/* * Copyright (C) 2021-present ScyllaDB */ /* * SPDX-License-Identifier: AGPL-3.0-or-later */ #include "db/timeout_clock.hh" #include #include "test/lib/scylla_test_case.hh" #include #include "utils/hashers.hh" #include "utils/xx_hasher.hh" #include "utils/simple_hashers.hh" #include "gc_clock.hh" #include "test/lib/simple_schema.hh" #include "reader_concurrency_semaphore.hh" bytes text_part1("sanity"); bytes text_part2("check"); bytes text_full("sanitycheck"); BOOST_AUTO_TEST_CASE(xx_hasher_sanity_check) { xx_hasher hasher; hasher.update(reinterpret_cast(std::data(text_part1)), std::size(text_part1)); hasher.update(reinterpret_cast(std::data(text_part2)), std::size(text_part2)); bytes hash = hasher.finalize(); bytes expected = from_hex("00000000000000001b1308f9e7c7dcf4"); BOOST_CHECK_EQUAL(hash, expected); } BOOST_AUTO_TEST_CASE(md5_hasher_sanity_check) { md5_hasher hasher; hasher.update(reinterpret_cast(std::data(text_part1)), std::size(text_part1)); hasher.update(reinterpret_cast(std::data(text_part2)), std::size(text_part2)); bytes hash = hasher.finalize(); bytes expected = from_hex("a9221b2b5a53b9d9adf07f3305ed1a3e"); BOOST_CHECK_EQUAL(hash, expected); } BOOST_AUTO_TEST_CASE(sha256_hasher_sanity_check) { sha256_hasher hasher; hasher.update(reinterpret_cast(std::data(text_part1)), std::size(text_part1)); hasher.update(reinterpret_cast(std::data(text_part2)), std::size(text_part2)); bytes hash = hasher.finalize(); bytes expected = from_hex("62bcb3e6160172824e1939116f48ae3680df989583c6d1bfbfa84fa9a080d003"); BOOST_REQUIRE_EQUAL(hash, expected); } BOOST_AUTO_TEST_CASE(bytes_view_hasher_sanity_check) { bytes_view_hasher hasher1; hasher1.update(reinterpret_cast(std::data(text_part1)), std::size(text_part1)); hasher1.update(reinterpret_cast(std::data(text_part2)), std::size(text_part2)); size_t hash1 = hasher1.finalize(); bytes_view_hasher hasher2; hasher2.update(reinterpret_cast(std::data(text_full)), std::size(text_full)); size_t hash2 = hasher2.finalize(); BOOST_REQUIRE_EQUAL(hash1, hash2); } SEASTAR_THREAD_TEST_CASE(mutation_fragment_sanity_check) { reader_concurrency_semaphore semaphore(reader_concurrency_semaphore::no_limits{}, __FILE__, reader_concurrency_semaphore::register_metrics::no); auto stop_semaphore = deferred_stop(semaphore); simple_schema s; auto permit = semaphore.make_tracking_only_permit(s.schema(), "test", db::no_timeout, {}); gc_clock::time_point ts(gc_clock::duration(1234567890000)); auto check_hash = [&] (const mutation_fragment& mf, uint64_t expected) { xx_hasher h; feed_hash(h, mf, *s.schema()); auto v = h.finalize_uint64(); BOOST_REQUIRE_EQUAL(v, expected); }; { mutation_fragment f(*s.schema(), permit, partition_start{ s.make_pkey(0), {} }); check_hash(f, 0xfb4f06dd4de434c2ull); } { mutation_fragment f(*s.schema(), permit, partition_start{ s.make_pkey(1), tombstone(42, ts) }); check_hash(f, 0xcd9299d785a70d8dull); } { mutation_fragment f(*s.schema(), permit, s.make_row(permit, s.make_ckey(1), "abc")); check_hash(f, 0x8ae8c4860ca108bbull); } { mutation_fragment f(*s.schema(), permit, s.make_static_row(permit, "def")); check_hash(f, 0x2b8119e27581bbeeull); } { mutation_fragment f(*s.schema(), permit, s.make_range_tombstone(query::clustering_range::make(s.make_ckey(2), s.make_ckey(3)), ts)); check_hash(f, 0x5092daca1b27ea26ull); } } BOOST_AUTO_TEST_CASE(basic_xx_hasher_sanity_check) { simple_xx_hasher hasher1; hasher1.update(reinterpret_cast(std::data(text_part1)), std::size(text_part1)); hasher1.update(reinterpret_cast(std::data(text_part2)), std::size(text_part2)); auto hash1 = hasher1.finalize(); bytes_view_hasher hasher2; hasher2.update(reinterpret_cast(std::data(text_part1)), std::size(text_part1)); hasher2.update(reinterpret_cast(std::data(text_part2)), std::size(text_part2)); auto hash2 = hasher2.finalize(); BOOST_CHECK_EQUAL(hash1, hash2); }