ClickHouse/dbms/src/Storages/MergeTree/MergeTreeData.cpp

1740 lines
61 KiB
C++

#include <Storages/MergeTree/MergeTreeData.h>
#include <Interpreters/ExpressionAnalyzer.h>
#include <Storages/MergeTree/MergeTreeBlockInputStream.h>
#include <Storages/MergeTree/MergedBlockOutputStream.h>
#include <Storages/MergeTree/MergeTreePartChecker.h>
#include <Storages/AlterCommands.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTNameTypePair.h>
#include <DataStreams/ExpressionBlockInputStream.h>
#include <DataStreams/copyData.h>
#include <IO/WriteBufferFromFile.h>
#include <IO/CompressedReadBuffer.h>
#include <IO/HexWriteBuffer.h>
#include <DataTypes/DataTypeDate.h>
#include <DataTypes/DataTypeDateTime.h>
#include <DataTypes/DataTypeFixedString.h>
#include <DataTypes/DataTypeEnum.h>
#include <DataTypes/DataTypeNested.h>
#include <DataTypes/DataTypeArray.h>
#include <DataTypes/DataTypeNullable.h>
#include <Common/localBackup.h>
#include <Functions/FunctionFactory.h>
#include <Functions/IFunction.h>
#include <Poco/DirectoryIterator.h>
#include <Common/Increment.h>
#include <Common/escapeForFileName.h>
#include <Common/StringUtils.h>
#include <Common/Stopwatch.h>
#include <IO/Operators.h>
#include <algorithm>
#include <iomanip>
#include <thread>
#include <typeinfo>
#include <typeindex>
namespace ProfileEvents
{
extern const Event RejectedInserts;
extern const Event DelayedInserts;
extern const Event DelayedInsertsMilliseconds;
}
namespace CurrentMetrics
{
extern const Metric DelayedInserts;
}
namespace DB
{
namespace ErrorCodes
{
extern const int MEMORY_LIMIT_EXCEEDED;
}
MergeTreeData::MergeTreeData(
const String & database_, const String & table_,
const String & full_path_, NamesAndTypesListPtr columns_,
const NamesAndTypesList & materialized_columns_,
const NamesAndTypesList & alias_columns_,
const ColumnDefaults & column_defaults_,
Context & context_,
ASTPtr & primary_expr_ast_,
const String & date_column_name_, const ASTPtr & sampling_expression_,
size_t index_granularity_,
const MergingParams & merging_params_,
const MergeTreeSettings & settings_,
const String & log_name_,
bool require_part_metadata_,
bool attach,
BrokenPartCallback broken_part_callback_)
: ITableDeclaration{materialized_columns_, alias_columns_, column_defaults_}, context(context_),
date_column_name(date_column_name_), sampling_expression(sampling_expression_),
index_granularity(index_granularity_),
merging_params(merging_params_),
settings(settings_), primary_expr_ast(primary_expr_ast_ ? primary_expr_ast_->clone() : nullptr),
require_part_metadata(require_part_metadata_),
database_name(database_), table_name(table_),
full_path(full_path_), columns(columns_),
broken_part_callback(broken_part_callback_),
log_name(log_name_), log(&Logger::get(log_name + " (Data)"))
{
/// Check that the date column exists and is of type Date.
const auto check_date_exists = [this] (const NamesAndTypesList & columns)
{
for (const auto & column : columns)
{
if (column.name == date_column_name)
{
if (!typeid_cast<const DataTypeDate *>(column.type.get()))
throw Exception("Date column (" + date_column_name + ") for storage of MergeTree family must have type Date."
" Provided column of type " + column.type->getName() + "."
" You may have separate column with type " + column.type->getName() + ".", ErrorCodes::BAD_TYPE_OF_FIELD);
return true;
}
}
return false;
};
if (!check_date_exists(*columns) && !check_date_exists(materialized_columns))
throw Exception{
"Date column (" + date_column_name + ") does not exist in table declaration.",
ErrorCodes::NO_SUCH_COLUMN_IN_TABLE};
checkNoMultidimensionalArrays(*columns, attach);
checkNoMultidimensionalArrays(materialized_columns, attach);
merging_params.check(*columns);
if (!primary_expr_ast && merging_params.mode != MergingParams::Unsorted)
throw Exception("Primary key could be empty only for UnsortedMergeTree", ErrorCodes::BAD_ARGUMENTS);
initPrimaryKey();
/// Creating directories, if not exist.
Poco::File(full_path).createDirectories();
Poco::File(full_path + "detached").createDirectory();
}
void MergeTreeData::checkNoMultidimensionalArrays(const NamesAndTypesList & columns, bool attach) const
{
for (const auto & column : columns)
{
if (const auto * array = dynamic_cast<const DataTypeArray *>(column.type.get()))
{
if (dynamic_cast<const DataTypeArray *>(array->getNestedType().get()))
{
std::string message =
"Column " + column.name + " is a multidimensional array. "
+ "Multidimensional arrays are not supported in MergeTree engines.";
if (!attach)
throw Exception(message, ErrorCodes::BAD_TYPE_OF_FIELD);
else
LOG_ERROR(log, message);
}
}
}
}
void MergeTreeData::initPrimaryKey()
{
if (!primary_expr_ast)
return;
/// Initialize description of sorting.
sort_descr.clear();
sort_descr.reserve(primary_expr_ast->children.size());
for (const ASTPtr & ast : primary_expr_ast->children)
{
String name = ast->getColumnName();
sort_descr.emplace_back(name, 1, 1);
}
primary_expr = ExpressionAnalyzer(primary_expr_ast, context, nullptr, getColumnsList()).getActions(false);
ExpressionActionsPtr projected_expr = ExpressionAnalyzer(primary_expr_ast, context, nullptr, getColumnsList()).getActions(true);
primary_key_sample = projected_expr->getSampleBlock();
size_t primary_key_size = primary_key_sample.columns();
/// A primary key cannot contain constants. It is meaningless.
/// (And also couldn't work because primary key is serialized with method of IDataType that doesn't support constants).
/// Also a primary key must not contain any nullable column.
for (size_t i = 0; i < primary_key_size; ++i)
{
const auto & element = primary_key_sample.getByPosition(i);
const ColumnPtr & column = element.column;
if (column && column->isConst())
throw Exception{"Primary key cannot contain constants", ErrorCodes::ILLEGAL_COLUMN};
if (element.type->isNullable())
throw Exception{"Primary key cannot contain nullable columns", ErrorCodes::ILLEGAL_COLUMN};
}
primary_key_data_types.resize(primary_key_size);
for (size_t i = 0; i < primary_key_size; ++i)
primary_key_data_types[i] = primary_key_sample.getByPosition(i).type;
}
void MergeTreeData::MergingParams::check(const NamesAndTypesList & columns) const
{
/// Check that if the sign column is needed, it exists and is of type Int8.
if (mode == MergingParams::Collapsing)
{
if (sign_column.empty())
throw Exception("Logical error: Sign column for storage CollapsingMergeTree is empty", ErrorCodes::LOGICAL_ERROR);
for (const auto & column : columns)
{
if (column.name == sign_column)
{
if (!typeid_cast<const DataTypeInt8 *>(column.type.get()))
throw Exception("Sign column (" + sign_column + ")"
" for storage CollapsingMergeTree must have type Int8."
