#include #include #ifdef ZMQ_CPP11 #include #endif #if (__cplusplus >= 201703L) static_assert(std::is_nothrow_swappable::value, "socket_t should be nothrow swappable"); #endif TEST_CASE("socket default ctor", "[socket]") { zmq::socket_t socket; } TEST_CASE("socket create destroy", "[socket]") { zmq::context_t context; zmq::socket_t socket(context, ZMQ_ROUTER); } #ifdef ZMQ_CPP11 TEST_CASE("socket create assign", "[socket]") { zmq::context_t context; zmq::socket_t socket(context, ZMQ_ROUTER); CHECK(static_cast(socket)); CHECK(socket.handle() != nullptr); socket = {}; CHECK(!static_cast(socket)); CHECK(socket.handle() == nullptr); } TEST_CASE("socket create by enum and destroy", "[socket]") { zmq::context_t context; zmq::socket_t socket(context, zmq::socket_type::router); } TEST_CASE("socket swap", "[socket]") { zmq::context_t context; zmq::socket_t socket1(context, zmq::socket_type::router); zmq::socket_t socket2(context, zmq::socket_type::dealer); using std::swap; swap(socket1, socket2); } TEST_CASE("rass", "[socket]") { zmq::context_t ctx; zmq::socket_t sock(ctx, zmq::socket_type::push); sock.bind("inproc://test"); const std::string m = "Hello, world"; sock.send(zmq::buffer(m), zmq::send_flags::dontwait); } #endif TEST_CASE("socket sends and receives const buffer", "[socket]") { zmq::context_t context; zmq::socket_t sender(context, ZMQ_PAIR); zmq::socket_t receiver(context, ZMQ_PAIR); receiver.bind("inproc://test"); sender.connect("inproc://test"); const char* str = "Hi"; #ifdef ZMQ_CPP11 CHECK(2 == sender.send(zmq::buffer(str, 2)).size); char buf[2]; const auto res = receiver.recv(zmq::buffer(buf)); CHECK(!res.truncated()); CHECK(2 == res.size); #else CHECK(2 == sender.send(str, 2)); char buf[2]; CHECK(2 == receiver.recv(buf, 2)); #endif CHECK(0 == memcmp(buf, str, 2)); } #ifdef ZMQ_CPP11 TEST_CASE("socket send none sndmore", "[socket]") { zmq::context_t context; zmq::socket_t s(context, zmq::socket_type::router); s.bind("inproc://test"); std::vector buf(4); auto res = s.send(zmq::buffer(buf), zmq::send_flags::sndmore); CHECK(res.size == buf.size()); CHECK(res.success); res = s.send(zmq::buffer(buf)); CHECK(res.size == buf.size()); CHECK(res.success); } TEST_CASE("socket send dontwait", "[socket]") { zmq::context_t context; zmq::socket_t s(context, zmq::socket_type::push); s.bind("inproc://test"); std::vector buf(4); auto res = s.send(zmq::buffer(buf), zmq::send_flags::dontwait); CHECK(!res.success); CHECK(res.size == 0); res = s.send(zmq::buffer(buf), zmq::send_flags::dontwait | zmq::send_flags::sndmore); CHECK(!res.success); CHECK(res.size == 0); zmq::message_t msg; auto resm = s.send(msg, zmq::send_flags::dontwait); CHECK(!resm.success); CHECK(resm.size == 0); CHECK(msg.size() == 0); } TEST_CASE("socket send exception", "[socket]") { zmq::context_t context; zmq::socket_t s(context, zmq::socket_type::pull); s.bind("inproc://test"); std::vector buf(4); CHECK_THROWS_AS(s.send(zmq::buffer(buf)), const zmq::error_t &); } TEST_CASE("socket recv none", "[socket]") { zmq::context_t context; zmq::socket_t s(context, zmq::socket_type::pair); zmq::socket_t s2(context, zmq::socket_type::pair); s2.bind("inproc://test"); s.connect("inproc://test"); std::vector sbuf(4); const auto res_send = s2.send(zmq::buffer(sbuf)); CHECK(res_send.success); std::vector buf(2); const auto res = s.recv(zmq::buffer(buf)); CHECK(res.success); CHECK(res.truncated()); CHECK(res.untruncated_size == sbuf.size()); CHECK(res.size == buf.size()); const auto res_send2 = s2.send(zmq::buffer(sbuf)); CHECK(res_send2.success); std::vector buf2(10); const auto res2 = s.recv(zmq::buffer(buf2)); CHECK(res2.success); CHECK(!res2.truncated()); CHECK(res2.untruncated_size == sbuf.size()); CHECK(res2.size == sbuf.size()); } TEST_CASE("socket send recv message_t", "[socket]") { zmq::context_t context; zmq::socket_t s(context, zmq::socket_type::pair); zmq::socket_t s2(context, zmq::socket_type::pair); s2.bind("inproc://test"); s.connect("inproc://test"); zmq::message_t smsg(size_t{10}); const auto res_send = s2.send(smsg, zmq::send_flags::none); CHECK(res_send.success); CHECK(res_send.size == 10); CHECK(smsg.size() == 0); zmq::message_t rmsg; const auto res = s.recv(rmsg); CHECK(res.success); CHECK(res.size == 10); CHECK(rmsg.size() == res.size); } TEST_CASE("socket recv dontwait", "[socket]") { zmq::context_t context; zmq::socket_t s(context, zmq::socket_type::pull); s.bind("inproc://test"); std::vector buf(4); constexpr auto flags = zmq::recv_flags::none | zmq::recv_flags::dontwait; auto res = s.recv(zmq::buffer(buf), flags); CHECK(!res.success); CHECK(res.size == 0); zmq::message_t msg; auto resm = s.recv(msg, flags); CHECK(!resm.success); CHECK(resm.size == 0); CHECK(msg.size() == 0); } TEST_CASE("socket recv exception", "[socket]") { zmq::context_t context; zmq::socket_t s(context, zmq::socket_type::push); s.bind("inproc://test"); std::vector buf(4); CHECK_THROWS_AS(s.recv(zmq::buffer(buf)), const zmq::error_t &); } TEST_CASE("socket proxy", "[socket]") { zmq::context_t context; zmq::socket_t front(context, ZMQ_ROUTER); zmq::socket_t back(context, ZMQ_ROUTER); zmq::socket_t capture(context, ZMQ_DEALER); front.bind("inproc://test1"); back.bind("inproc://test2"); capture.bind("inproc://test3"); auto f = std::async(std::launch::async, [&]() { auto s1 = std::move(front); auto s2 = std::move(back); auto s3 = std::move(capture); try { zmq::proxy(s1, s2, zmq::socket_ref(s3)); } catch (const zmq::error_t& e) { return e.num() == ETERM; } return false; }); context.close(); CHECK(f.get()); } TEST_CASE("socket proxy steerable", "[socket]") { zmq::context_t context; zmq::socket_t front(context, ZMQ_ROUTER); zmq::socket_t back(context, ZMQ_ROUTER); zmq::socket_t control(context, ZMQ_SUB); front.bind("inproc://test1"); back.bind("inproc://test2"); control.connect("inproc://test3"); auto f = std::async(std::launch::async, [&]() { auto s1 = std::move(front); auto s2 = std::move(back); auto s3 = std::move(control); try { zmq::proxy_steerable(s1, s2, zmq::socket_ref(), s3); } catch (const zmq::error_t& e) { return e.num() == ETERM; } return false; }); context.close(); CHECK(f.get()); } #endif