// SPDX-License-Identifier: LGPL-3.0-or-other // Copyright (C) 2021 Contributors to the SLS Detector Package #include "Caller.h" #include "catch.hpp" #include "sls/Detector.h" #include "sls/sls_detector_defs.h" #include #include "sls/Result.h" #include "sls/ToString.h" #include "sls/versionAPI.h" #include "test-Caller-global.h" #include "tests/globals.h" namespace sls { using test::GET; using test::PUT; /* dacs */ TEST_CASE("dacname", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { defs::dacIndex ind = static_cast(2); std::string str_dac_index = "2"; auto prev = det.getDacName(ind); // 1 arg throw REQUIRE_THROWS(caller.call("dacname", {"2", "3", "bname"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("dacname", {"18", "bname"}, -1, PUT)); { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("dacname", {str_dac_index, "bname"}, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("dacname", {str_dac_index}, -1, GET, oss)); REQUIRE(oss.str() == std::string("dacname ") + str_dac_index + " bname\n"); } REQUIRE_THROWS(caller.call("dacname", {str_dac_index, "v_a"}, -1, PUT)); REQUIRE_THROWS(caller.call("dacname", {str_dac_index, "v_b"}, -1, PUT)); REQUIRE_THROWS(caller.call("dacname", {str_dac_index, "v_c"}, -1, PUT)); REQUIRE_THROWS(caller.call("dacname", {str_dac_index, "v_d"}, -1, PUT)); REQUIRE_THROWS( caller.call("dacname", {str_dac_index, "v_io"}, -1, PUT)); det.setDacName(ind, prev); } else { REQUIRE_THROWS(caller.call("dacname", {"2", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("dacname", {"2"}, -1, GET)); } } TEST_CASE("dacindex", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { defs::dacIndex ind = static_cast(2); std::string str_dac_index = "2"; // 1 arg throw REQUIRE_THROWS(caller.call("dacindex", {"2", "2"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("dacindex", {"18"}, -1, PUT)); auto dacname = det.getDacName(ind); { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("dacindex", {dacname}, -1, GET, oss)); REQUIRE(oss.str() == std::string("dacindex ") + str_dac_index + '\n'); } } else { REQUIRE_THROWS(caller.call("dacindex", {"2"}, -1, GET)); } } TEST_CASE("adclist", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev = det.getAdcNames(); REQUIRE_THROWS(caller.call("adclist", {"a", "s", "d"}, -1, PUT)); std::vector names; for (int iarg = 0; iarg != 32; ++iarg) { names.push_back("a"); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("adclist", names, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("adclist", {}, -1, GET, oss)); REQUIRE(oss.str() == std::string("adclist ") + ToString(names) + '\n'); } det.setAdcNames(prev); } else { REQUIRE_THROWS(caller.call("adclist", {"a", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("adclist", {}, -1, GET)); } } TEST_CASE("adcname", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { int ind = 2; std::string str_adc_index = "2"; auto prev = det.getAdcName(ind); // 1 arg throw REQUIRE_THROWS(caller.call("adcname", {"2", "3", "bname"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("adcname", {"32", "bname"}, -1, PUT)); { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("adcname", {str_adc_index, "bname"}, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("adcname", {str_adc_index}, -1, GET, oss)); REQUIRE(oss.str() == std::string("adcname ") + str_adc_index + " bname\n"); } det.setAdcName(ind, prev); } else { REQUIRE_THROWS(caller.call("adcname", {"2", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("adcname", {"2"}, -1, GET)); } } TEST_CASE("adcindex", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { int ind = 2; std::string str_adc_index = "2"; // 1 arg throw REQUIRE_THROWS(caller.call("adcindex", {"2", "2"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("adcindex", {"32"}, -1, PUT)); auto adcname = det.getAdcName(ind); { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("adcindex", {adcname}, -1, GET, oss)); REQUIRE(oss.str() == std::string("adcindex ") + str_adc_index + '\n'); } } else { REQUIRE_THROWS(caller.call("adcindex", {"2"}, -1, GET)); } } TEST_CASE("signallist", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev = det.getSignalNames(); REQUIRE_THROWS(caller.call("signallist", {"a", "s", "d"}, -1, PUT)); std::vector names; for (int iarg = 0; iarg != 64; ++iarg) { names.push_back("a"); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("signallist", names, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("signallist", {}, -1, GET, oss)); REQUIRE(oss.str() == std::string("signallist ") + ToString(names) + '\n'); } det.setSignalNames(prev); } else { REQUIRE_THROWS(caller.call("signallist", {"a", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("signallist", {}, -1, GET)); } } TEST_CASE("signalname", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { int ind = 2; std::string str_signal_index = "2"; auto prev = det.getSignalName(ind); // 1 arg throw REQUIRE_THROWS(caller.call("signalname", {"2", "3", "bname"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("signalname", {"64", "bname"}, -1, PUT)); { std::ostringstream oss; REQUIRE_NOTHROW(caller.call( "signalname", {str_signal_index, "bname"}, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("signalname", {str_signal_index}, -1, GET, oss)); REQUIRE(oss.str() == std::string("signalname ") + str_signal_index + " bname\n"); } det.setSignalName(ind, prev); } else { REQUIRE_THROWS(caller.call("signalname", {"2", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("signalname", {"2"}, -1, GET)); } } TEST_CASE("signalindex", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { int ind = 2; std::string str_signal_index = "2"; // 1 arg throw REQUIRE_THROWS(caller.call("signalindex", {"2", "2"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("signalindex", {"64"}, -1, PUT)); auto signalname = det.getSignalName(ind); { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("signalindex", {signalname}, -1, GET, oss)); REQUIRE(oss.str() == std::string("signalindex ") + str_signal_index + '\n'); } } else { REQUIRE_THROWS(caller.call("signalindex", {"2"}, -1, GET)); } } TEST_CASE("powerlist", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev = det.getPowerNames(); REQUIRE_THROWS(caller.call("powerlist", {"a", "s", "d"}, -1, PUT)); std::vector names; for (int iarg = 0; iarg != 5; ++iarg) { names.push_back("a"); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("powerlist", names, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("powerlist", {}, -1, GET, oss)); REQUIRE(oss.str() == std::string("powerlist ") + ToString(names) + '\n'); } det.setPowerNames(prev); } else { REQUIRE_THROWS(caller.call("powerlist", {"a", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("powerlist", {}, -1, GET)); } } TEST_CASE("powername", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { defs::powerIndex ind = static_cast(2); std::string str_power_index = "2"; auto prev = det.getPowerName(ind); // 1 arg throw REQUIRE_THROWS(caller.call("powername", {"2", "3", "bname"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("powername", {"5", "bname"}, -1, PUT)); { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("powername", {str_power_index, "bname"}, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("powername", {str_power_index}, -1, GET, oss)); REQUIRE(oss.str() == std::string("powername ") + str_power_index + " bname\n"); } det.setPowerName(ind, prev); } else { REQUIRE_THROWS(caller.call("powername", {"2", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("powername", {"2"}, -1, GET)); } } TEST_CASE("powerindex", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { defs::powerIndex ind = static_cast(2); std::string str_power_index = "2"; // 1 arg throw REQUIRE_THROWS(caller.call("powerindex", {"2", "2"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("powerindex", {"5"}, -1, PUT)); auto powername = det.getPowerName(ind); { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("powerindex", {powername}, -1, GET, oss)); REQUIRE(oss.str() == "powerindex 