" Provided column of type " + column.type->getName() + ".", ErrorCodes::BAD_TYPE_OF_FIELD);
break;
}
}
}
else if (!sign_column.empty())
throw Exception("Sign column for MergeTree cannot be specified in all modes except Collapsing.", ErrorCodes::LOGICAL_ERROR);
/// If colums_to_sum are set, then check that such columns exist.
if (!columns_to_sum.empty())
{
if (mode != MergingParams::Summing)
throw Exception("List of columns to sum for MergeTree cannot be specified in all modes except Summing.",
ErrorCodes::LOGICAL_ERROR);
for (const auto & column_to_sum : columns_to_sum)
if (columns.end() == std::find_if(columns.begin(), columns.end(),
[&](const NameAndTypePair & name_and_type) { return column_to_sum == name_and_type.name; }))
throw Exception("Column " + column_to_sum + " listed in columns to sum does not exist in table declaration.");
}
/// Check that version_column column is set only for Replacing mode and is of unsigned integer type.
if (!version_column.empty())
{
if (mode != MergingParams::Replacing)
throw Exception("Version column for MergeTree cannot be specified in all modes except Replacing.",
ErrorCodes::LOGICAL_ERROR);
for (const auto & column : columns)
{
if (column.name == version_column)
{
if (!typeid_cast<const DataTypeUInt8 *>(column.type.get())
&& !typeid_cast<const DataTypeUInt16 *>(column.type.get())
&& !typeid_cast<const DataTypeUInt32 *>(column.type.get())
&& !typeid_cast<const DataTypeUInt64 *>(column.type.get())
&& !typeid_cast<const DataTypeDate *>(column.type.get())
&& !typeid_cast<const DataTypeDateTime *>(column.type.get()))
throw Exception("Version column (" + version_column + ")"
" for storage ReplacingMergeTree must have type of UInt family or Date or DateTime."
" Provided column of type " + column.type->getName() + ".", ErrorCodes::BAD_TYPE_OF_FIELD);
break;
}
}
}
/// TODO Checks for Graphite mode.
}
String MergeTreeData::MergingParams::getModeName() const
{
switch (mode)
{
case Ordinary: return "";
case Collapsing: return "Collapsing";
case Summing: return "Summing";
case Aggregating: return "Aggregating";
case Unsorted: return "Unsorted";
case Replacing: return "Replacing";
case Graphite: return "Graphite";
default:
throw Exception("Unknown mode of operation for MergeTreeData: " + toString<int>(mode), ErrorCodes::LOGICAL_ERROR);
}
}
Int64 MergeTreeData::getMaxDataPartIndex()
{
std::lock_guard<std::mutex> lock_all(all_data_parts_mutex);
Int64 max_part_id = 0;
for (const auto & part : all_data_parts)
max_part_id = std::max(max_part_id, part->right);
return max_part_id;
}
void MergeTreeData::loadDataParts(bool skip_sanity_checks)
{
LOG_DEBUG(log, "Loading data parts");
std::lock_guard<std::mutex> lock(data_parts_mutex);
std::lock_guard<std::mutex> lock_all(all_data_parts_mutex);
data_parts.clear();
all_data_parts.clear();
Strings part_file_names;
Poco::DirectoryIterator end;
for (Poco::DirectoryIterator it(full_path); it != end; ++it)
{
/// Skip temporary directories older than one day.
if (startsWith(it.name(), "tmp_"))
continue;
part_file_names.push_back(it.name());
}
DataPartsVector broken_parts_to_remove;
DataPartsVector broken_parts_to_detach;
size_t suspicious_broken_parts = 0;
Poco::RegularExpression::MatchVec matches;
for (const String & file_name : part_file_names)
{
if (!ActiveDataPartSet::isPartDirectory(file_name, &matches))
continue;
MutableDataPartPtr part = std::make_shared<DataPart>(*this);
ActiveDataPartSet::parsePartName(file_name, *part, &matches);
part->name = file_name;
bool broken = false;
try
{
part->loadColumns(require_part_metadata);
part->loadChecksums(require_part_metadata);
part->loadIndex();
part->checkNotBroken(require_part_metadata);
}
catch (const Exception & e)
{
/// Don't count the part as broken if there is not enough memory to load it.
/// In fact, there can be many similar situations.
/// But it is OK, because there is a safety guard against deleting too many parts.
if (e.code() == ErrorCodes::MEMORY_LIMIT_EXCEEDED)
throw;
broken = true;
tryLogCurrentException(__PRETTY_FUNCTION__);
}
catch (...)
{
broken = true;
tryLogCurrentException(__PRETTY_FUNCTION__);
}
/// Ignore and possibly delete broken parts that can appear as a result of hard server restart.
if (broken)
{
if (part->level == 0)
{
/// It is impossible to restore level 0 parts.
LOG_ERROR(log, "Considering to remove broken part " << full_path + file_name << " because it's impossible to repair.");
broken_parts_to_remove.push_back(part);
}
else
{
/// Count the number of parts covered by the broken part. If it is at least two, assume that
/// the broken part was created as a result of merging them and we won't lose data if we
/// delete it.
int contained_parts = 0;
LOG_ERROR(log, "Part " << full_path + file_name << " is broken. Looking for parts to replace it.");
++suspicious_broken_parts;
for (const String & contained_name : part_file_names)
{
if (contained_name == file_name)
continue;
if (!ActiveDataPartSet::isPartDirectory(contained_name, &matches))
continue;
DataPart contained_part(*this);
ActiveDataPartSet::parsePartName(contained_name, contained_part, &matches);
if (part->contains(contained_part))
{
LOG_ERROR(log, "Found part " << full_path + contained_name);
++contained_parts;
}
}
if (contained_parts >= 2)
{
LOG_ERROR(log, "Considering to remove broken part " << full_path + file_name << " because it covers at least 2 other parts");
broken_parts_to_remove.push_back(part);
}
else
{
LOG_ERROR(log, "Detaching broken part " << full_path + file_name
<< " because it covers less than 2 parts. You need to resolve this manually");
broken_parts_to_detach.push_back(part);
}
}
continue;
}
part->modification_time = Poco::File(full_path + file_name).getLastModified().epochTime();
data_parts.insert(part);
}
if (suspicious_broken_parts > settings.max_suspicious_broken_parts && !skip_sanity_checks)
throw Exception("Suspiciously many (" + toString(suspicious_broken_parts) + ") broken parts to remove.",
ErrorCodes::TOO_MANY_UNEXPECTED_DATA_PARTS);
for (const auto & part : broken_parts_to_remove)
part->remove();
for (const auto & part : broken_parts_to_detach)
part->renameAddPrefix(true, "");
all_data_parts = data_parts;
/// Delete from the set of current parts those parts that are covered by another part (those parts that
/// were merged), but that for some reason are still not deleted from the file system.
