mirror of
https://github.com/ClickHouse/ClickHouse.git
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aa5f207fd4
Co-authored-by: Alexander Kazakov <Akazz@users.noreply.github.com>
237 lines
8.2 KiB
C++
237 lines
8.2 KiB
C++
#include <Storages/MergeTree/MergeTreePartsMover.h>
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#include <Storages/MergeTree/MergeTreeData.h>
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#include <set>
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#include <boost/algorithm/string/join.hpp>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int ABORTED;
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}
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namespace
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{
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/// Contains minimal number of heaviest parts, which sum size on disk is greater than required.
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/// If there are not enough summary size, than contains all parts.
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class LargestPartsWithRequiredSize
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{
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struct PartsSizeOnDiskComparator
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{
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bool operator()(const MergeTreeData::DataPartPtr & f, const MergeTreeData::DataPartPtr & s) const
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{
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/// If parts have equal sizes, than order them by names (names are unique)
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UInt64 first_part_size = f->getBytesOnDisk();
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UInt64 second_part_size = s->getBytesOnDisk();
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return std::tie(first_part_size, f->name) < std::tie(second_part_size, s->name);
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}
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};
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std::set<MergeTreeData::DataPartPtr, PartsSizeOnDiskComparator> elems;
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UInt64 required_size_sum;
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UInt64 current_size_sum = 0;
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public:
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explicit LargestPartsWithRequiredSize(UInt64 required_sum_size_) : required_size_sum(required_sum_size_) {}
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void add(MergeTreeData::DataPartPtr part)
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{
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if (current_size_sum < required_size_sum)
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{
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elems.emplace(part);
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current_size_sum += part->getBytesOnDisk();
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return;
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}
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/// Adding smaller element
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if (!elems.empty() && (*elems.begin())->getBytesOnDisk() >= part->getBytesOnDisk())
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return;
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elems.emplace(part);
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current_size_sum += part->getBytesOnDisk();
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removeRedundantElements();
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}
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/// Weaken requirements on size
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void decreaseRequiredSizeAndRemoveRedundantParts(UInt64 size_decrease)
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{
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required_size_sum -= std::min(size_decrease, required_size_sum);
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removeRedundantElements();
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}
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/// Returns parts ordered by size
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MergeTreeData::DataPartsVector getAccumulatedParts()
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{
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MergeTreeData::DataPartsVector res;
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for (const auto & elem : elems)
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res.push_back(elem);
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return res;
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}
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private:
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void removeRedundantElements()
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{
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while (!elems.empty() && (current_size_sum - (*elems.begin())->getBytesOnDisk() >= required_size_sum))
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{
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current_size_sum -= (*elems.begin())->getBytesOnDisk();
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elems.erase(elems.begin());
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}
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}
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};
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}
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bool MergeTreePartsMover::selectPartsForMove(
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MergeTreeMovingParts & parts_to_move,
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const AllowedMovingPredicate & can_move,
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const std::lock_guard<std::mutex> & /* moving_parts_lock */)
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{
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unsigned parts_to_move_by_policy_rules = 0;
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unsigned parts_to_move_by_ttl_rules = 0;
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double parts_to_move_total_size_bytes = 0.0;
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MergeTreeData::DataPartsVector data_parts = data->getDataPartsVector();
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if (data_parts.empty())
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return false;
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std::unordered_map<DiskPtr, LargestPartsWithRequiredSize> need_to_move;
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const auto policy = data->getStoragePolicy();
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const auto & volumes = policy->getVolumes();
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if (!volumes.empty())
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{
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/// Do not check last volume
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for (size_t i = 0; i != volumes.size() - 1; ++i)
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{
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for (const auto & disk : volumes[i]->getDisks())
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{
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UInt64 required_maximum_available_space = disk->getTotalSpace() * policy->getMoveFactor();
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UInt64 unreserved_space = disk->getUnreservedSpace();
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if (unreserved_space < required_maximum_available_space)
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need_to_move.emplace(disk, required_maximum_available_space - unreserved_space);
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}
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}
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}
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time_t time_of_move = time(nullptr);
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auto metadata_snapshot = data->getInMemoryMetadataPtr();
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for (const auto & part : data_parts)
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{
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String reason;
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/// Don't report message to log, because logging is excessive.