2\n"); } } else { REQUIRE_THROWS(caller.call("powerindex", {"2"}, -1, GET)); } } TEST_CASE("powervalues", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("powervalues", {}, -1, GET)); REQUIRE_THROWS(caller.call("powervalues", {}, -1, PUT)); } else { REQUIRE_THROWS(caller.call("powervalues", {}, -1, GET)); } } TEST_CASE("slowadcvalues", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("slowadcvalues", {}, -1, GET)); REQUIRE_THROWS(caller.call("slowadcvalues", {}, -1, PUT)); } else { REQUIRE_THROWS(caller.call("slowadcvalues", {}, -1, GET)); } } TEST_CASE("slowadclist", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev = det.getSlowADCNames(); REQUIRE_THROWS(caller.call("slowadclist", {"a", "s", "d"}, -1, PUT)); std::vector names; for (int iarg = 0; iarg != 8; ++iarg) { names.push_back("a"); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("slowadclist", names, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("slowadclist", {}, -1, GET, oss)); REQUIRE(oss.str() == std::string("slowadclist ") + ToString(names) + '\n'); } det.setSlowADCNames(prev); } else { REQUIRE_THROWS(caller.call("slowadclist", {"a", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("slowadclist", {}, -1, GET)); } } TEST_CASE("slowadcname", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { defs::dacIndex ind = static_cast(2 + defs::SLOW_ADC0); std::string str_slowadc_index = "2"; auto prev = det.getSlowADCName(ind); // 1 arg throw REQUIRE_THROWS( caller.call("slowadcname", {"2", "3", "bname"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("slowadcname", {"8", "bname"}, -1, PUT)); { std::ostringstream oss; REQUIRE_NOTHROW(caller.call( "slowadcname", {str_slowadc_index, "bname"}, -1, PUT, oss)); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("slowadcname", {str_slowadc_index}, -1, GET, oss)); REQUIRE(oss.str() == std::string("slowadcname ") + str_slowadc_index + " bname\n"); } det.setSlowADCName(ind, prev); } else { REQUIRE_THROWS(caller.call("slowadcname", {"2", "b"}, -1, PUT)); REQUIRE_THROWS(caller.call("slowadcname", {"2"}, -1, GET)); } } TEST_CASE("slowadcindex", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { defs::dacIndex ind = static_cast(2 + defs::SLOW_ADC0); std::string str_slowadc_index = "2"; // 1 arg throw REQUIRE_THROWS(caller.call("slowadcindex", {"2", "2"}, -1, PUT)); // invalid index REQUIRE_THROWS(caller.call("slowadcindex", {"8"}, -1, PUT)); auto slowadcname = det.getSlowADCName(ind); { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("slowadcindex", {slowadcname}, -1, GET, oss)); REQUIRE(oss.str() == std::string("slowadcindex ") + str_slowadc_index + '\n'); } } else { REQUIRE_THROWS(caller.call("slowadcindex", {"2"}, -1, GET)); } } /* dacs */ TEST_CASE("dac", "[.detectorintegration][dacs]") { // dac 0 to dac 17 Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { // normal dacs // eiger // REQUIRE_THROWS(caller.call("dac", {"vthreshold"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vsvp"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vsvn"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vtrim"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vrpreamp"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vrshaper"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vtgstv"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vcmp_ll"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vcmp_lr"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vcal"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vcmp_rl"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vcmp_rr"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"rxb_rb"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"rxb_lb"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vcp"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vcn"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"vishaper"}, -1, GET)); // REQUIRE_THROWS(caller.call("dac", {"iodelay"}, -1, GET)); // jungfrau