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402 lines
11 KiB
C++
402 lines
11 KiB
C++
/* Copyright (c) 2018-2022 Marcelo Zimbres Silva (mzimbres@gmail.com)
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*
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* Distributed under the Boost Software License, Version 1.0. (See
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* accompanying file LICENSE.txt)
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*/
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#include <boost/redis/connection.hpp>
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#include <boost/redis/logger.hpp>
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#include <boost/redis/request.hpp>
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#include <boost/redis/response.hpp>
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#include <boost/asio/experimental/channel_error.hpp>
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#include <boost/system/errc.hpp>
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#include <string>
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#define BOOST_TEST_MODULE conn_push
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#include <boost/test/included/unit_test.hpp>
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#include "common.hpp"
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#include <cstddef>
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#include <iostream>
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namespace net = boost::asio;
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namespace redis = boost::redis;
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using boost::redis::operation;
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using boost::redis::connection;
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using boost::system::error_code;
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using boost::redis::request;
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using boost::redis::response;
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using boost::redis::ignore;
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using boost::redis::ignore_t;
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using boost::system::error_code;
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using boost::redis::logger;
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using namespace std::chrono_literals;
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namespace {
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BOOST_AUTO_TEST_CASE(receives_push_waiting_resps)
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{
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request req1;
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req1.push("HELLO", 3);
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req1.push("PING", "Message1");
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request req2;
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req2.push("SUBSCRIBE", "channel");
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request req3;
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req3.push("PING", "Message2");
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req3.push("QUIT");
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net::io_context ioc;
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auto conn = std::make_shared<connection>(ioc);
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bool push_received = false, c1_called = false, c2_called = false, c3_called = false;
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auto c3 = [&](error_code ec, std::size_t) {
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c3_called = true;
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std::cout << "c3: " << ec.message() << std::endl;
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};
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auto c2 = [&, conn](error_code ec, std::size_t) {
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c2_called = true;
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BOOST_TEST(ec == error_code());
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conn->async_exec(req3, ignore, c3);
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};
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auto c1 = [&, conn](error_code ec, std::size_t) {
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c1_called = true;
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BOOST_TEST(ec == error_code());
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conn->async_exec(req2, ignore, c2);
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};
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conn->async_exec(req1, ignore, c1);
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run(conn, make_test_config(), {});
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conn->async_receive([&, conn](error_code ec, std::size_t) {
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std::cout << "async_receive" << std::endl;
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BOOST_TEST(ec == error_code());
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push_received = true;
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conn->cancel();
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});
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ioc.run_for(test_timeout);
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BOOST_TEST(push_received);
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BOOST_TEST(c1_called);
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BOOST_TEST(c2_called);
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BOOST_TEST(c3_called);
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}
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BOOST_AUTO_TEST_CASE(push_received1)
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{
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net::io_context ioc;
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auto conn = std::make_shared<connection>(ioc);
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// Trick: Uses SUBSCRIBE because this command has no response or
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// better said, its response is a server push, which is what we
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// want to test. We send two because we want to test both
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// async_receive and receive.
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request req;
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req.push("SUBSCRIBE", "channel1");
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req.push("SUBSCRIBE", "channel2");
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bool push_received = false, exec_finished = false;
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conn->async_exec(req, ignore, [&, conn](error_code ec, std::size_t) {
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exec_finished = true;
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std::cout << "async_exec" << std::endl;
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BOOST_TEST(ec == error_code());
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});
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conn->async_receive([&, conn](error_code ec, std::size_t) {
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push_received = true;
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std::cout << "(1) async_receive" << std::endl;
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BOOST_TEST(ec == error_code());
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// Receives the second push synchronously.
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error_code ec2;
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std::size_t res = 0;
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res = conn->receive(ec2);
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BOOST_TEST(!ec2);
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BOOST_TEST(res != std::size_t(0));
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// Tries to receive a third push synchronously.