/// Deletion of files will be performed later in the clearOldParts() method.
if (data_parts.size() >= 2)
{
DataParts::iterator prev_jt = data_parts.begin();
DataParts::iterator curr_jt = prev_jt;
++curr_jt;
while (curr_jt != data_parts.end())
{
/// Don't consider data parts belonging to different months.
if ((*curr_jt)->month != (*prev_jt)->month)
{
++prev_jt;
++curr_jt;
continue;
}
if ((*curr_jt)->contains(**prev_jt))
{
(*prev_jt)->remove_time = (*prev_jt)->modification_time;
data_parts.erase(prev_jt);
prev_jt = curr_jt;
++curr_jt;
}
else if ((*prev_jt)->contains(**curr_jt))
{
(*curr_jt)->remove_time = (*curr_jt)->modification_time;
data_parts.erase(curr_jt++);
}
else
{
++prev_jt;
++curr_jt;
}
}
}
calculateColumnSizes();
LOG_DEBUG(log, "Loaded data parts (" << data_parts.size() << " items)");
}
/// Is the part directory old.
/// True if its modification time and the modification time of all files inside it is less then threshold.
/// (Only files on the first level of nesting are considered).
static bool isOldPartDirectory(Poco::File & directory, time_t threshold)
{
if (directory.getLastModified().epochTime() >= threshold)
return false;
Poco::DirectoryIterator end;
for (Poco::DirectoryIterator it(directory); it != end; ++it)
if (it->getLastModified().epochTime() >= threshold)
return false;
return true;
}
void MergeTreeData::clearOldTemporaryDirectories()
{
/// If the method is already called from another thread, then we don't need to do anything.
std::unique_lock<std::mutex> lock(clear_old_temporary_directories_mutex, std::defer_lock);
if (!lock.try_lock())
return;
time_t current_time = time(0);
/// Delete temporary directories older than a day.
Poco::DirectoryIterator end;
for (Poco::DirectoryIterator it{full_path}; it != end; ++it)
{
if (startsWith(it.name(), "tmp_"))
{
Poco::File tmp_dir(full_path + it.name());
try
{
if (tmp_dir.isDirectory() && isOldPartDirectory(tmp_dir, current_time - settings.temporary_directories_lifetime))
{
LOG_WARNING(log, "Removing temporary directory " << full_path << it.name());
Poco::File(full_path + it.name()).remove(true);
}
}
catch (const Poco::FileNotFoundException &)
{
/// If the file is already deleted, do nothing.
}
}
}
}
MergeTreeData::DataPartsVector MergeTreeData::grabOldParts()
{
DataPartsVector res;
/// If the method is already called from another thread, then we don't need to do anything.
std::unique_lock<std::mutex> lock(grab_old_parts_mutex, std::defer_lock);
if (!lock.try_lock())
return res;
time_t now = time(0);
{
std::lock_guard<std::mutex> lock(all_data_parts_mutex);
for (DataParts::iterator it = all_data_parts.begin(); it != all_data_parts.end();)
{
if (it->unique() && /// After this ref_count cannot increase.
(*it)->remove_time < now &&
now - (*it)->remove_time > settings.old_parts_lifetime)
{
res.push_back(*it);
all_data_parts.erase(it++);
}
else
++it;
}
}
if (!res.empty())
LOG_TRACE(log, "Found " << res.size() << " old parts to remove.");
return res;
}
void MergeTreeData::addOldParts(const MergeTreeData::DataPartsVector & parts)
{
std::lock_guard<std::mutex> lock(all_data_parts_mutex);
all_data_parts.insert(parts.begin(), parts.end());
}
void MergeTreeData::clearOldParts()
{
auto parts_to_remove = grabOldParts();
for (const DataPartPtr & part : parts_to_remove)
{
LOG_DEBUG(log, "Removing part " << part->name);
part->remove();
}
}
void MergeTreeData::setPath(const String & new_full_path, bool move_data)
{
if (move_data)
{
if (Poco::File{new_full_path}.exists())
throw Exception{
"Target path already exists: " + new_full_path,
/// @todo existing target can also be a file, not directory
ErrorCodes::DIRECTORY_ALREADY_EXISTS
};
Poco::File(full_path).renameTo(new_full_path);
/// If we don't need to move the data, it means someone else has already moved it.
/// We hope that he has also reset the caches.
context.resetCaches();
}
full_path = new_full_path;
}
void MergeTreeData::dropAllData()
{
LOG_TRACE(log, "dropAllData: waiting for locks.");
std::lock_guard<std::mutex> lock(data_parts_mutex);
std::lock_guard<std::mutex> lock_all(all_data_parts_mutex);
LOG_TRACE(log, "dropAllData: removing data from memory.");
data_parts.clear();
all_data_parts.clear();
column_sizes.clear();
context.resetCaches();
LOG_TRACE(log, "dropAllData: removing data from filesystem.");
Poco::File(full_path).remove(true);
LOG_TRACE(log, "dropAllData: done.");
}
namespace
{
/// If true, then in order to ALTER the type of the column from the type from to the type to
/// we don't need to rewrite the data, we only need to update metadata and columns.txt in part directories.
/// The function works for Arrays and Nullables of the same structure.
bool isMetadataOnlyConversion(const IDataType * from, const IDataType * to)
{
if (from->getName() == to->getName())
return true;
static const std::unordered_multimap<std::type_index, const std::type_info &> ALLOWED_CONVERSIONS =
{
{ typeid(DataTypeEnum8), typeid(DataTypeEnum8) },
{ typeid(DataTypeEnum8), typeid(DataTypeInt8) },
{ typeid(DataTypeEnum16), typeid(DataTypeEnum16) },
{ typeid(DataTypeEnum16), typeid(DataTypeInt16) },
{ typeid(DataTypeDateTime), typeid(DataTypeUInt32) },
{ typeid(DataTypeUInt32), typeid(DataTypeDateTime) },
{ typeid(DataTypeDate), typeid(DataTypeUInt16) },
{ typeid(DataTypeUInt16), typeid(DataTypeDate) },
};
while (true)
{
auto it_range = ALLOWED_CONVERSIONS.equal_range(typeid(*from));
for (auto it = it_range.first; it != it_range.second; ++it)
{
if (it->second == typeid(*to))
return true;
}
const auto * arr_from = typeid_cast<const DataTypeArray *>(from);
const auto * arr_to = typeid_cast<const DataTypeArray *>(to);
if (arr_from && arr_to)
{
from = arr_from->getNestedType().get();
to = arr_to->getNestedType().get();
continue;
}
const auto * nullable_from = typeid_cast<const DataTypeNullable *>(from);
const auto * nullable_to = typeid_cast<const DataTypeNullable *>(to);
if (nullable_from && nullable_to)
{
from = nullable_from->getNestedType().get();
to = nullable_to->getNestedType().get();
continue;
}
return false;
}
}
}
void MergeTreeData::checkAlter(const AlterCommands & commands)
{
/// Check that needed transformations can be applied to the list of columns without considering type conversions.