REQUIRE_THROWS(caller.call("dac", {"vb_comp"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vdd_prot"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vin_com"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vref_prech"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vb_pixbuf"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vb_ds"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vref_ds"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vref_comp"}, -1, GET)); // mythen3 REQUIRE_THROWS(caller.call("dac", {"vrpreamp"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vrshaper"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vrshaper_n"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vipre"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vishaper"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vdcsh"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vth1"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vth2"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vth3"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vcal_n"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vcal_p"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vtrim"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vcassh"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vcas"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vicin"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vipre_out"}, -1, GET)); // gotthard2 REQUIRE_THROWS(caller.call("dac", {"vref_h_Signal"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vb_comp_fe"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vb_comp_adc"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vcom_cds"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vref_rstore"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vb_opa_1st"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vref_comp_fe"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vcom_adc1"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vref_l_adc"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vref_cds"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vb_cs"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vb_opa_fd"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"vcom_adc2"}, -1, GET)); // ctb and xilinx REQUIRE_THROWS(caller.call("dac", {"18"}, -1, GET)); REQUIRE_THROWS(caller.call("dac", {"5", "4096"}, -1, PUT)); if (det_type == defs::CHIPTESTBOARD) REQUIRE_THROWS(caller.call("dac", {"5", "2501", "mV"}, -1, PUT)); else REQUIRE_THROWS(caller.call("dac", {"5", "2049", "mV"}, -1, PUT)); for (int idac = 0; idac < 18; ++idac) { SECTION("dac " + std::to_string(idac)) { test_dac_caller(static_cast(idac), "dac", 0); test_dac_caller(static_cast(idac), "dac", 1200); test_dac_caller(static_cast(idac), "dac", 1200, true); test_dac_caller(static_cast(idac), "dac", -100); // dac name det.setDacName(static_cast(idac), "dacname" + std::to_string(idac)); test_dac_caller(defs::DAC_0, "dacname" + std::to_string(idac), -100); } REQUIRE_THROWS( caller.call("dac", {std::to_string(idac), "-2"}, -1, PUT)); REQUIRE_THROWS( caller.call("dac", {std::to_string(idac), "-1"}, -1, PUT)); } // power dacs (shouldnt work anymore. TODO: remove after testing) REQUIRE_THROWS(caller.call("dac", {"v_a", "mV"}, -1, GET)); } } TEST_CASE("powerdac", "[.detectorintegration][dacs]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { if (det.isVirtualDetectorServer().tsquash( "Inconsistent virtual servers")) { // test only get of vchip if (det_type == defs::CHIPTESTBOARD) { REQUIRE_THROWS( caller.call("powerdac", {"v_chip", "1700", "mV"}, -1, PUT)); REQUIRE_THROWS( caller.call("powerdac", {"v_chip", "mV"}, -1, GET)); REQUIRE_NOTHROW(caller.call("powerdac", {"v_chip"}, -1, GET)); } else { REQUIRE_THROWS(caller.call("powerdac", {"v_chip"}, -1, GET)); } // other power dacs std::vector names{"v_a", "v_b", "v_c", "v_d", "v_io"}; std::vector indices{ defs::V_POWER_A, defs::V_POWER_B, defs::V_POWER_C, defs::V_POWER_D, defs::V_POWER_IO}; for (size_t iPower = 0; iPower < names.size(); ++iPower) { auto prev_val = det.getPowerDAC(indices[iPower]); auto prev_val_power = det.isPowerEnabled(indices[iPower]); // this is the first command touching power dacs, should not be // -100 REQUIRE(prev_val != -100); REQUIRE(prev_val != -1); REQUIRE(prev_val != 0); REQUIRE_THROWS( caller.call("powerdac", {names[iPower], "-2"}, -1, PUT)); REQUIRE_THROWS( caller.call("powerdac", {names[iPower], "-100"}, -1, PUT)); REQUIRE_THROWS( caller.call("powerdac", {names[iPower], "-1"}, -1, PUT)); REQUIRE_THROWS( caller.call("powerdac", {names[iPower], "0"}, -1, PUT)); REQUIRE_THROWS( caller.call("powerdac", {names[iPower], "4096"}, -1, PUT)); // dont need mV REQUIRE_THROWS(caller.call( "powerdac", {names[iPower], "1200", "mV"}, -1, PUT)); REQUIRE_THROWS( caller.call("powerdac", {names[iPower], "mV"}, -1, GET)); // min if (names[iPower] == "v_io") REQUIRE_THROWS(caller.call( "powerdac", {names[iPower], "1199"}, -1, PUT)); else { if (det_type == defs::XILINX_CHIPTESTBOARD) { REQUIRE_THROWS(caller.call( "powerdac", {names[iPower], "1040"}, -1, PUT)); } else { REQUIRE_THROWS(caller.call( "powerdac", {names[iPower], "635"}, -1, PUT)); } } // max if (det_type == defs::XILINX_CHIPTESTBOARD) { REQUIRE_THROWS(caller.call( "powerdac", {names[iPower], "2662"}, -1, PUT)); } else { REQUIRE_THROWS(caller.call( "powerdac", {names[iPower], "2469"}, -1, PUT)); } { std::ostringstream oss1, oss2; caller.call("powerdac", {names[iPower], "1200"}, -1, PUT, oss1); REQUIRE(oss1.str() == "powerdac " + names[iPower] + " 1200\n"); caller.call("powerdac", {names[iPower]}, -1, GET, oss2); REQUIRE(oss2.str() == "powerdac " + names[iPower] + " 1200\n"); } { // power name det.setPowerName(indices[iPower], "pwrname_" + names[iPower]); std::ostringstream oss1, oss2; caller.call("powerdac", {"pwrname_" + names[iPower], "1200"}, -1, PUT, oss1); REQUIRE(oss1.str() == "powerdac pwrname_" + names[iPower] + " 1200\n"); caller.call("powerdac", {"pwrname_" + names[iPower]}, -1, GET, oss2); REQUIRE(oss2.str() == "powerdac pwrname_" + names[iPower] + " 1200\n"); } // trying to set dac when power is on { det.setPowerEnabled(std::vector{indices[iPower]}, true); std::ostringstream oss1, oss2; caller.call("powerdac", {names[iPower], "1200"}, -1, PUT, oss1); REQUIRE(oss1.str() == "powerdac " + names[iPower] + " 1200\n"); caller.call("powerdac", {names[iPower]}, -1, GET, oss2); REQUIRE(oss2.str() == "powerdac " + names[iPower] + " 1200\n"); } // Reset all dacs to previous value det.setPowerDAC(indices[iPower], prev_val); det.setPowerEnabled(std::vector{indices[iPower]}, prev_val_power); } // all { int prev_val[5] = {0}; int prev_power_val[5] = {0}; for (size_t iPower = 0; iPower < names.size(); ++iPower) { prev_val[iPower] = det.getPowerDAC(indices[iPower]); prev_power_val[iPower] = det.isPowerEnabled(indices[iPower]); } // all off REQUIRE_NOTHROW(caller.call("power", {"all", "off"}, -1, PUT)); for (size_t iPower = 0; iPower < names.size(); ++iPower) { REQUIRE(det.isPowerEnabled(indices[iPower]) == false); } // all on REQUIRE_NOTHROW(caller.call("power", {"all", "on"}, -1, PUT)); for (size_t iPower = 0; iPower < names.size(); ++iPower) { REQUIRE(det.isPowerEnabled(indices[iPower]) == true); } // all off REQUIRE_NOTHROW(caller.call("power", {"all", "off"}, -1, PUT)); for (size_t iPower = 0; iPower < names.size(); ++iPower) { REQUIRE(det.isPowerEnabled(indices[iPower]) == false); } // reset it to previous value for (size_t iPower = 0; iPower < names.size(); ++iPower) { det.setPowerDAC(indices[iPower], prev_val[iPower]); det.setPowerEnabled({indices[iPower]}, prev_power_val[iPower]); } } // vchip val if (det_type == defs::CHIPTESTBOARD) { const int min_vchip_val = 1673; int prev_val[5] = {0}; int prev_power_val[5] = {0}; for (size_t iPower = 0; iPower < names.size(); ++iPower) { prev_val[iPower] = det.getPowerDAC(indices[iPower]); prev_power_val[iPower] = det.isPowerEnabled(indices[iPower]); } // all