ClickHouse/dbms/Storages/MergeTree/MergeTreeDataMergerMutator.h

238 lines
9.4 KiB
C++

#pragma once
#include <Storages/MergeTree/MergeTreeData.h>
#include <Storages/MutationCommands.h>
#include <atomic>
#include <functional>
#include <Common/ActionBlocker.h>
namespace DB
{
class MergeListEntry;
class MergeProgressCallback;
/// Auxiliary struct holding metainformation for the future merged or mutated part.
struct FutureMergedMutatedPart
{
String name;
String path;
MergeTreeDataPartType type;
MergeTreePartInfo part_info;
MergeTreeData::DataPartsVector parts;
const MergeTreePartition & getPartition() const { return parts.front()->partition; }
FutureMergedMutatedPart() = default;
explicit FutureMergedMutatedPart(MergeTreeData::DataPartsVector parts_)
{
assign(std::move(parts_));
}
FutureMergedMutatedPart(MergeTreeData::DataPartsVector parts_, MergeTreeDataPartType future_part_type)
{
assign(std::move(parts_), future_part_type);
}
void assign(MergeTreeData::DataPartsVector parts_);
void assign(MergeTreeData::DataPartsVector parts_, MergeTreeDataPartType future_part_type);
void updatePath(const MergeTreeData & storage, const ReservationPtr & reservation);
};
/** Can select parts for background processes and do them.
* Currently helps with merges, mutations and moves
*/
class MergeTreeDataMergerMutator
{
public:
using AllowedMergingPredicate = std::function<bool (const MergeTreeData::DataPartPtr &, const MergeTreeData::DataPartPtr &, String * reason)>;
public:
MergeTreeDataMergerMutator(MergeTreeData & data_, size_t background_pool_size);
/** Get maximum total size of parts to do merge, at current moment of time.
* It depends on number of free threads in background_pool and amount of free space in disk.
*/
UInt64 getMaxSourcePartsSizeForMerge();
/** For explicitly passed size of pool and number of used tasks.
* This method could be used to calculate threshold depending on number of tasks in replication queue.
*/
UInt64 getMaxSourcePartsSizeForMerge(size_t pool_size, size_t pool_used);
/** Get maximum total size of parts to do mutation, at current moment of time.
* It depends only on amount of free space in disk.
*/
UInt64 getMaxSourcePartSizeForMutation();
/** Selects which parts to merge. Uses a lot of heuristics.
*
* can_merge - a function that determines if it is possible to merge a pair of adjacent parts.
* This function must coordinate merge with inserts and other merges, ensuring that
* - Parts between which another part can still appear can not be merged. Refer to METR-7001.
* - A part that already merges with something in one place, you can not start to merge into something else in another place.
*/
bool selectPartsToMerge(
FutureMergedMutatedPart & future_part,
bool aggressive,
size_t max_total_size_to_merge,
const AllowedMergingPredicate & can_merge,
String * out_disable_reason = nullptr);
/** Select all the parts in the specified partition for merge, if possible.
* final - choose to merge even a single part - that is, allow to merge one part "with itself".
*/
bool selectAllPartsToMergeWithinPartition(
FutureMergedMutatedPart & future_part,
UInt64 & available_disk_space,
const AllowedMergingPredicate & can_merge,
const String & partition_id,
bool final,
String * out_disable_reason = nullptr);
/** Merge the parts.
* If `reservation != nullptr`, now and then reduces the size of the reserved space
* is approximately proportional to the amount of data already written.
*
* Creates and returns a temporary part.
* To end the merge, call the function renameMergedTemporaryPart.
*
* time_of_merge - the time when the merge was assigned.
* Important when using ReplicatedGraphiteMergeTree to provide the same merge on replicas.
*/
MergeTreeData::MutableDataPartPtr mergePartsToTemporaryPart(
const FutureMergedMutatedPart & future_part,
MergeListEntry & merge_entry, TableStructureReadLockHolder & table_lock_holder, time_t time_of_merge,
const ReservationPtr & space_reservation, bool deduplicate, bool force_ttl);
/// Mutate a single data part with the specified commands. Will create and return a temporary part.