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ec2 = {};
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res = conn->receive(ec2);
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BOOST_CHECK_EQUAL(
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ec2,
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boost::redis::make_error_code(boost::redis::error::sync_receive_push_failed));
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conn->cancel();
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});
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run(conn);
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ioc.run_for(test_timeout);
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BOOST_TEST(exec_finished);
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BOOST_TEST(push_received);
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}
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BOOST_AUTO_TEST_CASE(push_filtered_out)
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{
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net::io_context ioc;
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auto conn = std::make_shared<connection>(ioc);
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request req;
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req.push("HELLO", 3);
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req.push("PING");
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req.push("SUBSCRIBE", "channel");
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req.push("QUIT");
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response<ignore_t, std::string, std::string> resp;
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bool exec_finished = false, push_received = false;
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conn->async_exec(req, resp, [conn, &exec_finished](error_code ec, std::size_t) {
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exec_finished = true;
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BOOST_TEST(ec == error_code());
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});
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conn->async_receive([&, conn](error_code ec, std::size_t) {
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push_received = true;
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BOOST_TEST(ec == error_code());
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conn->cancel(operation::reconnection);
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});
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run(conn);
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ioc.run_for(test_timeout);
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BOOST_TEST(exec_finished);
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BOOST_TEST(push_received);
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BOOST_CHECK_EQUAL(std::get<1>(resp).value(), "PONG");
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BOOST_CHECK_EQUAL(std::get<2>(resp).value(), "OK");
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}
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struct response_error_tag { };
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response_error_tag error_tag_obj;
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struct response_error_adapter {
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void on_init() { }
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void on_done() { }
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void on_node(
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boost::redis::resp3::basic_node<std::string_view> const&,
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boost::system::error_code& ec)
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{
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ec = boost::redis::error::incompatible_size;
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}
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};
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auto boost_redis_adapt(response_error_tag&) { return response_error_adapter{}; }
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BOOST_AUTO_TEST_CASE(test_push_adapter)
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{
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net::io_context ioc;
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auto conn = std::make_shared<connection>(ioc);
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request req;
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req.push("HELLO", 3);
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req.push("PING");
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req.push("SUBSCRIBE", "channel");
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req.push("PING");
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conn->set_receive_response(error_tag_obj);
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bool push_received = false, exec_finished = false, run_finished = false;
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conn->async_receive([&, conn](error_code ec, std::size_t) {
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BOOST_CHECK_EQUAL(ec, boost::asio::experimental::error::channel_cancelled);
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push_received = true;
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});
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conn->async_exec(req, ignore, [&exec_finished](error_code ec, std::size_t) {
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BOOST_CHECK_EQUAL(ec, boost::system::errc::errc_t::operation_canceled);
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exec_finished = true;
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});
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auto cfg = make_test_config();
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cfg.reconnect_wait_interval = 0s;
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conn->async_run(cfg, [&run_finished](error_code ec) {
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BOOST_CHECK_EQUAL(ec, redis::error::incompatible_size);
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run_finished = true;
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});
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ioc.run_for(test_timeout);
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BOOST_TEST(push_received);
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BOOST_TEST(exec_finished);
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BOOST_TEST(run_finished);
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// TODO: Reset the ioc reconnect and send a quit to ensure
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// reconnection is possible after an error.