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if (!can_move(part, &reason))
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continue;
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auto ttl_entry = selectTTLDescriptionForTTLInfos(metadata_snapshot->getMoveTTLs(), part->ttl_infos.moves_ttl, time_of_move, true);
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auto to_insert = need_to_move.find(part->volume->getDisk());
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ReservationPtr reservation;
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if (ttl_entry)
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{
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auto destination = data->getDestinationForMoveTTL(*ttl_entry);
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if (destination && !data->isPartInTTLDestination(*ttl_entry, *part))
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reservation = data->tryReserveSpace(part->getBytesOnDisk(), data->getDestinationForMoveTTL(*ttl_entry));
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}
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if (reservation) /// Found reservation by TTL rule.
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{
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parts_to_move.emplace_back(part, std::move(reservation));
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/// If table TTL rule satisfies on this part, won't apply policy rules on it.
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/// In order to not over-move, we need to "release" required space on this disk,
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/// possibly to zero.
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if (to_insert != need_to_move.end())
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{
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to_insert->second.decreaseRequiredSizeAndRemoveRedundantParts(part->getBytesOnDisk());
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}
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++parts_to_move_by_ttl_rules;
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parts_to_move_total_size_bytes += part->getBytesOnDisk();
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}
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else
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{
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if (to_insert != need_to_move.end())
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to_insert->second.add(part);
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}
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}
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for (auto && move : need_to_move)
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{
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auto min_volume_index = policy->getVolumeIndexByDisk(move.first) + 1;
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for (auto && part : move.second.getAccumulatedParts())
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{
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auto reservation = policy->reserve(part->getBytesOnDisk(), min_volume_index);
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if (!reservation)
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{
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/// Next parts to move from this disk has greater size and same min volume index.
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/// There are no space for them.
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/// But it can be possible to move data from other disks.
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break;
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}
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parts_to_move.emplace_back(part, std::move(reservation));
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++parts_to_move_by_policy_rules;
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parts_to_move_total_size_bytes += part->getBytesOnDisk();
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}
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}
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if (!parts_to_move.empty())
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{
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LOG_TRACE(log, "Selected {} parts to move according to storage policy rules and {} parts according to TTL rules, {} total", parts_to_move_by_policy_rules, parts_to_move_by_ttl_rules, ReadableSize(parts_to_move_total_size_bytes));
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return true;
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}
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else
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return false;
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}
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MergeTreeData::DataPartPtr MergeTreePartsMover::clonePart(const MergeTreeMoveEntry & moving_part) const
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{
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if (moves_blocker.isCancelled())
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throw Exception("Cancelled moving parts.", ErrorCodes::ABORTED);
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LOG_TRACE(log, "Cloning part {}", moving_part.part->name);
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const String directory_to_move = "moving";
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moving_part.part->makeCloneOnDisk(moving_part.reserved_space->getDisk(), directory_to_move);
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auto single_disk_volume = std::make_shared<SingleDiskVolume>("volume_" + moving_part.part->name, moving_part.reserved_space->getDisk(), 0);
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MergeTreeData::MutableDataPartPtr cloned_part =
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data->createPart(moving_part.part->name, single_disk_volume, directory_to_move + '/' + moving_part.part->name);
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LOG_TRACE(log, "Part {} was cloned to {}", moving_part.part->name, cloned_part->getFullPath());
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cloned_part->loadColumnsChecksumsIndexes(true, true);
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return cloned_part;
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}
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void MergeTreePartsMover::swapClonedPart(const MergeTreeData::DataPartPtr & cloned_part) const
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{
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if (moves_blocker.isCancelled())
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throw Exception("Cancelled moving parts.", ErrorCodes::ABORTED);
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auto active_part = data->getActiveContainingPart(cloned_part->name);
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/// It's ok, because we don't block moving parts for merges or mutations
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if (!active_part || active_part->name != cloned_part->name)
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{
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LOG_INFO(log, "Failed to swap {}. Active part doesn't exist. Possible it was merged or mutated. Will remove copy on path '{}'.", cloned_part->name, cloned_part->getFullPath());
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return;
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}
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/// Don't remove new directory but throw an error because it may contain part which is currently in use.
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cloned_part->renameTo(active_part->name, false);
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/// TODO what happen if server goes down here?
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data->swapActivePart(cloned_part);
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LOG_TRACE(log, "Part {} was moved to {}", cloned_part->name, cloned_part->getFullPath());
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}
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}
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