auto new_columns = *columns;
auto new_materialized_columns = materialized_columns;
auto new_alias_columns = alias_columns;
auto new_column_defaults = column_defaults;
commands.apply(new_columns, new_materialized_columns, new_alias_columns, new_column_defaults);
checkNoMultidimensionalArrays(new_columns, /* attach = */ false);
checkNoMultidimensionalArrays(new_materialized_columns, /* attach = */ false);
/// Set of columns that shouldn't be altered.
NameSet columns_alter_forbidden;
columns_alter_forbidden.insert(date_column_name);
if (!merging_params.sign_column.empty())
columns_alter_forbidden.insert(merging_params.sign_column);
/// Primary key columns can be ALTERed only if they are used in the primary key as-is
/// (and not as a part of some expression) and if the ALTER only affects column metadata.
/// We don't add sampling_expression columns here because they must be among the primary key columns.
NameSet columns_alter_metadata_only;
if (primary_expr)
{
for (const auto & action : primary_expr->getActions())
{
auto action_columns = action.getNeededColumns();
columns_alter_forbidden.insert(action_columns.begin(), action_columns.end());
}
for (const auto & col : primary_expr->getRequiredColumns())
{
if (!columns_alter_forbidden.count(col))
columns_alter_metadata_only.insert(col);
}
}
std::map<String, const IDataType *> old_types;
for (const auto & column : *columns)
{
old_types.emplace(column.name, column.type.get());
}
for (const AlterCommand & command : commands)
{
if (columns_alter_forbidden.count(command.column_name))
throw Exception("trying to ALTER key column " + command.column_name, ErrorCodes::ILLEGAL_COLUMN);
if (columns_alter_metadata_only.count(command.column_name))
{
if (command.type == AlterCommand::MODIFY_COLUMN)
{
auto it = old_types.find(command.column_name);
if (it != old_types.end() && isMetadataOnlyConversion(it->second, command.data_type.get()))
continue;
}
throw Exception(
"ALTER of key column " + command.column_name + " must be metadata-only",
ErrorCodes::ILLEGAL_COLUMN);
}
}
/// Check that type conversions are possible.
ExpressionActionsPtr unused_expression;
NameToNameMap unused_map;
bool unused_bool;
/// augment plain columns with materialized columns for convert expression creation
new_columns.insert(std::end(new_columns),
std::begin(new_materialized_columns), std::end(new_materialized_columns));
createConvertExpression(nullptr, getColumnsList(), new_columns, unused_expression, unused_map, unused_bool);
}
void MergeTreeData::createConvertExpression(const DataPartPtr & part, const NamesAndTypesList & old_columns, const NamesAndTypesList & new_columns,
ExpressionActionsPtr & out_expression, NameToNameMap & out_rename_map, bool & out_force_update_metadata) const
{
out_expression = nullptr;
out_rename_map = {};
out_force_update_metadata = false;
using NameToType = std::map<String, const IDataType *>;
NameToType new_types;
for (const NameAndTypePair & column : new_columns)
new_types.emplace(column.name, column.type.get());
/// The number of columns in each Nested structure. Columns not belonging to Nested structure will also be
/// in this map, but they won't interfere with the computation.
std::map<String, size_t> nested_table_counts;
for (const NameAndTypePair & column : old_columns)
++nested_table_counts[DataTypeNested::extractNestedTableName(column.name)];
/// For every column that need to be converted: source column name, column name of calculated expression for conversion.
std::vector<std::pair<String, String>> conversions;
for (const NameAndTypePair & column : old_columns)
{
if (!new_types.count(column.name))
{
bool is_nullable = column.type.get()->isNullable();
if (!part || part->hasColumnFiles(column.name))
{
/// The column must be deleted.
const IDataType * observed_type;
if (is_nullable)
{
const DataTypeNullable & nullable_type = static_cast<const DataTypeNullable &>(*column.type);
observed_type = nullable_type.getNestedType().get();
}
else
observed_type = column.type.get();
String escaped_column = escapeForFileName(column.name);
out_rename_map[escaped_column + ".bin"] = "";
out_rename_map[escaped_column + ".mrk"] = "";
if (is_nullable)
{
out_rename_map[escaped_column + ".null.bin"] = "";
out_rename_map[escaped_column + ".null.mrk"] = "";
}
/// If the column is an array or the last column of nested structure, we must delete the
/// sizes file.
if (typeid_cast<const DataTypeArray *>(observed_type))
{
String nested_table = DataTypeNested::extractNestedTableName(column.name);
/// If it was the last column referencing these .size0 files, delete them.
if (!--nested_table_counts[nested_table])
{
String escaped_nested_table = escapeForFileName(nested_table);
out_rename_map[escaped_nested_table + ".size0.bin"] = "";
out_rename_map[escaped_nested_table + ".size0.mrk"] = "";
}
}
}
}
else
{
const auto * new_type = new_types[column.name];
const String new_type_name = new_type->getName();
const auto * old_type = column.type.get();
if (new_type_name != old_type->getName() && (!part || part->hasColumnFiles(column.name)))
{
if (isMetadataOnlyConversion(old_type, new_type))
{
out_force_update_metadata = true;
continue;
}
/// Need to modify column type.
if (!out_expression)
out_expression = std::make_shared<ExpressionActions>(NamesAndTypesList(), context.getSettingsRef());
out_expression->addInput(ColumnWithTypeAndName(nullptr, column.type, column.name));
Names out_names;
/// @todo invent the name more safely
const auto new_type_name_column = '#' + new_type_name + "_column";
out_expression->add(ExpressionAction::addColumn(
{ std::make_shared<ColumnConstString>(1, new_type_name), std::make_shared<DataTypeString>(), new_type_name_column }));
const FunctionPtr & function = FunctionFactory::instance().get("CAST", context);
out_expression->add(ExpressionAction::applyFunction(
function, Names{column.name, new_type_name_column}), out_names);
out_expression->add(ExpressionAction::removeColumn(new_type_name_column));
out_expression->add(ExpressionAction::removeColumn(column.name));
conversions.emplace_back(column.name, out_names.at(0));
}
}
}
if (!conversions.empty())
{
/// Give proper names for temporary columns with conversion results.
