5d4671526c
This is not just a direct flip to a variable with the negated Boolean
value. When created, a large_data_handler is not considered to be
running, the user has to call start() before it can be used.
The advantaged of doing this is that if initialization fails and a
database is destructed before the large_data_handler is started, the
assert
database::stop() {
assert(!_large_data_handler->running());
is not triggered.
Signed-off-by: Rafael Ávila de Espíndola <espindola@scylladb.com>
144 lines
6.5 KiB
C++
144 lines
6.5 KiB
C++
/*
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* Copyright (C) 2018 ScyllaDB
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*/
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/*
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* This file is part of Scylla.
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*
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* Scylla is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* Scylla is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with Scylla. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <seastar/core/print.hh>
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#include "db/query_context.hh"
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#include "db/system_keyspace.hh"
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#include "db/large_data_handler.hh"
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#include "sstables/sstables.hh"
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namespace db {
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nop_large_data_handler::nop_large_data_handler()
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: large_data_handler(std::numeric_limits<uint64_t>::max(), std::numeric_limits<uint64_t>::max(),
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std::numeric_limits<uint64_t>::max(), std::numeric_limits<uint64_t>::max()) {
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// Don't require start() to be called on nop large_data_handler.
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start();
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}
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future<> large_data_handler::maybe_record_large_partitions(const sstables::sstable& sst, const sstables::key& key, uint64_t partition_size) {
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assert(running());
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if (partition_size > _partition_threshold_bytes) {
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++_stats.partitions_bigger_than_threshold;
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return with_sem([&sst, &key, partition_size, this] {
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return record_large_partitions(sst, key, partition_size);
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});
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}
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return make_ready_future<>();
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}
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void large_data_handler::start() {
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_running = true;
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}
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future<> large_data_handler::stop() {
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if (!running()) {
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return make_ready_future<>();
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}
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_running = false;
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return _sem.wait(max_concurrency);
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}
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static logging::logger large_data_logger("large_data");
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template <typename T> static std::string key_to_str(const T& key, const schema& s) {
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std::ostringstream oss;
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oss << key.with_schema(s);
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return oss.str();
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}
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template <typename... Args>
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static future<> try_record(std::string_view large_table, const sstables::sstable& sst, const sstables::key& partition_key, int64_t size,
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std::string_view desc, std::string_view extra_path, const std::vector<sstring> &extra_fields, Args&&... args) {
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sstring extra_fields_str;
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sstring extra_values;
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for (std::string_view field : extra_fields) {
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extra_fields_str += format(", {}", field);
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extra_values += ", ?";
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}
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const sstring req = format("INSERT INTO system.large_{}s (keyspace_name, table_name, sstable_name, {}_size, partition_key, compaction_time{}) VALUES (?, ?, ?, ?, ?, ?{}) USING TTL 2592000",
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large_table, large_table, extra_fields_str, extra_values);
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const schema &s = *sst.get_schema();
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auto ks_name = s.ks_name();
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auto cf_name = s.cf_name();
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const auto sstable_name = sst.get_filename();
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std::string pk_str = key_to_str(partition_key.to_partition_key(s), s);
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auto timestamp = db_clock::now();
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large_data_logger.warn("Writing large {} {}/{}: {}{} ({} bytes)", desc, ks_name, cf_name, pk_str, extra_path, size);
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return db::execute_cql(req, ks_name, cf_name, sstable_name, size, pk_str, timestamp, args...)
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.discard_result()
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.handle_exception([ks_name, cf_name, large_table, sstable_name] (std::exception_ptr ep) {
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large_data_logger.warn("Failed to add a record to system.large_{}s: ks = {}, table = {}, sst = {} exception = {}",
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large_table, ks_name, cf_name, sstable_name, ep);
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});
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}
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future<> cql_table_large_data_handler::record_large_partitions(const sstables::sstable& sst, const sstables::key& key, uint64_t partition_size) const {
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return try_record("partition", sst, key, int64_t(partition_size), "partition", "", {});
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}
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void cql_table_large_data_handler::log_too_many_rows(const sstables::sstable& sst, const sstables::key& partition_key,
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uint64_t rows_count) const {
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const schema& s = *sst.get_schema();
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large_data_logger.warn("Writing a partition with too many rows [{}/{}:{}] ({} rows)",
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s.ks_name(), s.cf_name(), partition_key.to_partition_key(s).with_schema(s),
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rows_count);
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}
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future<> cql_table_large_data_handler::record_large_cells(const sstables::sstable& sst, const sstables::key& partition_key,
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const clustering_key_prefix* clustering_key, const column_definition& cdef, uint64_t cell_size) const {
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auto column_name = cdef.name_as_text();
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std::string_view cell_type = cdef.is_atomic() ? "cell" : "collection";
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static const std::vector<sstring> extra_fields{"clustering_key", "column_name"};
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if (clustering_key) {
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const schema &s = *sst.get_schema();
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auto ck_str = key_to_str(*clustering_key, s);
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return try_record("cell", sst, partition_key, int64_t(cell_size), cell_type, format("{} {}", ck_str, column_name), extra_fields, ck_str, column_name);
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} else {
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return try_record("cell", sst, partition_key, int64_t(cell_size), cell_type, column_name, extra_fields, nullptr, column_name);
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}
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}
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future<> cql_table_large_data_handler::record_large_rows(const sstables::sstable& sst, const sstables::key& partition_key,
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const clustering_key_prefix* clustering_key, uint64_t row_size) const {
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static const std::vector<sstring> extra_fields{"clustering_key"};
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if (clustering_key) {
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const schema &s = *sst.get_schema();
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std::string ck_str = key_to_str(*clustering_key, s);
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return try_record("row", sst, partition_key, int64_t(row_size), "row", ck_str, extra_fields, ck_str);
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} else {
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return try_record("row", sst, partition_key, int64_t(row_size), "static row", "", extra_fields, nullptr);
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}
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}
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future<> cql_table_large_data_handler::delete_large_data_entries(const schema& s, sstring sstable_name, std::string_view large_table_name) const {
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const sstring req =
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format("DELETE FROM system.{} WHERE keyspace_name = ? AND table_name = ? AND sstable_name = ?",
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large_table_name);
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return db::execute_cql(req, s.ks_name(), s.cf_name(), sstable_name)
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.discard_result()
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.handle_exception([&s, sstable_name, large_table_name] (std::exception_ptr ep) {
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large_data_logger.warn("Failed to drop entries from {}: ks = {}, table = {}, sst = {} exception = {}",
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large_table_name, s.ks_name(), s.cf_name(), sstable_name, ep);
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});
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}
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}
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