// // Copyright 2014 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include "mock_ctrl_iface_impl.hpp" #include "mock_zero_copy.hpp" #include #include #include #include #include #include #include #include #include #include using namespace uhd; using namespace uhd::rfnoc; using namespace uhd::transport::vrt; using uhd::transport::managed_recv_buffer; using uhd::transport::managed_send_buffer; static const sid_t TEST_SID0 = 0x00000200; // 0.0.2.0 static const sid_t TEST_SID1 = 0x00000210; // 0.0.2.F uhd::both_xports_t make_mock_transport(const uhd::sid_t& tx_sid) { uhd::both_xports_t xports; xports.send_sid = tx_sid; xports.recv_sid = tx_sid.reversed(); xports.send = boost::make_shared(if_packet_info_t::LINK_TYPE_CHDR); xports.recv = xports.send; xports.send_buff_size = xports.send->get_send_frame_size(); xports.recv_buff_size = xports.recv->get_recv_frame_size(); return xports; } // Mock-device class mock_device3_impl : public uhd::device3, public boost::enable_shared_from_this { public: mock_device3_impl() { _tree = uhd::property_tree::make(); _tree->create("/name").set("Test Mock-Device3"); // We can re-use this: std::map ctrl_ifaces{ {0, ctrl_iface::sptr(new mock_ctrl_iface_impl())}}; // Add two block controls: uhd::rfnoc::make_args_t make_args; make_args.ctrl_ifaces = ctrl_ifaces; make_args.base_address = TEST_SID0.get_dst(); make_args.device_index = 0; make_args.tree = _tree; std::cout << "[MOCK] Generating block controls 1/2:" << std::endl; _rfnoc_block_ctrl.push_back(block_ctrl_base::make(make_args)); std::cout << "[MOCK] Generating block controls 2/2:" << std::endl; make_args.base_address = TEST_SID1.get_dst(); _rfnoc_block_ctrl.push_back(block_ctrl::make(make_args)); } rx_streamer::sptr get_rx_stream(const stream_args_t& args) { throw uhd::not_implemented_error(args.args.to_string()); } tx_streamer::sptr get_tx_stream(const stream_args_t& args) { throw uhd::not_implemented_error(args.args.to_string()); } bool recv_async_msg(async_metadata_t& async_metadata, double timeout) { throw uhd::not_implemented_error( str(boost::format("%d %f") % async_metadata.channel % timeout)); } rfnoc::graph::sptr create_graph(const std::string& name) { sid_t async_sid(0); async_sid.set_dst_addr(2); auto async_xports = make_mock_transport(async_sid); auto async_msg_handler = uhd::rfnoc::async_msg_handler::make(async_xports.recv, async_xports.send, async_xports.send_sid, async_xports.endianness); auto graph = boost::make_shared( name, shared_from_this(), async_msg_handler); return graph; } }; device3::sptr make_mock_device() { return device3::sptr(new mock_device3_impl()); } class mock_block_ctrl : public block_ctrl { int foo; }; BOOST_AUTO_TEST_CASE(test_device3) { device3::sptr my_device = make_mock_device(); std::cout << "Checking block 0..." << std::endl; BOOST_REQUIRE(my_device->find_blocks("Block").size()); std::cout << "Getting block 0..." << std::endl; block_ctrl_base::sptr block0 = my_device->get_block_ctrl(my_device->find_blocks("Block")[0]); BOOST_REQUIRE(block0); BOOST_CHECK_EQUAL(block0->get_block_id(), "0/Block_0"); std::cout << "Checking block 1..." << std::endl; BOOST_REQUIRE(my_device->has_block(block_id_t("0/Block_1"))); std::cout << "Getting block 1..." << std::endl; block_ctrl_base::sptr block1 = my_device->get_block_ctrl(block_id_t("0/Block_1")); BOOST_REQUIRE(block1); BOOST_CHECK_EQUAL(block1->get_block_id(), "0/Block_1"); } BOOST_AUTO_TEST_CASE(test_device3_graph) { auto my_device = make_mock_device(); std::cout << "Start device3 test graph.." << std::endl; std::cout << "Checking block 0..." << std::endl; BOOST_REQUIRE(my_device->find_blocks("Block").size()); std::cout << "Getting block 0..." << std::endl; auto block0 = my_device->get_block_ctrl(my_device->find_blocks("Block")[0]); BOOST_REQUIRE(block0); BOOST_CHECK_EQUAL(block0->get_block_id(), "0/Block_0"); std::cout << "Checking block 1..." << std::endl; BOOST_REQUIRE(my_device->has_block(block_id_t("0/Block_1"))); std::cout << "Getting block 1..." << std::endl; auto block1 = my_device->get_block_ctrl(block_id_t("0/Block_1")); BOOST_REQUIRE(block1); BOOST_CHECK_EQUAL(block1->get_block_id(), "0/Block_1"); std::cout << "Creating graph..." << std::endl; auto graph = my_device->create_graph("test_graph"); BOOST_CHECK(graph); std::cout << "Connecting block_0 to block_1 ..." << std::endl; graph->connect(block_id_t("0/Block_0"), 0, block_id_t("0/Block_1"), 0); BOOST_CHECK_EQUAL(block0->list_upstream_nodes().size(), 0); BOOST_CHECK_EQUAL(block0->list_downstream_nodes().size(), 1); BOOST_CHECK_EQUAL( block0->list_downstream_nodes()[0].lock()->unique_id(), "0/Block_1"); BOOST_CHECK_EQUAL(block1->list_upstream_nodes().size(), 1); BOOST_CHECK_EQUAL(block1->list_downstream_nodes().size(), 0); BOOST_CHECK_EQUAL(block1->list_upstream_nodes()[0].lock()->unique_id(), "0/Block_0"); } BOOST_AUTO_TEST_CASE(test_device3_cast) { device3::sptr my_device = make_mock_device(); std::cout << "Getting block 0..." << std::endl; block_ctrl::sptr block0 = my_device->get_block_ctrl(block_id_t("0/Block_0")); BOOST_REQUIRE(block0); BOOST_CHECK_EQUAL(block0->get_block_id(), "0/Block_0"); std::cout << "Getting block 1..." << std::endl; block_ctrl_base::sptr block1 = my_device->get_block_ctrl(block_id_t("0/Block_1")); BOOST_CHECK_EQUAL(block1->get_block_id(), "0/Block_1"); } BOOST_AUTO_TEST_CASE(test_device3_fail) { device3::sptr my_device = make_mock_device(); BOOST_CHECK(not my_device->has_block(block_id_t("0/FooBarBlock_0"))); BOOST_CHECK(not my_device->has_block(block_id_t("0/Block_1"))); BOOST_CHECK(my_device->find_blocks("FooBarBlock").size() == 0); BOOST_CHECK(my_device->find_blocks("FooBarBlock").size() == 0); BOOST_REQUIRE_THROW( my_device->get_block_ctrl(block_id_t("0/FooBarBlock_17")), uhd::lookup_error); BOOST_REQUIRE_THROW( my_device->get_block_ctrl(block_id_t("0/Block_1")), uhd::lookup_error); } // vim: sw=4 et: