a439ebcfce
before this change, we rely on the default-generated fmt::formatter
created from operator<<, but fmt v10 dropped the default-generated
formatter.
in this change, we include `fmt/ranges.h` and/or `fmt/std.h`
for formatting the container types, like vector, map
optional and variant using {fmt} instead of the homebrew
formatter based on operator<<.
with this change, the changes adding fmt::formatter and
the changes using ostream formatter explicitly, we are
allowed to drop `FMT_DEPRECATED_OSTREAM` macro.
Refs scylladb#13245
Signed-off-by: Kefu Chai <kefu.chai@scylladb.com>
134 lines
5.7 KiB
C++
134 lines
5.7 KiB
C++
/*
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* Copyright (C) 2015-present ScyllaDB
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*/
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/*
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* SPDX-License-Identifier: AGPL-3.0-or-later
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*/
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#include <fmt/ranges.h>
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#include <seastar/core/thread.hh>
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#include "test/lib/scylla_test_case.hh"
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#include "test/lib/cql_test_env.hh"
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#include "service/storage_proxy.hh"
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#include "query_ranges_to_vnodes.hh"
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#include "schema/schema_builder.hh"
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// Returns random keys sorted in ring order.
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// The schema must have a single bytes_type partition key column.
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static std::vector<dht::ring_position> make_ring(schema_ptr s, int n_keys) {
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std::vector<dht::ring_position> ring;
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for (int i = 0; i < 10; ++i) {
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auto pk = partition_key::from_single_value(*s, to_bytes(format("key{:d}", i)));
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ring.emplace_back(dht::decorate_key(*s, pk));
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}
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std::sort(ring.begin(), ring.end(), dht::ring_position_less_comparator(*s));
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return ring;
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}
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SEASTAR_TEST_CASE(test_get_restricted_ranges) {
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return do_with_cql_env_thread([](cql_test_env& e) {
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auto s = schema_builder("ks", "cf")
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.with_column("pk", bytes_type, column_kind::partition_key)
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.with_column("v", bytes_type, column_kind::regular_column)
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.build();
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std::vector<dht::ring_position> ring = make_ring(s, 10);
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auto check = [&s](locator::token_metadata_ptr tmptr, dht::partition_range input,
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dht::partition_range_vector expected) {
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query_ranges_to_vnodes_generator ranges_to_vnodes(locator::make_splitter(tmptr), s, {input});
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auto actual = ranges_to_vnodes(1000);
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if (!std::equal(actual.begin(), actual.end(), expected.begin(), [&s](auto&& r1, auto&& r2) {
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return r1.equal(r2, dht::ring_position_comparator(*s));
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})) {
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BOOST_FAIL(format("Ranges differ, expected {} but got {}", expected, actual));
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}
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};
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{
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// Ring with minimum token
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auto tmptr = locator::make_token_metadata_ptr(locator::token_metadata::config{});
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const auto host_id = locator::host_id{utils::UUID(0, 1)};
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tmptr->update_topology(host_id, locator::endpoint_dc_rack{"dc1", "rack1"});
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tmptr->update_normal_tokens(std::unordered_set<dht::token>({dht::minimum_token()}), host_id).get();
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check(tmptr, dht::partition_range::make_singular(ring[0]), {
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dht::partition_range::make_singular(ring[0])
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});
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check(tmptr, dht::partition_range({ring[2]}, {ring[3]}), {
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dht::partition_range({ring[2]}, {ring[3]})
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});
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}
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{
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auto tmptr = locator::make_token_metadata_ptr(locator::token_metadata::config{});
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const auto id1 = locator::host_id{utils::UUID(0, 1)};
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const auto id2 = locator::host_id{utils::UUID(0, 2)};
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tmptr->update_topology(id1, locator::endpoint_dc_rack{"dc1", "rack1"});
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tmptr->update_normal_tokens(std::unordered_set<dht::token>({ring[2].token()}), id1).get();
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tmptr->update_topology(id2, locator::endpoint_dc_rack{"dc1", "rack1"});
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tmptr->update_normal_tokens(std::unordered_set<dht::token>({ring[5].token()}), id2).get();
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check(tmptr, dht::partition_range::make_singular(ring[0]), {
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dht::partition_range::make_singular(ring[0])
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});
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check(tmptr, dht::partition_range::make_singular(ring[2]), {
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dht::partition_range::make_singular(ring[2])
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});
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check(tmptr, dht::partition_range({{dht::ring_position::ending_at(ring[2].token()), false}}, {ring[3]}), {
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dht::partition_range({{dht::ring_position::ending_at(ring[2].token()), false}}, {ring[3]})
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});
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check(tmptr, dht::partition_range({ring[3]}, {ring[4]}), {
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dht::partition_range({ring[3]}, {ring[4]})
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});
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check(tmptr, dht::partition_range({ring[2]}, {ring[3]}), {
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dht::partition_range({ring[2]}, {dht::ring_position::ending_at(ring[2].token())}),
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dht::partition_range({{dht::ring_position::ending_at(ring[2].token()), false}}, {ring[3]})
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});
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check(tmptr, dht::partition_range({{ring[2], false}}, {ring[3]}), {
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dht::partition_range({{ring[2], false}}, {dht::ring_position::ending_at(ring[2].token())}),
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dht::partition_range({{dht::ring_position::ending_at(ring[2].token()), false}}, {ring[3]})
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});
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}
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});
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}
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SEASTAR_THREAD_TEST_CASE(test_split_stats) {
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auto ep1 = gms::inet_address("127.0.0.1");
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auto sg1 = create_scheduling_group("apa1", 100).get();
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auto sg2 = create_scheduling_group("apa2", 100).get();
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std::optional<service::storage_proxy_stats::split_stats> stats1, stats2;
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// pretending to be abstract_write_response_handler type.
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// created in various scheduling groups, in which they
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// instantiate group-local split_stats.
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with_scheduling_group(sg1, [&] {
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stats1.emplace("tuta", "nils", "en nils", "nilsa", true);
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}).get();
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with_scheduling_group(sg2, [&] {
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stats2.emplace("tuta", "nils", "en nils", "nilsa", true);
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}).get();
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// simulating the calling of storage_proxy::on_down, from gossip
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// on node dropping out. If inside a write operation, we'll pick up
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// write handlers and to "timeout_cb" on them, which in turn might
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// call get_ep_stat, which eventually calls register_metrics for
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// the DC written to.
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// Point being is that either the above should not happen, or
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// split_stats should be resilient to being called from different
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// scheduling group.
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stats1->register_metrics_for("DC1", ep1);
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stats2->register_metrics_for("DC1", ep1);
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}
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