From 483eb2f56657e8e7f419ab1a4fab8dce9ade8609 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sat, 27 Apr 2024 20:24:20 +0200 Subject: Adding upstream version 14.2.21. Signed-off-by: Daniel Baumann --- src/seastar/tests/unit/rpc_test.cc | 547 +++++++++++++++++++++++++++++++++++++ 1 file changed, 547 insertions(+) create mode 100644 src/seastar/tests/unit/rpc_test.cc (limited to 'src/seastar/tests/unit/rpc_test.cc') diff --git a/src/seastar/tests/unit/rpc_test.cc b/src/seastar/tests/unit/rpc_test.cc new file mode 100644 index 00000000..6daf7ed7 --- /dev/null +++ b/src/seastar/tests/unit/rpc_test.cc @@ -0,0 +1,547 @@ +/* + * This file is open source software, licensed to you under the terms + * of the Apache License, Version 2.0 (the "License"). See the NOTICE file + * distributed with this work for additional information regarding copyright + * ownership. You may not use this file except in compliance with the License. + * + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY + * KIND, either express or implied. See the License for the + * specific language governing permissions and limitations + * under the License. + */ +/* + * Copyright (C) 2016 ScyllaDB + */ + + +#include "loopback_socket.hh" +#include +#include +#include +#include +#include +#include +#include +#include +#include + +using namespace seastar; + +struct serializer { +}; + +template +inline +void write_arithmetic_type(Output& out, T v) { + static_assert(std::is_arithmetic::value, "must be arithmetic type"); + return out.write(reinterpret_cast(&v), sizeof(T)); +} + +template +inline +T read_arithmetic_type(Input& in) { + static_assert(std::is_arithmetic::value, "must be arithmetic type"); + T v; + in.read(reinterpret_cast(&v), sizeof(T)); + return v; +} + +template +inline void write(serializer, Output& output, int32_t v) { return write_arithmetic_type(output, v); } +template +inline void write(serializer, Output& output, uint32_t v) { return write_arithmetic_type(output, v); } +template +inline void write(serializer, Output& output, int64_t v) { return write_arithmetic_type(output, v); } +template +inline void write(serializer, Output& output, uint64_t v) { return write_arithmetic_type(output, v); } +template +inline void write(serializer, Output& output, double v) { return write_arithmetic_type(output, v); } +template +inline int32_t read(serializer, Input& input, rpc::type) { return read_arithmetic_type(input); } +template +inline uint32_t read(serializer, Input& input, rpc::type) { return read_arithmetic_type(input); } +template +inline uint64_t read(serializer, Input& input, rpc::type) { return read_arithmetic_type(input); } +template +inline uint64_t read(serializer, Input& input, rpc::type) { return read_arithmetic_type(input); } +template +inline double read(serializer, Input& input, rpc::type) { return read_arithmetic_type(input); } + +template +inline void write(serializer, Output& out, const sstring& v) { + write_arithmetic_type(out, uint32_t(v.size())); + out.write(v.c_str(), v.size()); +} + +template +inline sstring read(serializer, Input& in, rpc::type) { + auto size = read_arithmetic_type(in); + sstring ret(sstring::initialized_later(), size); + in.read(ret.begin(), size); + return ret; +} + +using test_rpc_proto = rpc::protocol; +using make_socket_fn = std::function; + +struct rpc_loopback_error_injector : public loopback_error_injector { + int _x = 0; + bool server_rcv_error() override { + return _x++ >= 50; + } +}; + +class rpc_socket_impl : public ::net::socket_impl { + promise _p; + bool _connect; + loopback_socket_impl _socket; + rpc_loopback_error_injector _error_injector; +public: + rpc_socket_impl(loopback_connection_factory& factory, bool connect, bool inject_error) + : _connect(connect), + _socket(factory, inject_error ? &_error_injector : nullptr) { + } + virtual future connect(socket_address sa, socket_address local, transport proto = transport::TCP) override { + return _connect ? _socket.connect(sa, local, proto) : _p.get_future(); + } + virtual void shutdown() override { + if (_connect) { + _socket.shutdown(); + } else { + _p.set_exception(std::make_exception_ptr(std::system_error(ECONNABORTED, std::system_category()))); + } + } +}; + +future<> +with_rpc_env(rpc::resource_limits resource_limits, rpc::server_options so, bool connect, bool inject_error, + std::function (test_rpc_proto& proto, test_rpc_proto::server& server, make_socket_fn make_socket)> test_fn) { + struct