/* * Copyright (C) 2017-present ScyllaDB */ /* * SPDX-License-Identifier: LicenseRef-ScyllaDB-Source-Available-1.1 */ #include "test/lib/sstable_utils.hh" #include "replica/database.hh" #include "replica/memtable-sstable.hh" #include "dht/i_partitioner.hh" #include "dht/murmur3_partitioner.hh" #include "sstables/version.hh" #include "test/lib/mutation_reader_assertions.hh" #include "test/lib/reader_concurrency_semaphore.hh" #include "test/boost/sstable_test.hh" #include #include #include using namespace sstables; using namespace std::chrono_literals; future> make_memtable(schema_ptr s, const utils::chunked_vector& muts) { auto mt = make_lw_shared(s); for (auto&& m : muts) { mt->apply(m); // Give the reactor some time to breathe co_await coroutine::maybe_yield(); } co_return mt; } std::vector active_memtables(replica::table& t) { std::vector active_memtables; t.for_each_active_memtable([&] (replica::memtable& mt) { active_memtables.push_back(&mt); }); return active_memtables; } future make_sstable_containing(std::function sst_factory, lw_shared_ptr mt) { return make_sstable_containing(sst_factory(), std::move(mt)); } future make_sstable_containing(sstables::shared_sstable sst, lw_shared_ptr mt) { co_await write_memtable_to_sstable(*mt, sst); sstable_open_config cfg { .load_first_and_last_position_metadata = true }; co_await sst->open_data(cfg); co_return sst; } future make_sstable_containing(sstables::shared_sstable sst, utils::chunked_vector muts, validate do_validate) { schema_ptr s = muts[0].schema(); co_await make_sstable_containing(sst, co_await make_memtable(s, muts)); if (do_validate) { reader_concurrency_semaphore sem( reader_concurrency_semaphore::no_limits{}, "make_sstable_containing", reader_concurrency_semaphore::register_metrics::no); std::set merged; for (auto&& m : muts) { auto it = merged.find(m); if (it == merged.end()) { merged.insert(std::move(m)); } else { auto old = merged.extract(it); old.value().apply(std::move(m)); merged.insert(std::move(old)); } co_await coroutine::maybe_yield(); } // validate the sstable auto rd = sst->as_mutation_source().make_mutation_reader(s, sem.make_tracking_only_permit(nullptr, "test", db::no_timeout, {})); for (auto&& m : merged) { auto mo = co_await read_mutation_from_mutation_reader(rd); BOOST_REQUIRE(mo); assert_that(*mo).is_equal_to_compacted(m); co_await coroutine::maybe_yield(); } co_await rd.close(); co_await sem.stop(); } co_return sst; } future make_sstable_containing(std::function sst_factory, utils::chunked_vector muts, validate do_validate) { return make_sstable_containing(sst_factory(), std::move(muts), do_validate); } shared_sstable make_sstable_easy(test_env& env, mutation_reader rd, sstable_writer_config cfg, sstables::generation_type gen, const sstables::sstable::version_types version, int expected_partition, db_clock::time_point query_time) { auto s = rd.schema(); auto sst = env.make_sstable(s, gen, version, sstable_format_types::big, default_sstable_buffer_size, query_time); sst->write_components(std::move(rd), expected_partition, s, cfg, encoding_stats{}).get(); sst->load(s->get_sharder()).get(); return sst; } shared_sstable make_sstable_easy(test_env& env, lw_shared_ptr mt, sstable_writer_config cfg, sstables::generation_type gen, const sstable::version_types v, int estimated_partitions, db_clock::time_point query_time) { return make_sstable_easy(env, mt->make_mutation_reader(mt->schema(), env.make_reader_permit()), std::move(cfg), gen, v, estimated_partitions, query_time); } future compact_sstables(test_env& env, compaction::compaction_descriptor descriptor, table_for_tests t, std::function creator, compaction::compaction_sstable_replacer_fn replacer, can_purge_tombstones can_purge) { auto& table_s = t.as_compaction_group_view(); descriptor.creator = [creator = std::move(creator)] (shard_id dummy) mutable { return creator(); }; descriptor.replacer = std::move(replacer); if (can_purge) { descriptor.enable_garbage_collection(*co_await table_s.main_sstable_set()); } compaction::compaction_result ret; co_await run_compaction_task(env, descriptor.run_identifier, table_s, [&] (compaction::compaction_data& cdata) { return do_with(compaction::compaction_progress_monitor{}, [&] (compaction::compaction_progress_monitor& progress_monitor) { return ::compaction::compact_sstables(std::move(descriptor), cdata, table_s, progress_monitor).then([&] (compaction::compaction_result res) { ret = std::move(res); }); }); }); co_return ret; } class compaction_manager_test_task : public compaction::compaction_task_executor { sstables::run_id _run_id; noncopyable_function (compaction::compaction_data&)> _job; gate::holder _hold; public: compaction_manager_test_task(compaction::compaction_manager& cm, compaction::compaction_group_view& table_s, sstables::run_id run_id, noncopyable_function (compaction::compaction_data&)> job) : compaction::compaction_task_executor(cm, compaction::throw_if_stopping::no, &table_s, compaction::compaction_type::Compaction, "Test compaction") , _run_id(run_id) , _job(std::move(job)) , _hold(_compaction_state.gate.hold()) { } protected: virtual future do_run() override { setup_new_compaction(_run_id); return _job(_compaction_data).then([] { return make_ready_future(std::nullopt); }); } }; future<> run_compaction_task(test_env& env, sstables::run_id output_run_id, compaction::compaction_group_view& table_s, noncopyable_function (compaction::compaction_data&)> job) { auto& tcm = env.test_compaction_manager(); auto task = make_shared(tcm.get_compaction_manager(), table_s, output_run_id, std::move(job)); co_await tcm.perform_compaction(std::move(task)); } future verify_mutation(test_env& env, shared_sstable sst, lw_shared_ptr mt, bytes key, std::function verify) { auto sstp = co_await make_sstable_containing(std::move(sst), mt); co_return co_await verify_mutation(env, std::move(sstp), std::move(key), std::move(verify)); } future verify_mutation(test_env& env, shared_sstable sstp, bytes key, std::function verify) { auto s = sstp->get_schema(); auto pr = dht::partition_range::make_singular(make_dkey(s, key)); auto rd = sstp->make_reader(s, env.make_reader_permit(), pr, s->full_slice()); auto mopt = co_await read_mutation_from_mutation_reader(rd); verify(mopt); co_await rd.close(); co_return sstp; } future verify_mutation(test_env& env, shared_sstable sst, lw_shared_ptr mt, dht::partition_range pr, std::function verify) { auto sstp = co_await make_sstable_containing(std::move(sst), mt); co_return co_await verify_mutation(env, std::move(sstp), std::move(pr), std::move(verify)); } future verify_mutation(test_env& env, shared_sstable sstp, dht::partition_range pr, std::function verify) { auto s = sstp->get_schema(); auto rd = sstp->make_reader(s, env.make_reader_permit(), std::move(pr), s->full_slice()); while (auto mopt = co_await read_mutation_from_mutation_reader(rd)) { if (verify(mopt) == stop_iteration::yes) { break; } } co_await rd.close(); co_return sstp; }