NamesWithAliases projection;
projection.reserve(conversions.size());
for (const auto & source_and_expression : conversions)
{
String converting_column_name = source_and_expression.first + " converting";
projection.emplace_back(source_and_expression.second, converting_column_name);
const String escaped_converted_column = escapeForFileName(converting_column_name);
const String escaped_source_column = escapeForFileName(source_and_expression.first);
/// After conversion, we need to rename temporary files into original.
out_rename_map[escaped_converted_column + ".bin"] = escaped_source_column + ".bin";
out_rename_map[escaped_converted_column + ".mrk"] = escaped_source_column + ".mrk";
const IDataType * new_type = new_types[source_and_expression.first];
/// NOTE Sizes of arrays are not updated during conversion.
/// Information on how to update the null map if it is a nullable column.
if (new_type->isNullable())
{
out_rename_map[escaped_converted_column + ".null.bin"] = escaped_source_column + ".null.bin";
out_rename_map[escaped_converted_column + ".null.mrk"] = escaped_source_column + ".null.mrk";
}
}
out_expression->add(ExpressionAction::project(projection));
}
if (part && !out_rename_map.empty())
{
std::string message;
{
WriteBufferFromString out(message);
out << "Will rename ";
bool first = true;
for (const auto & from_to : out_rename_map)
{
if (!first)
out << ", ";
first = false;
out << from_to.first << " to " << from_to.second;
}
out << " in part " << part->name;
}
LOG_DEBUG(log, message);
}
}
MergeTreeData::AlterDataPartTransactionPtr MergeTreeData::alterDataPart(
const DataPartPtr & part,
const NamesAndTypesList & new_columns,
const ASTPtr & new_primary_key,
bool skip_sanity_checks)
{
ExpressionActionsPtr expression;
AlterDataPartTransactionPtr transaction(new AlterDataPartTransaction(part)); /// Blocks changes to the part.
bool force_update_metadata;
createConvertExpression(part, part->columns, new_columns, expression, transaction->rename_map, force_update_metadata);
size_t num_files_to_modify = transaction->rename_map.size();
size_t num_files_to_remove = 0;
for (const auto & from_to : transaction->rename_map)
if (from_to.second.empty())
++num_files_to_remove;
if (!skip_sanity_checks
&& (num_files_to_modify > settings.max_files_to_modify_in_alter_columns
|| num_files_to_remove > settings.max_files_to_remove_in_alter_columns))
{
transaction->clear();
std::stringstream exception_message;
exception_message << "Suspiciously many (" << transaction->rename_map.size()
<< ") files (";
bool first = true;
for (const auto & from_to : transaction->rename_map)
{
if (!first)
exception_message << ", ";
exception_message << "from '" << from_to.first << "' to '" << from_to.second << "'";
first = false;
}
exception_message << ") need to be modified in part " << part->name << " of table at " << full_path << ". Aborting just in case. "
<< " If it is not an error, you could increase merge_tree/max_files_to_modify_in_alter_columns parameter in configuration file.";
throw Exception(exception_message.str(), ErrorCodes::TABLE_DIFFERS_TOO_MUCH);
}
DataPart::Checksums add_checksums;
/// Update primary key if needed.
size_t new_primary_key_file_size{};
uint128 new_primary_key_hash{};
if (new_primary_key.get() != primary_expr_ast.get())
{
ExpressionActionsPtr new_primary_expr = ExpressionAnalyzer(new_primary_key, context, nullptr, new_columns).getActions(true);
Block new_primary_key_sample = new_primary_expr->getSampleBlock();
size_t new_key_size = new_primary_key_sample.columns();
Columns new_index(new_key_size);
/// Copy the existing primary key columns. Fill new columns with default values.
/// NOTE default expressions are not supported.
ssize_t prev_position_of_existing_column = -1;
for (size_t i = 0; i < new_key_size; ++i)
{
const String & column_name = new_primary_key_sample.safeGetByPosition(i).name;
if (primary_key_sample.has(column_name))
{
ssize_t position_of_existing_column = primary_key_sample.getPositionByName(column_name);
if (position_of_existing_column < prev_position_of_existing_column)
throw Exception("Permuting of columns of primary key is not supported", ErrorCodes::BAD_ARGUMENTS);
new_index[i] = part->index.at(position_of_existing_column);
prev_position_of_existing_column = position_of_existing_column;
}
else
{
const IDataType & type = *new_primary_key_sample.safeGetByPosition(i).type;
new_index[i] = type.createConstColumn(part->size, type.getDefault())->convertToFullColumnIfConst();
}
}
if (prev_position_of_existing_column == -1)
throw Exception("No common columns while modifying primary key", ErrorCodes::BAD_ARGUMENTS);
String index_tmp_path = full_path + part->name + "/primary.idx.tmp";
WriteBufferFromFile index_file(index_tmp_path);
HashingWriteBuffer index_stream(index_file);
for (size_t i = 0, size = part->size; i < size; ++i)
for (size_t j = 0; j < new_key_size; ++j)
new_primary_key_sample.getByPosition(j).type.get()->serializeBinary(*new_index[j].get(), i, index_stream);
transaction->rename_map["primary.idx.tmp"] = "primary.idx";
index_stream.next();
new_primary_key_file_size = index_stream.count();
new_primary_key_hash = index_stream.getHash();
}
if (transaction->rename_map.empty() && !force_update_metadata)
{
transaction->clear();
return nullptr;
}
/// Apply the expression and write the result to temporary files.
if (expression)
{
MarkRanges ranges(1, MarkRange(0, part->size));
BlockInputStreamPtr part_in = std::make_shared<MergeTreeBlockInputStream>(full_path + part->name + '/',
DEFAULT_MERGE_BLOCK_SIZE, expression->getRequiredColumns(), *this, part, ranges,
false, nullptr, "", false, 0, DBMS_DEFAULT_BUFFER_SIZE, false);
ExpressionBlockInputStream in(part_in, expression);
MergedColumnOnlyOutputStream out(*this, full_path + part->name + '/', true, CompressionMethod::LZ4, false);
in.readPrefix();
out.writePrefix();
while (Block b = in.read())
out.write(b);
in.readSuffix();
add_checksums = out.writeSuffixAndGetChecksums();
}
/// Update the checksums.
DataPart::Checksums new_checksums = part->checksums;
for (auto it : transaction->rename_map)
{
if (it.second == "")
new_checksums.files.erase(it.first);
else
new_checksums.files[it.second] = add_checksums.files[it.first];
}
if (new_primary_key_file_size)
{
new_checksums.files["primary.idx"].file_size = new_primary_key_file_size;
new_checksums.files["primary.idx"].file_hash = new_primary_key_hash;
}
/// Write the checksums to the temporary file.
if (!part->checksums.empty())
{
transaction->new_checksums = new_checksums;
WriteBufferFromFile checksums_file(full_path + part->name + "/checksums.txt.tmp", 4096);
new_checksums.write(checksums_file);
transaction->rename_map["checksums.txt.tmp"] = "checksums.txt";
}
/// Write the new column list to the temporary file.
