shard that it isn't meant
// to end up on.
stages.emplace_back(DocumentSourceAddFields::create(
Doc{{"o.applyOps",
Doc{{"$cond",
Doc{{"if", Doc{{"$eq", Arr{V{"$op"_sd}, V{"c"_sd}}}}},
{"then",
Doc{{"$filter",
Doc{{"input", "$o.applyOps"_sd},
{"cond",
Doc{{"$and",
Arr{V{Doc{{"$eq", Arr{V{"$$this.ui"_sd}, V{collUUID}}}}},
V{Doc{{"$eq",
Arr{V{"$$this.destinedRecipient"_sd},
V{recipientShard.toString()}}}}}}}}}}}}},
{"else", "$o.applyOps"_sd}}}}}}
.toBson(),
expCtx));
return Pipeline::create(std::move(stages), expCtx);
}
bool isFinalOplog(const repl::OplogEntry& oplog) {
if (oplog.getOpType() != repl::OpTypeEnum::kNoop) {
return false;
}
auto o2Field = oplog.getObject2();
if (!o2Field) {
return false;
}
return o2Field->getField("type").valueStringDataSafe() == kReshardFinalOpLogType;
}
bool isFinalOplog(const repl::OplogEntry& oplog, UUID reshardingUUID) {
if (!isFinalOplog(oplog)) {
return false;
}
return uassertStatusOK(UUID::parse(oplog.getObject2()->getField("reshardingUUID"))) ==
reshardingUUID;
}
NamespaceString getLocalOplogBufferNamespace(UUID existingUUID, ShardId donorShardId) {
return NamespaceString("config.localReshardingOplogBuffer.{}.{}"_format(
existingUUID.toString(), donorShardId.toString()));
}
NamespaceString getLocalConflictStashNamespace(UUID existingUUID, ShardId donorShardId) {
return NamespaceString{NamespaceString::kConfigDb,
"localReshardingConflictStash.{}.{}"_format(existingUUID.toString(),
donorShardId.toString())};
}
void doNoopWrite(OperationContext* opCtx, StringData opStr, const NamespaceString& nss) {
writeConflictRetry(opCtx, opStr, NamespaceString::kRsOplogNamespace.ns(), [&] {
AutoGetOplog oplogWrite(opCtx, OplogAccessMode::kWrite);
const std::string msg = str::stream() << opStr << " on " << nss;
WriteUnitOfWork wuow(opCtx);
opCtx->getClient()->getServiceContext()->getOpObserver()->onInternalOpMessage(
opCtx,
{},
boost::none,
BSON("msg" << msg),
boost::none,
boost::none,
boost::none,
boost::none,
boost::none);
wuow.commit();
});
}
} // namespace mongo
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