MergeTreeData::MutableDataPartPtr mutatePartToTemporaryPart(
const FutureMergedMutatedPart & future_part,
const MutationCommands & commands,
MergeListEntry & merge_entry,
time_t time_of_mutation,
const Context & context,
const ReservationPtr & space_reservation,
TableStructureReadLockHolder & table_lock_holder);
MergeTreeData::DataPartPtr renameMergedTemporaryPart(
MergeTreeData::MutableDataPartPtr & new_data_part,
const MergeTreeData::DataPartsVector & parts,
MergeTreeData::Transaction * out_transaction = nullptr);
/// The approximate amount of disk space needed for merge or mutation. With a surplus.
static size_t estimateNeededDiskSpace(const MergeTreeData::DataPartsVector & source_parts);
private:
/** Select all parts belonging to the same partition.
*/
MergeTreeData::DataPartsVector selectAllPartsFromPartition(const String & partition_id);
/** Split mutation commands into two parts:
* First part should be executed by mutations interpreter.
* Other is just simple drop/renames, so they can be executed without interpreter.
*/
static void splitMutationCommands(
MergeTreeData::DataPartPtr part,
const MutationCommands & commands,
MutationCommands & for_interpreter,
MutationCommands & for_file_renames);
/// Apply commands to source_part i.e. remove some columns in source_part
/// and return set of files, that have to be removed from filesystem and checksums
static NameToNameMap collectFilesForRenames(MergeTreeData::DataPartPtr source_part, const MutationCommands & commands_for_removes, const String & mrk_extension);
/// Files, that we don't need to remove and don't need to hardlink, for example columns.txt and checksums.txt.
/// Because we will generate new versions of them after we perform mutation.
static NameSet collectFilesToSkip(const Block & updated_header, const std::set<MergeTreeIndexPtr> & indices_to_recalc, const String & mrk_extension);
/// Get the columns list of the resulting part in the same order as all_columns.
static NamesAndTypesList getColumnsForNewDataPart(
MergeTreeData::DataPartPtr source_part,
const Block & updated_header,
NamesAndTypesList all_columns,
const MutationCommands & commands_for_removes);
bool shouldExecuteTTL(const Names & columns, const MutationCommands & commands) const;
/// Return set of indices which should be recalculated during mutation also
/// wraps input stream into additional expression stream
std::set<MergeTreeIndexPtr> getIndicesToRecalculate(
BlockInputStreamPtr & input_stream,
StoragePtr storage_from_source_part,
const NamesAndTypesList & updated_columns,
const Context & context) const;
/// Override all columns of new part using mutating_stream
void mutateAllPartColumns(
MergeTreeData::MutableDataPartPtr new_data_part,
BlockInputStreamPtr mutating_stream,
time_t time_of_mutation,
const CompressionCodecPtr & codec,
MergeListEntry & merge_entry,
bool need_remove_expired_values) const;
/// Mutate some columns of source part with mutation_stream
void mutateSomePartColumns(
const MergeTreeDataPartPtr & source_part,
const std::set<MergeTreeIndexPtr> & indices_to_recalc,
const Block & mutation_header,
MergeTreeData::MutableDataPartPtr new_data_part,
BlockInputStreamPtr mutating_stream,
time_t time_of_mutation,
const CompressionCodecPtr & codec,
MergeListEntry & merge_entry,
bool need_remove_expired_values) const;
/// Initialize and write to disk new part fields like checksums, columns,
/// etc.
static void finalizeMutatedPart(
const MergeTreeDataPartPtr & source_part,
MergeTreeData::MutableDataPartPtr new_data_part,
bool need_remove_expired_values);
public :
/** Is used to cancel all merges and mutations. On cancel() call all currently running actions will throw exception soon.
* All new attempts to start a merge or mutation will throw an exception until all 'LockHolder' objects will be destroyed.
*/
ActionBlocker merges_blocker;
ActionBlocker ttl_merges_blocker;
enum class MergeAlgorithm
{
Horizontal, /// per-row merge of all columns
Vertical /// per-row merge of PK and secondary indices columns, per-column gather for non-PK columns
};
private:
MergeAlgorithm chooseMergeAlgorithm(
const MergeTreeData::DataPartsVector & parts,
size_t rows_upper_bound, const NamesAndTypesList & gathering_columns, bool deduplicate, bool need_remove_expired_values) const;
bool checkOperationIsNotCanceled(const MergeListEntry & merge_entry) const;
private:
MergeTreeData & data;
const size_t background_pool_size;
Logger * log;
/// When the last time you wrote to the log that the disk space was running out (not to write about this too often).
time_t disk_space_warning_time = 0;
/// Last time when TTLMergeSelector has been used
time_t last_merge_with_ttl = 0;
};
}