{
transaction->new_columns = new_columns.filter(part->columns.getNames());
WriteBufferFromFile columns_file(full_path + part->name + "/columns.txt.tmp", 4096);
transaction->new_columns.writeText(columns_file);
transaction->rename_map["columns.txt.tmp"] = "columns.txt";
}
return transaction;
}
void MergeTreeData::AlterDataPartTransaction::commit()
{
if (!data_part)
return;
try
{
Poco::ScopedWriteRWLock lock(data_part->columns_lock);
String path = data_part->storage.full_path + data_part->name + "/";
/// NOTE: checking that a file exists before renaming or deleting it
/// is justified by the fact that, when converting an ordinary column
/// to a nullable column, new files are created which did not exist
/// before, i.e. they do not have older versions.
/// 1) Rename the old files.
for (auto it : rename_map)
{
String name = it.second.empty() ? it.first : it.second;
Poco::File file{path + name};
if (file.exists())
file.renameTo(path + name + ".tmp2");
}
/// 2) Move new files in the place of old and update the metadata in memory.
for (auto it : rename_map)
{
if (!it.second.empty())
Poco::File{path + it.first}.renameTo(path + it.second);
}
DataPart & mutable_part = const_cast<DataPart &>(*data_part);
mutable_part.checksums = new_checksums;
mutable_part.columns = new_columns;
/// 3) Delete the old files.
for (auto it : rename_map)
{
String name = it.second.empty() ? it.first : it.second;
Poco::File file{path + name + ".tmp2"};
if (file.exists())
file.remove();
}
mutable_part.size_in_bytes = MergeTreeData::DataPart::calcTotalSize(path);
/// TODO: we can skip resetting caches when the column is added.
data_part->storage.context.resetCaches();
clear();
}
catch (...)
{
/// Don't delete temporary files in the destructor in case something went wrong.
clear();
throw;
}
}
MergeTreeData::AlterDataPartTransaction::~AlterDataPartTransaction()
{
try
{
if (!data_part)
return;
LOG_WARNING(data_part->storage.log, "Aborting ALTER of part " << data_part->name);
String path = data_part->storage.full_path + data_part->name + "/";
for (auto it : rename_map)
{
if (!it.second.empty())
{
try
{
Poco::File file(path + it.first);
if (file.exists())
file.remove();
}
catch (Poco::Exception & e)
{
LOG_WARNING(data_part->storage.log, "Can't remove " << path + it.first << ": " << e.displayText());
}
}
}
}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
}
void MergeTreeData::renameTempPartAndAdd(MutableDataPartPtr & part, SimpleIncrement * increment, Transaction * out_transaction)
{
auto removed = renameTempPartAndReplace(part, increment, out_transaction);
if (!removed.empty())
throw Exception("Added part " + part->name + " covers " + toString(removed.size())
+ " existing part(s) (including " + removed[0]->name + ")", ErrorCodes::LOGICAL_ERROR);
}
MergeTreeData::DataPartsVector MergeTreeData::renameTempPartAndReplace(
MutableDataPartPtr & part, SimpleIncrement * increment, Transaction * out_transaction)
{
if (out_transaction && out_transaction->data)
throw Exception("Using the same MergeTreeData::Transaction for overlapping transactions is invalid", ErrorCodes::LOGICAL_ERROR);
LOG_TRACE(log, "Renaming " << part->name << ".");
String old_name = part->name;
String old_path = getFullPath() + old_name + "/";
DataPartsVector replaced;
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
/** It is important that obtaining new block number and adding that block to parts set is done atomically.
* Otherwise there is race condition - merge of blocks could happen in interval that doesn't yet contain new part.
*/
if (increment)
part->left = part->right = increment->get();
String new_name = ActiveDataPartSet::getPartName(part->left_date, part->right_date, part->left, part->right, part->level);
part->is_temp = false;
part->name = new_name;
bool duplicate = data_parts.count(part);
part->name = old_name;
part->is_temp = true;
if (duplicate)
throw Exception("Part " + new_name + " already exists", ErrorCodes::DUPLICATE_DATA_PART);
String new_path = getFullPath() + new_name + "/";
/// Rename the part.
Poco::File(old_path).renameTo(new_path);
part->is_temp = false;
part->name = new_name;
bool obsolete = false; /// Is the part covered by some other part?
/// Parts contained in the part are consecutive in data_parts, intersecting the insertion place
/// for the part itself.
DataParts::iterator it = data_parts.lower_bound(part);
/// Go to the left.
while (it != data_parts.begin())
{
--it;
if (!part->contains(**it))
{
if ((*it)->contains(*part))
obsolete = true;
++it;
break;
}
replaced.push_back(*it);
(*it)->remove_time = time(0);
removePartContributionToColumnSizes(*it);
data_parts.erase(it++); /// Yes, ++, not --.
}
std::reverse(replaced.begin(), replaced.end()); /// Parts must be in ascending order.
/// Go to the right.
