2024-03-05 11:56:14 +01:00
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#include <catch2/catch_all.hpp>
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2020-03-20 10:59:15 +01:00
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#include <zmq_addon.hpp>
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#ifdef ZMQ_CPP11
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TEST_CASE("multipart codec empty", "[codec_multipart]")
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{
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using namespace zmq;
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multipart_t mmsg;
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message_t msg = mmsg.encode();
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CHECK(msg.size() == 0);
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multipart_t mmsg2;
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mmsg2.decode_append(msg);
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CHECK(mmsg2.size() == 0);
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}
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TEST_CASE("multipart codec small", "[codec_multipart]")
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{
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using namespace zmq;
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multipart_t mmsg;
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mmsg.addstr("Hello World");
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message_t msg = mmsg.encode();
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CHECK(msg.size() == 1 + 11); // small size packing
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mmsg.addstr("Second frame");
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msg = mmsg.encode();
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CHECK(msg.size() == 1 + 11 + 1 + 12);
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multipart_t mmsg2;
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mmsg2.decode_append(msg);
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CHECK(mmsg2.size() == 2);
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std::string part0 = mmsg2[0].to_string();
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CHECK(part0 == "Hello World");
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CHECK(mmsg2[1].to_string() == "Second frame");
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}
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TEST_CASE("multipart codec big", "[codec_multipart]")
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{
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using namespace zmq;
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message_t big(495); // large size packing
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big.data<char>()[0] = 'X';
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multipart_t mmsg;
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mmsg.pushmem(big.data(), big.size());
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message_t msg = mmsg.encode();
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CHECK(msg.size() == 5 + 495);
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CHECK(msg.data<unsigned char>()[0] == std::numeric_limits<uint8_t>::max());
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CHECK(msg.data<unsigned char>()[5] == 'X');
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CHECK(mmsg.size() == 1);
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mmsg.decode_append(msg);
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CHECK(mmsg.size() == 2);
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CHECK(mmsg[0].data<char>()[0] == 'X');
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}
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TEST_CASE("multipart codec decode bad data overflow", "[codec_multipart]")
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{
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using namespace zmq;
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char bad_data[3] = {5, 'h', 'i'};
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message_t wrong_size(bad_data, 3);
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CHECK(wrong_size.size() == 3);
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CHECK(wrong_size.data<char>()[0] == 5);
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CHECK_THROWS_AS(
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multipart_t::decode(wrong_size),
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2021-01-02 10:36:02 +01:00
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std::out_of_range);
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2020-03-20 10:59:15 +01:00
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}
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TEST_CASE("multipart codec decode bad data extra data", "[codec_multipart]")
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{
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using namespace zmq;
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char bad_data[3] = {1, 'h', 'i'};
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message_t wrong_size(bad_data, 3);
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CHECK(wrong_size.size() == 3);
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CHECK(wrong_size.data<char>()[0] == 1);
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CHECK_THROWS_AS(
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multipart_t::decode(wrong_size),
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2021-01-02 10:36:02 +01:00
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std::out_of_range);
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2020-03-20 10:59:15 +01:00
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}
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// After exercising it, this test is disabled over concern of running
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// on hosts which lack enough free memory to allow the absurdly large
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// message part to be allocated.