state { + test_rpc_proto proto{serializer()}; + loopback_connection_factory lcf; + std::vector> servers; + }; + return do_with(state(), [=] (state& s) { + s.servers.resize(smp::count); + return smp::invoke_on_all([=, &s] { + s.servers[engine().cpu_id()] = std::make_unique(s.proto, so, s.lcf.get_server_socket(), resource_limits); + }).then([=, &s] { + auto make_socket = [&s, connect, inject_error] () { + return seastar::socket(std::make_unique(s.lcf, connect, inject_error)); + }; + return test_fn(s.proto, *s.servers[0], make_socket).finally([&] { + return smp::invoke_on_all([&s] { + auto sptr = s.servers[engine().cpu_id()].get(); + s.lcf.destroy_shard(engine().cpu_id()); + return sptr->stop().finally([p = std::move(s.servers[engine().cpu_id()])] {}); + }); + }); + }); + }); +} + +struct cfactory : rpc::compressor::factory { + mutable int use_compression = 0; + const sstring name; + cfactory(sstring name_ = "LZ4") : name(std::move(name_)) {} + const sstring& supported() const override { + return name; + } + std::unique_ptr negotiate(sstring feature, bool is_server) const override { + if (feature == name) { + use_compression++; + return std::make_unique(); + } else { + return nullptr; + } + } +}; +#if 1 +SEASTAR_TEST_CASE(test_rpc_connect) { + std::vector> fs; + + for (auto i = 0; i < 2; i++) { + for (auto j = 0; j < 4; j++) { + auto factory = std::make_unique(); + rpc::server_options so; + rpc::client_options co; + if (i == 1) { + so.compressor_factory = factory.get(); + } + if (j & 1) { + co.compressor_factory = factory.get(); + } + co.send_timeout_data = j & 2; + auto f = with_rpc_env({}, so, true, false, [co] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return seastar::async([&proto, make_socket, co] { + test_rpc_proto::client c1(proto, co, make_socket(), ipv4_addr()); + auto sum = proto.register_handler(1, [](int a, int b) { + return make_ready_future(a+b); + }); + auto result = sum(c1, 2, 3).get0(); + BOOST_REQUIRE_EQUAL(result, 2 + 3); + c1.stop().get(); + }); + }).handle_exception([] (auto ep) { + BOOST_FAIL("No exception expected"); + }).finally([factory = std::move(factory), i, j = j & 1] { + if (i == 1 && j == 1) { + BOOST_REQUIRE_EQUAL(factory->use_compression, 2); + } else { + BOOST_REQUIRE_EQUAL(factory->use_compression, 0); + } + }); + fs.emplace_back(std::move(f)); + } + } + return when_all(fs.begin(), fs.end()).discard_result(); +} + +SEASTAR_TEST_CASE(test_rpc_connect_multi_compression_algo) { + auto factory1 = std::make_unique(); + auto factory2 = std::make_unique("LZ4NEW"); + rpc::server_options so; + rpc::client_options co; + static rpc::multi_algo_compressor_factory server({factory1.get(), factory2.get()}); + static rpc::multi_algo_compressor_factory client({factory2.get(), factory1.get()}); + so.compressor_factory = &server; + co.compressor_factory = &client; + return with_rpc_env({}, so, true, false, [co] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return seastar::async([&proto, make_socket, co] { + test_rpc_proto::client c1(proto, co, make_socket(), ipv4_addr()); + auto sum = proto.register_handler(1, [](int a, int b) { + return make_ready_future(a+b); + }); + auto result = sum(c1, 2, 3).get0(); + BOOST_REQUIRE_EQUAL(result, 2 + 3); + c1.stop().get(); + }); + }).finally([factory1 = std::move(factory1), factory2 = std::move(factory2)] { + BOOST_REQUIRE_EQUAL(factory1->use_compression, 0); + BOOST_REQUIRE_EQUAL(factory2->use_compression, 2); + }); +} + +SEASTAR_TEST_CASE(test_rpc_connect_abort) { + return with_rpc_env({}, {}, false, false, [] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return seastar::async([&proto, make_socket] { + test_rpc_proto::client c1(proto, {}, make_socket(), ipv4_addr()); + auto f = proto.register_handler(1, []() { return make_ready_future<>(); }); + c1.stop().get0(); + try { + f(c1).get0(); + BOOST_REQUIRE(false); + } catch (...) {} + }); + }); +} + +SEASTAR_TEST_CASE(test_rpc_cancel) { + using namespace std::chrono_literals; + return with_rpc_env({}, {}, true, false, [] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return seastar::async([&proto, make_socket] { + test_rpc_proto::client c1(proto, {}, make_socket(), ipv4_addr()); + bool rpc_executed = false; + int good = 0; + promise<> handler_called; + future<> f_handler_called = handler_called.get_future(); + auto call = proto.register_handler(1, [&rpc_executed, handler_called = std::move(handler_called)] () mutable { + handler_called.set_value(); rpc_executed = true; return sleep(1ms); + }); + rpc::cancellable cancel; + auto f = call(c1, cancel); + // cancel send side + cancel.cancel(); + try { + f.get(); + } catch(rpc::canceled_error&) { + good += !rpc_executed; + }; + f = call(c1, cancel); + // cancel wait side + f_handler_called.then([&cancel] { + cancel.cancel(); + }).get(); + try { + f.get(); + } catch(rpc::canceled_error&) { + good += 10*rpc_executed; + }; + c1.stop().get(); + BOOST_REQUIRE_EQUAL(good, 11); + }); + }); +} + +SEASTAR_TEST_CASE(test_message_to_big) { + return with_rpc_env({0, 1, 100}, {}, true, false, [] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return seastar::async([&proto, make_socket] { + test_rpc_proto::client c(proto, {}, make_socket(), ipv4_addr()); + bool good = true; + auto call = proto.register_handler(1, [&] (sstring payload) mutable { + good = false; + }); + try { + call(c, sstring(sstring::initialized_later(), 101)).get(); + good = false; + } catch(std::runtime_error& err) { + } catch(...) { + good = false; + } + c.stop().get(); + BOOST_REQUIRE_EQUAL(good, true); + }); + }); +} +#endif + +struct stream_test_result { + bool client_source_closed = false; + bool server_source_closed = false; + bool sink_exception = false; + bool sink_close_exception = false; + bool source_done_exception = false; + bool server_done_exception = false; + bool client_stop_exception = false; + int server_sum = 0; +}; + +future stream_test_func(test_rpc_proto& proto, make_socket_fn make_socket, bool stop_client) { + return seastar::async([&proto, make_socket, stop_client] { + stream_test_result r; + test_rpc_proto::client c(proto, {}, make_socket(), ipv4_addr()); + future<> server_done = make_ready_future(); + proto.register_handler(1, [&](int i, rpc::source source) { + BOOST_REQUIRE_EQUAL(i, 666); + auto sink = source.make_sink(); + auto sink_loop = seastar::async([sink] () mutable { + for (auto i = 0; i < 100; i++) { + sink("seastar").get(); + sleep(std::chrono::milliseconds(1)).get(); + } + sink.close().get(); + }); + auto source_loop = seastar::async([source, &r] () mutable { + while (!r.server_source_closed) { + auto data = source().get0(); + if (data) { + r.server_sum += std::get<0>(*data); + } else { + r.server_source_closed = true; + } + } + }); + server_done = when_all_succeed(std::move(sink_loop), std::move(source_loop)).discard_result(); + return sink; + }); + auto call = proto.make_client (int, rpc::sink)>(1); + auto x = [&] { + try { + return c.make_stream_sink(make_socket()).get0(); + } catch (...) { + c.stop().get(); + throw; + } + }; + auto sink = x(); + auto source = call(c, 666, sink).get0(); + auto source_done = seastar::async([&] { + while (!r.client_source_closed) { + auto data = source().get0(); + if (data) { + BOOST_REQUIRE_EQUAL(std::get<0>(*data), "seastar"); + } else { + r.client_source_closed = true; + } + } + }); + auto check_exception = [] (auto f) { + try { + f.get(); + } catch (...) { + return true; + } + return false; + }; + future<> stop_client_future = make_ready_future(); + for (int i = 1; i < 101; i++) { + if (stop_client && i == 50) { + // stop client while stream is in use + stop_client_future = c.stop(); + } + sleep(std::chrono::milliseconds(1)).get(); + r.sink_exception = check_exception(sink(i)); + if (r.sink_exception) { + break; + } + } + r.sink_close_exception = check_exception(sink.close()); + r.source_done_exception = check_exception(std::move(source_done)); + r.server_done_exception = check_exception(std::move(server_done)); + r.client_stop_exception = check_exception(!stop_client ? c.stop() : std::move(stop_client_future)); + return r; + }); +} + +SEASTAR_TEST_CASE(test_stream_simple) { + rpc::server_options so; + so.streaming_domain = rpc::streaming_domain_type(1); + return with_rpc_env({}, so, true, false, [] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return stream_test_func(proto, make_socket, false).then([] (stream_test_result r) { + BOOST_REQUIRE(r.client_source_closed && + r.server_source_closed && + r.server_sum == 5050 && + !r.sink_exception && + !r.sink_close_exception && + !r.source_done_exception && + !r.server_done_exception && + !r.client_stop_exception); + }); + }); +} + +SEASTAR_TEST_CASE(test_stream_stop_client) { + rpc::server_options so; + so.streaming_domain = rpc::streaming_domain_type(1); + return with_rpc_env({}, so, true, false, [] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return