while (it != data_parts.end())
{
if (!part->contains(**it))
{
if ((*it)->name == part->name || (*it)->contains(*part))
obsolete = true;
break;
}
replaced.push_back(*it);
(*it)->remove_time = time(0);
removePartContributionToColumnSizes(*it);
data_parts.erase(it++);
}
if (obsolete)
{
LOG_WARNING(log, "Obsolete part " << part->name << " added");
part->remove_time = time(0);
}
else
{
data_parts.insert(part);
addPartContributionToColumnSizes(part);
}
{
std::lock_guard<std::mutex> lock_all(all_data_parts_mutex);
all_data_parts.insert(part);
}
}
if (out_transaction)
{
out_transaction->data = this;
out_transaction->parts_to_add_on_rollback = replaced;
out_transaction->parts_to_remove_on_rollback = DataPartsVector(1, part);
}
return replaced;
}
void MergeTreeData::replaceParts(const DataPartsVector & remove, const DataPartsVector & add, bool clear_without_timeout)
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
for (const DataPartPtr & part : remove)
{
part->remove_time = clear_without_timeout ? 0 : time(0);
if (data_parts.erase(part))
removePartContributionToColumnSizes(part);
}
for (const DataPartPtr & part : add)
{
if (data_parts.insert(part).second)
addPartContributionToColumnSizes(part);
}
}
void MergeTreeData::attachPart(const DataPartPtr & part)
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
std::lock_guard<std::mutex> lock_all(all_data_parts_mutex);
if (!all_data_parts.insert(part).second)
throw Exception("Part " + part->name + " is already attached", ErrorCodes::DUPLICATE_DATA_PART);
data_parts.insert(part);
addPartContributionToColumnSizes(part);
}
void MergeTreeData::renameAndDetachPart(const DataPartPtr & part, const String & prefix, bool restore_covered, bool move_to_detached)
{
LOG_INFO(log, "Renaming " << part->name << " to " << prefix << part->name << " and detaching it.");
std::lock_guard<std::mutex> lock(data_parts_mutex);
std::lock_guard<std::mutex> lock_all(all_data_parts_mutex);
if (!all_data_parts.erase(part))
throw Exception("No such data part", ErrorCodes::NO_SUCH_DATA_PART);
removePartContributionToColumnSizes(part);
data_parts.erase(part);
if (move_to_detached || !prefix.empty())
part->renameAddPrefix(move_to_detached, prefix);
if (restore_covered)
{
auto it = all_data_parts.lower_bound(part);
Strings restored;
bool error = false;
Int64 pos = part->left;
if (it != all_data_parts.begin())
{
--it;
if (part->contains(**it))
{
if ((*it)->left != part->left)
error = true;
data_parts.insert(*it);
addPartContributionToColumnSizes(*it);
pos = (*it)->right + 1;
restored.push_back((*it)->name);
}
else
error = true;
++it;
}
else
error = true;
for (; it != all_data_parts.end() && part->contains(**it); ++it)
{
if ((*it)->left < pos)
continue;
if ((*it)->left > pos)
error = true;
data_parts.insert(*it);
addPartContributionToColumnSizes(*it);
pos = (*it)->right + 1;
restored.push_back((*it)->name);
}
if (pos != part->right + 1)
error = true;
for (const String & name : restored)
{
LOG_INFO(log, "Activated part " << name);
}
if (error)
LOG_ERROR(log, "The set of parts restored in place of " << part->name << " looks incomplete. There might or might not be a data loss.");
}
}
void MergeTreeData::detachPartInPlace(const DataPartPtr & part)
{
renameAndDetachPart(part, "", false, false);
}
MergeTreeData::DataParts MergeTreeData::getDataParts() const
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
return data_parts;
}
MergeTreeData::DataPartsVector MergeTreeData::getDataPartsVector() const
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
return DataPartsVector(std::begin(data_parts), std::end(data_parts));
}
size_t MergeTreeData::getTotalActiveSizeInBytes() const
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
size_t res = 0;
for (auto & part : data_parts)
res += part->size_in_bytes;
return res;
}
MergeTreeData::DataParts MergeTreeData::getAllDataParts() const
{
std::lock_guard<std::mutex> lock(all_data_parts_mutex);
return all_data_parts;
}
size_t MergeTreeData::getMaxPartsCountForMonth() const
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
size_t res = 0;
size_t cur_count = 0;
DayNum_t cur_month = DayNum_t(0);
for (const auto & part : data_parts)
{
if (part->month == cur_month)
{
++cur_count;
}
else
{
cur_month = part->month;
cur_count = 1;
}
res = std::max(res, cur_count);
}
return res;
}
std::pair<Int64, bool> MergeTreeData::getMinBlockNumberForMonth(DayNum_t month) const
{
std::lock_guard<std::mutex> lock(all_data_parts_mutex);
for (const auto & part : all_data_parts) /// The search can be done better.
if (part->month == month)
return { part->left, true }; /// Blocks in data_parts are sorted by month and left.
return { 0, false };
}
bool MergeTreeData::hasBlockNumberInMonth(Int64 block_number, DayNum_t month) const
{
std::lock_guard<std::mutex> lock(data_parts_mutex);
for (const auto & part : data_parts) /// The search can be done better.
{
if (part->month == month && part->left <= block_number && part->right >= block_number)
return true;
if (part->month > month)
break;
}
return false;
}
void MergeTreeData::delayInsertIfNeeded(Poco::Event * until)
{
const size_t parts_count = getMaxPartsCountForMonth();
if (parts_count < settings.parts_to_delay_insert)
return;
if (parts_count >= settings.parts_to_throw_insert)
{
ProfileEvents::increment(ProfileEvents::RejectedInserts);
throw Exception("Too much parts. Merges are processing significantly slower than inserts.", ErrorCodes::TOO_MUCH_PARTS);
}
const size_t max_k = settings.parts_to_throw_insert - settings.parts_to_delay_insert; /// always > 0
const size_t k = 1 + parts_count - settings.parts_to_delay_insert; /// from 1 to max_k
const double delay_sec = ::pow(settings.max_delay_to_insert, static_cast<double>(k) / max_k);
ProfileEvents::increment(ProfileEvents::DelayedInserts);
ProfileEvents::increment(ProfileEvents::DelayedInsertsMilliseconds, delay_sec * 1000);
CurrentMetrics::Increment metric_increment(CurrentMetrics::DelayedInserts);
LOG_INFO(log, "Delaying inserting block by "
<< std::fixed << std::setprecision(4) << delay_sec << " sec. because there are " << parts_count << " parts");
if (until)
until->tryWait(delay_sec * 1000);
else
std::this_thread::sleep_for(std::chrono::duration<double>(delay_sec));
}
MergeTreeData::DataPartPtr MergeTreeData::getActiveContainingPart(const String & part_name)
{
MutableDataPartPtr tmp_part(new DataPart(*this));
ActiveDataPartSet::parsePartName(part_name, *tmp_part);
std::lock_guard<std::mutex> lock(data_parts_mutex);
/// The part can be covered only by the previous or the next one in data_parts.
DataParts::iterator it = data_parts.lower_bound(tmp_part);
if (it != data_parts.end())
{
if ((*it)->name == part_name)
return *it;
if ((*it)->contains(*tmp_part))
return *it;
}
if (it != data_parts.begin())
{
--it;
if ((*it)->contains(*tmp_part))
return *it;
}
return nullptr;
}
MergeTreeData::DataPartPtr MergeTreeData::getPartIfExists(const String & part_name)
{
MutableDataPartPtr tmp_part(new DataPart(*this));
ActiveDataPartSet::parsePartName(part_name, *tmp_part);
std::lock_guard<std::mutex> lock(all_data_parts_mutex);
DataParts::iterator it = all_data_parts.lower_bound(tmp_part);
if (it != all_data_parts.end() && (*it)->name == part_name)
return *it;
return nullptr;
}
MergeTreeData::DataPartPtr MergeTreeData::getShardedPartIfExists(const String & part_name, size_t shard_no)
{
const MutableDataPartPtr & part_from_shard = per_shard_data_parts.at(shard_no);
if (part_from_shard->name == part_name)
return part_from_shard;
else
return nullptr;
}
MergeTreeData::MutableDataPartPtr MergeTreeData::loadPartAndFixMetadata(const String & relative_path)
{
MutableDataPartPtr part = std::make_shared<DataPart>(*this);
part->name = relative_path;
ActiveDataPartSet::parsePartName(Poco::Path(relative_path).getFileName(), *part);
/// Earlier the list of columns was written incorrectly. Delete it and re-create.
if (Poco::File(full_path + relative_path + "/columns.txt").exists())
Poco::File(full_path + relative_path + "/columns.txt").remove();
part->loadColumns(false);
part->loadChecksums(false);
part->loadIndex();
part->checkNotBroken(false);
part->modification_time = Poco::File(full_path + relative_path).getLastModified().epochTime();
/// If the checksums file is not present, calculate the checksums and write them to disk.