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#if 0
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TEST_CASE("multipart codec encode too big", "[codec_multipart]")
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{
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using namespace zmq;
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const size_t too_big_size = 1L + std::numeric_limits<uint32_t>::max();
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CHECK(too_big_size > std::numeric_limits<uint32_t>::max());
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char* too_big_data = new char[too_big_size];
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multipart_t mmsg(too_big_data, too_big_size);
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delete [] too_big_data;
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CHECK(mmsg.size() == 1);
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CHECK(mmsg[0].size() > std::numeric_limits<uint32_t>::max());
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CHECK_THROWS_AS(
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mmsg.encode(),
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std::range_error);
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}
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#endif
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TEST_CASE("multipart codec free function with vector of message_t", "[codec_multipart]")
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{
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using namespace zmq;
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std::vector<message_t> parts;
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parts.emplace_back("Hello", 5);
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parts.emplace_back("World",5);
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auto msg = encode(parts);
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CHECK(msg.size() == 1 + 5 + 1 + 5 );
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CHECK(msg.data<unsigned char>()[0] == 5);
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CHECK(msg.data<unsigned char>()[1] == 'H');
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CHECK(msg.data<unsigned char>()[6] == 5);
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CHECK(msg.data<unsigned char>()[7] == 'W');
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std::vector<message_t> parts2;
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decode(msg, std::back_inserter(parts2));
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CHECK(parts.size() == 2);
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CHECK(parts[0].size() == 5);
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CHECK(parts[1].size() == 5);
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}
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TEST_CASE("multipart codec free function with vector of const_buffer", "[codec_multipart]")
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{
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using namespace zmq;
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std::vector<const_buffer> parts;
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parts.emplace_back("Hello", 5);
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parts.emplace_back("World",5);
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auto msg = encode(parts);
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CHECK(msg.size() == 1 + 5 + 1 + 5 );
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CHECK(msg.data<unsigned char>()[0] == 5);
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CHECK(msg.data<unsigned char>()[1] == 'H');
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CHECK(msg.data<unsigned char>()[6] == 5);
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CHECK(msg.data<unsigned char>()[7] == 'W');
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std::vector<message_t> parts2;
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decode(msg, std::back_inserter(parts2));
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CHECK(parts.size() == 2);
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CHECK(parts[0].size() == 5);
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CHECK(parts[1].size() == 5);
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}
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TEST_CASE("multipart codec free function with vector of mutable_buffer", "[codec_multipart]")
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{
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using namespace zmq;
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std::vector<mutable_buffer> parts;
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char hello[6] = "Hello";
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parts.emplace_back(hello, 5);
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char world[6] = "World";
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parts.emplace_back(world,5);
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auto msg = encode(parts);
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CHECK(msg.size() == 1 + 5 + 1 + 5 );
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CHECK(msg.data<unsigned char>()[0] == 5);
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CHECK(msg.data<unsigned char>()[1] == 'H');
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CHECK(msg.data<unsigned char>()[6] == 5);
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CHECK(msg.data<unsigned char>()[7] == 'W');
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std::vector<message_t> parts2;
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decode(msg, std::back_inserter(parts2));
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CHECK(parts.size() == 2);
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CHECK(parts[0].size() == 5);
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CHECK(parts[1].size() == 5);
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}
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TEST_CASE("multipart codec free function with multipart_t", "[codec_multipart]")
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{
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using namespace zmq;
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multipart_t mmsg;
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mmsg.addstr("Hello");
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mmsg.addstr("World");
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auto msg = encode(mmsg);
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CHECK(msg.size() == 1 + 5 + 1 + 5);
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CHECK(msg.data<unsigned char>()[0] == 5);
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CHECK(msg.data<unsigned char>()[1] == 'H');
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CHECK(msg.data<unsigned char>()[6] == 5);
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CHECK(msg.data<unsigned char>()[7] == 'W');
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multipart_t mmsg2;
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decode(msg, std::back_inserter(mmsg2));
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CHECK(mmsg2.size() == 2);
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CHECK(mmsg2[0].size() == 5);
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CHECK(mmsg2[1].size() == 5);
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}
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TEST_CASE("multipart codec static method decode to multipart_t", "[codec_multipart]")
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{
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using namespace zmq;
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multipart_t mmsg;
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mmsg.addstr("Hello");
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mmsg.addstr("World");
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auto msg = encode(mmsg);
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auto mmsg2 = multipart_t::decode(msg);
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CHECK(mmsg2.size() == 2);
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CHECK(mmsg2[0].size() == 5);
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CHECK(mmsg2[1].size() == 5);
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}
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#endif
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