stream_test_func(proto, make_socket, true).then([] (stream_test_result r) { + BOOST_REQUIRE(!r.client_source_closed && + !r.server_source_closed && + r.sink_exception && + r.sink_close_exception && + r.source_done_exception && + r.server_done_exception && + !r.client_stop_exception); + }); + }); +} + + +SEASTAR_TEST_CASE(test_stream_connection_error) { + rpc::server_options so; + so.streaming_domain = rpc::streaming_domain_type(1); + return with_rpc_env({}, so, true, true, [] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return stream_test_func(proto, make_socket, false).then([] (stream_test_result r) { + BOOST_REQUIRE(!r.client_source_closed && + !r.server_source_closed && + r.sink_exception && + r.sink_close_exception && + r.source_done_exception && + r.server_done_exception && + !r.client_stop_exception); + }); + }); +} + +SEASTAR_TEST_CASE(test_rpc_scheduling) { + return with_rpc_env({}, {}, true, false, [] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return seastar::async([&proto, make_socket] { + test_rpc_proto::client c1(proto, {}, make_socket(), ipv4_addr()); + auto sg = create_scheduling_group("rpc", 100).get0(); + auto call = proto.register_handler(1, sg, [sg] () mutable { + BOOST_REQUIRE(sg == current_scheduling_group()); + return make_ready_future<>(); + }); + call(c1).get(); + c1.stop().get(); + }); + }); +} + +SEASTAR_THREAD_TEST_CASE(test_rpc_scheduling_connection_based) { + auto sg1 = create_scheduling_group("sg1", 100).get0(); + auto sg1_kill = defer([&] { destroy_scheduling_group(sg1).get(); }); + auto sg2 = create_scheduling_group("sg2", 100).get0(); + auto sg2_kill = defer([&] { destroy_scheduling_group(sg2).get(); }); + rpc::resource_limits limits; + limits.isolate_connection = [sg1, sg2] (sstring cookie) { + auto sg = current_scheduling_group(); + if (cookie == "sg1") { + sg = sg1; + } else if (cookie == "sg2") { + sg = sg2; + } + rpc::isolation_config cfg; + cfg.sched_group = sg; + return cfg; + }; + with_rpc_env(limits, {}, true, false, [sg1, sg2] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return async([&proto, make_socket, sg1, sg2] { + rpc::client_options co1; + co1.isolation_cookie = "sg1"; + test_rpc_proto::client c1(proto, co1, make_socket(), ipv4_addr()); + rpc::client_options co2; + co2.isolation_cookie = "sg2"; + test_rpc_proto::client c2(proto, co2, make_socket(), ipv4_addr()); + auto call = proto.register_handler(1, [sg1, sg2] (int which) mutable { + scheduling_group expected; + if (which == 1) { + expected = sg1; + } else if (which == 2) { + expected = sg2; + } + BOOST_REQUIRE(current_scheduling_group() == expected); + return make_ready_future<>(); + }); + call(c1, 1).get(); + call(c2, 2).get(); + c1.stop().get(); + c2.stop().get(); + }); + }).get(); +} + +SEASTAR_THREAD_TEST_CASE(test_rpc_scheduling_connection_based_compatibility) { + auto sg1 = create_scheduling_group("sg1", 100).get0(); + auto sg1_kill = defer([&] { destroy_scheduling_group(sg1).get(); }); + auto sg2 = create_scheduling_group("sg2", 100).get0(); + auto sg2_kill = defer([&] { destroy_scheduling_group(sg2).get(); }); + rpc::resource_limits limits; + limits.isolate_connection = [sg1, sg2] (sstring cookie) { + auto sg = current_scheduling_group(); + if (cookie == "sg1") { + sg = sg1; + } else if (cookie == "sg2") { + sg = sg2; + } + rpc::isolation_config cfg; + cfg.sched_group = sg; + return cfg; + }; + with_rpc_env(limits, {}, true, false, [sg1, sg2] (test_rpc_proto& proto, test_rpc_proto::server& s, make_socket_fn make_socket) { + return async([&proto, make_socket, sg1, sg2] { + rpc::client_options co1; + co1.isolation_cookie = "sg1"; + test_rpc_proto::client c1(proto, co1, make_socket(), ipv4_addr()); + rpc::client_options co2; + co2.isolation_cookie = "sg2"; + test_rpc_proto::client c2(proto, co2, make_socket(), ipv4_addr()); + // An old client, that doesn't have an isolation cookie + rpc::client_options co3; + test_rpc_proto::client c3(proto, co3, make_socket(), ipv4_addr()); + // A server that uses sg1 if the client is old + auto call = proto.register_handler(1, sg1, [sg1, sg2] (int which) mutable { + scheduling_group expected; + if (which == 1) { + expected = sg1; + } else if (which == 2) { + expected = sg2; + } + BOOST_REQUIRE(current_scheduling_group() == expected); + return make_ready_future<>(); + }); + call(c1, 1).get(); + call(c2, 2).get(); + call(c3, 1).get(); + c1.stop().get(); + c2.stop().get(); + c3.stop().get(); + }); + }).get(); +} -- cgit v1.2.3