/// Check the data while we are at it.
if (part->checksums.empty())
{
MergeTreePartChecker::Settings settings;
settings.setIndexGranularity(index_granularity);
settings.setRequireColumnFiles(true);
MergeTreePartChecker::checkDataPart(full_path + relative_path, settings, primary_key_data_types, &part->checksums);
{
WriteBufferFromFile out(full_path + relative_path + "/checksums.txt.tmp", 4096);
part->checksums.write(out);
}
Poco::File(full_path + relative_path + "/checksums.txt.tmp").renameTo(full_path + relative_path + "/checksums.txt");
}
return part;
}
void MergeTreeData::calculateColumnSizes()
{
column_sizes.clear();
for (const auto & part : data_parts)
addPartContributionToColumnSizes(part);
}
void MergeTreeData::addPartContributionToColumnSizes(const DataPartPtr & part)
{
const auto & files = part->checksums.files;
/// TODO This method doesn't take into account columns with multiple files.
for (const auto & column : *columns)
{
const auto escaped_name = escapeForFileName(column.name);
const auto bin_file_name = escaped_name + ".bin";
const auto mrk_file_name = escaped_name + ".mrk";
ColumnSize & column_size = column_sizes[column.name];
if (files.count(bin_file_name))
{
const auto & bin_file_checksums = files.at(bin_file_name);
column_size.data_compressed += bin_file_checksums.file_size;
column_size.data_uncompressed += bin_file_checksums.uncompressed_size;
}
if (files.count(mrk_file_name))
column_size.marks += files.at(mrk_file_name).file_size;
}
}
void MergeTreeData::removePartContributionToColumnSizes(const DataPartPtr & part)
{
const auto & files = part->checksums.files;
/// TODO This method doesn't take into account columns with multiple files.
for (const auto & column : *columns)
{
const auto escaped_name = escapeForFileName(column.name);
const auto bin_file_name = escaped_name + ".bin";
const auto mrk_file_name = escaped_name + ".mrk";
auto & column_size = column_sizes[column.name];
if (files.count(bin_file_name))
{
const auto & bin_file_checksums = files.at(bin_file_name);
column_size.data_compressed -= bin_file_checksums.file_size;
column_size.data_uncompressed -= bin_file_checksums.uncompressed_size;
}
if (files.count(mrk_file_name))
column_size.marks -= files.at(mrk_file_name).file_size;
}
}
void MergeTreeData::freezePartition(const std::string & prefix, const String & with_name)
{
LOG_DEBUG(log, "Freezing parts with prefix " + prefix);
String clickhouse_path = Poco::Path(context.getPath()).makeAbsolute().toString();
String shadow_path = clickhouse_path + "shadow/";
Poco::File(shadow_path).createDirectories();
String backup_path = shadow_path
+ (!with_name.empty()
? escapeForFileName(with_name)
: toString(Increment(shadow_path + "increment.txt").get(true)))
+ "/";
LOG_DEBUG(log, "Snapshot will be placed at " + backup_path);
size_t parts_processed = 0;
Poco::DirectoryIterator end;
for (Poco::DirectoryIterator it(full_path); it != end; ++it)
{
if (startsWith(it.name(), prefix))
{
LOG_DEBUG(log, "Freezing part " << it.name());
String part_absolute_path = it.path().absolute().toString();
if (!startsWith(part_absolute_path, clickhouse_path))
throw Exception("Part path " + part_absolute_path + " is not inside " + clickhouse_path, ErrorCodes::LOGICAL_ERROR);
String backup_part_absolute_path = part_absolute_path;
backup_part_absolute_path.replace(0, clickhouse_path.size(), backup_path);
localBackup(part_absolute_path, backup_part_absolute_path);
++parts_processed;
}
}
LOG_DEBUG(log, "Freezed " << parts_processed << " parts");
}
size_t MergeTreeData::getPartitionSize(const std::string & partition_name) const
{
size_t size = 0;
Poco::DirectoryIterator end;
Poco::DirectoryIterator end2;
for (Poco::DirectoryIterator it(full_path); it != end; ++it)
{
const auto filename = it.name();
if (!ActiveDataPartSet::isPartDirectory(filename))
continue;
if (!startsWith(filename, partition_name))
continue;
const auto part_path = it.path().absolute().toString();
for (Poco::DirectoryIterator it2(part_path); it2 != end2; ++it2)
{
const auto part_file_path = it2.path().absolute().toString();
size += Poco::File(part_file_path).getSize();
}
}
return size;
}
static std::pair<String, DayNum_t> getMonthNameAndDayNum(const Field & partition)
{
String month_name = partition.getType() == Field::Types::UInt64
? toString(partition.get<UInt64>())
: partition.safeGet<String>();
if (month_name.size() != 6 || !std::all_of(month_name.begin(), month_name.end(), isdigit))
throw Exception("Invalid partition format: " + month_name + ". Partition should consist of 6 digits: YYYYMM",
ErrorCodes::INVALID_PARTITION_NAME);
DayNum_t date = DateLUT::instance().YYYYMMDDToDayNum(parse<UInt32>(month_name + "01"));
/// Can't just compare date with 0, because 0 is a valid DayNum too.
if (month_name != toString(DateLUT::instance().toNumYYYYMMDD(date) / 100))
throw Exception("Invalid partition format: " + month_name + " doesn't look like month.",
ErrorCodes::INVALID_PARTITION_NAME);
return std::make_pair(month_name, date);
}
String MergeTreeData::getMonthName(const Field & partition)
{
return getMonthNameAndDayNum(partition).first;
}
String MergeTreeData::getMonthName(DayNum_t month)
{
return toString(DateLUT::instance().toNumYYYYMMDD(month) / 100);
}
DayNum_t MergeTreeData::getMonthDayNum(const Field & partition)
{
return getMonthNameAndDayNum(partition).second;
}
DayNum_t MergeTreeData::getMonthFromName(const String & month_name)
{
DayNum_t date = DateLUT::instance().YYYYMMDDToDayNum(parse<UInt32>(month_name + "01"));
/// Can't just compare date with 0, because 0 is a valid DayNum too.
if (month_name != toString(DateLUT::instance().toNumYYYYMMDD(date) / 100))
throw Exception("Invalid partition format: " + month_name + " doesn't look like month.",
ErrorCodes::INVALID_PARTITION_NAME);
return date;
}
DayNum_t MergeTreeData::getMonthFromPartPrefix(const String & part_prefix)
{
return getMonthFromName(part_prefix.substr(0, strlen("YYYYMM")));
}
}