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}
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void launch_push_consumer(std::shared_ptr<connection> conn)
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{
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conn->async_receive([conn](error_code ec, std::size_t) {
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if (ec) {
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BOOST_TEST(ec == net::experimental::error::channel_cancelled);
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return;
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}
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launch_push_consumer(conn);
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});
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}
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BOOST_AUTO_TEST_CASE(many_subscribers)
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{
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request req0;
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req0.get_config().cancel_on_connection_lost = false;
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req0.push("HELLO", 3);
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request req1;
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req1.get_config().cancel_on_connection_lost = false;
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req1.push("PING", "Message1");
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request req2;
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req2.get_config().cancel_on_connection_lost = false;
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req2.push("SUBSCRIBE", "channel");
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request req3;
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req3.get_config().cancel_on_connection_lost = false;
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req3.push("QUIT");
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net::io_context ioc;
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auto conn = std::make_shared<connection>(ioc);
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bool finished = false;
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auto c11 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->cancel(operation::reconnection);
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finished = true;
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};
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auto c10 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req3, ignore, c11);
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};
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auto c9 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req2, ignore, c10);
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};
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auto c8 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req1, ignore, c9);
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};
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auto c7 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req2, ignore, c8);
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};
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auto c6 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req2, ignore, c7);
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};
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auto c5 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req1, ignore, c6);
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};
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auto c4 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req2, ignore, c5);
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};
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auto c3 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req1, ignore, c4);
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};
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auto c2 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req2, ignore, c3);
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};
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auto c1 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req2, ignore, c2);
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};
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auto c0 = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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conn->async_exec(req1, ignore, c1);
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};
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conn->async_exec(req0, ignore, c0);
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launch_push_consumer(conn);
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run(conn, make_test_config(), {});
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ioc.run_for(test_timeout);
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BOOST_TEST(finished);
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}
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BOOST_AUTO_TEST_CASE(test_unsubscribe)
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{
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net::io_context ioc;
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connection conn{ioc};
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// Subscribe to 3 channels and 2 patterns. Use CLIENT INFO to verify this took effect
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request req_subscribe;
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req_subscribe.push("SUBSCRIBE", "ch1", "ch2", "ch3");
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req_subscribe.push("PSUBSCRIBE", "ch1*", "ch2*");
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req_subscribe.push("CLIENT", "INFO");
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// Then, unsubscribe from some of them, and verify again
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request req_unsubscribe;
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req_unsubscribe.push("UNSUBSCRIBE", "ch1");
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req_unsubscribe.push("PUNSUBSCRIBE", "ch2*");
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req_unsubscribe.push("CLIENT", "INFO");
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// Finally, ping to verify that the connection is still usable
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request req_ping;
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req_ping.push("PING", "test_unsubscribe");
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response<std::string> resp_subscribe, resp_unsubscribe, resp_ping;
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bool subscribe_finished = false, unsubscribe_finished = false, ping_finished = false,
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run_finished = false;
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auto on_ping = [&](error_code ec, std::size_t) {
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BOOST_TEST(ec == error_code());
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ping_finished = true;
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BOOST_TEST(std::get<0>(resp_ping).has_value());
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BOOST_TEST(std::get<0>(resp_ping).value() == "test_unsubscribe");
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conn.cancel();
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};
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auto on_unsubscribe = [&](error_code ec, std::size_t) {
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unsubscribe_finished = true;
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BOOST_TEST(ec == error_code());
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BOOST_TEST(std::get<0>(resp_unsubscribe).has_value());
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BOOST_TEST(find_client_info(std::get<0>(resp_unsubscribe).value(), "sub") == "2");
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BOOST_TEST(find_client_info(std::get<0>(resp_unsubscribe).value(), "psub") == "1");
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conn.async_exec(req_ping, resp_ping, on_ping);
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};
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auto on_subscribe = [&](error_code ec, std::size_t) {
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subscribe_finished = true;
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BOOST_TEST(ec == error_code());
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BOOST_TEST(std::get<0>(resp_subscribe).has_value());
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BOOST_TEST(find_client_info(std::get<0>(resp_subscribe).value(), "sub") == "3");
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BOOST_TEST(find_client_info(std::get<0>(resp_subscribe).value(), "psub") == "2");
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conn.async_exec(req_unsubscribe, resp_unsubscribe, on_unsubscribe);
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};
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conn.async_exec(req_subscribe, resp_subscribe, on_subscribe);
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conn.async_run(make_test_config(), [&run_finished](error_code ec) {
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BOOST_TEST(ec == net::error::operation_aborted);
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run_finished = true;
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});
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ioc.run_for(test_timeout);
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BOOST_TEST(subscribe_finished);
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BOOST_TEST(unsubscribe_finished);
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BOOST_TEST(ping_finished);
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BOOST_TEST(run_finished);
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}
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} // namespace
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