off, vchip = min REQUIRE_NOTHROW(caller.call("power", {"all", "off"}, -1, PUT)); REQUIRE(det.getPowerDAC(defs::V_POWER_CHIP) == min_vchip_val); // change dacs REQUIRE_NOTHROW( caller.call("powerdac", {"v_a", "1500"}, -1, PUT)); REQUIRE_NOTHROW( caller.call("powerdac", {"v_b", "1200"}, -1, PUT)); REQUIRE_NOTHROW( caller.call("powerdac", {"v_c", "1200"}, -1, PUT)); REQUIRE_NOTHROW( caller.call("powerdac", {"v_d", "1200"}, -1, PUT)); REQUIRE_NOTHROW( caller.call("powerdac", {"v_io", "1200"}, -1, PUT)); // vchip = min REQUIRE(det.getPowerDAC(defs::V_POWER_CHIP) == min_vchip_val); // all on, vchip changes REQUIRE_NOTHROW(caller.call("power", {"all", "on"}, -1, PUT)); REQUIRE(det.getPowerDAC(defs::V_POWER_CHIP) == 1700); // change dac, vchip changes to max + 200 REQUIRE_NOTHROW( caller.call("powerdac", {"v_a", "1700"}, -1, PUT)); REQUIRE(det.getPowerDAC(defs::V_POWER_CHIP) == 1900); REQUIRE_NOTHROW( caller.call("powerdac", {"v_b", "1500"}, -1, PUT)); REQUIRE(det.getPowerDAC(defs::V_POWER_CHIP) == 1900); // switch off v_a, vchip = max + 200 of those enabled REQUIRE_NOTHROW(caller.call("power", {"v_a", "off"}, -1, PUT)); REQUIRE(det.getPowerDAC(defs::V_POWER_CHIP) == 1700); // all off, vchip = min REQUIRE_NOTHROW(caller.call("power", {"all", "off"}, -1, PUT)); REQUIRE(det.getPowerDAC(defs::V_POWER_CHIP) == min_vchip_val); // reset it to previous value for (size_t iPower = 0; iPower < names.size(); ++iPower) { det.setPowerDAC(indices[iPower], prev_val[iPower]); det.setPowerEnabled({indices[iPower]}, prev_power_val[iPower]); } } } } else { REQUIRE_THROWS(caller.call("powerdac", {"v_a"}, -1, GET)); } } TEST_CASE("adcvpp", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { auto prev_val = det.getADCVpp(false); { std::ostringstream oss; caller.call("adcvpp", {"1"}, -1, PUT, oss); REQUIRE(oss.str() == "adcvpp 1\n"); } { std::ostringstream oss; caller.call("adcvpp", {"1140", "mv"}, -1, PUT, oss); REQUIRE(oss.str() == "adcvpp 1140 mV\n"); } { std::ostringstream oss; caller.call("adcvpp", {"mv"}, -1, GET, oss); REQUIRE(oss.str() == "adcvpp 1140 mV\n"); } for (int i = 0; i != det.size(); ++i) { det.setADCVpp(prev_val[i], false, {i}); } } else { REQUIRE_THROWS(caller.call("adcvpp", {}, -1, GET)); } } /* CTB Specific */ TEST_CASE("samples", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_asamples = det.getNumberOfAnalogSamples(); auto prev_dsamples = det.getNumberOfDigitalSamples(); { std::ostringstream oss; caller.call("samples", {"25"}, -1, PUT, oss); REQUIRE(oss.str() == "samples 25\n"); } { std::ostringstream oss; caller.call("samples", {"450"}, -1, PUT, oss); REQUIRE(oss.str() == "samples 450\n"); } { std::ostringstream oss; caller.call("samples", {}, -1, GET, oss); REQUIRE(oss.str() == "samples 450\n"); } { std::ostringstream oss; caller.call("asamples", {}, -1, GET, oss); REQUIRE(oss.str() == "asamples 450\n"); } if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { std::ostringstream oss; caller.call("dsamples", {}, -1, GET, oss); REQUIRE(oss.str() == "dsamples 450\n"); } for (int i = 0; i != det.size(); ++i) { det.setNumberOfAnalogSamples(prev_asamples[i], {i}); det.setNumberOfDigitalSamples(prev_dsamples[i], {i}); } } else { REQUIRE_THROWS(caller.call("samples", {}, -1, GET)); } } TEST_CASE("asamples", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getNumberOfAnalogSamples(); { std::ostringstream oss; caller.call("asamples", {"25"}, -1, PUT, oss); REQUIRE(oss.str() == "asamples 25\n"); } { std::ostringstream oss; caller.call("asamples", {"450"}, -1, PUT, oss); REQUIRE(oss.str() == "asamples 450\n"); } { std::ostringstream oss; caller.call("asamples", {}, -1, GET, oss); REQUIRE(oss.str() == "asamples 450\n"); } for (int i = 0; i != det.size(); ++i) { det.setNumberOfAnalogSamples(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("asamples", {}, -1, GET)); } } TEST_CASE("adcclk", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getADCClock(); REQUIRE_NOTHROW(caller.call("adcclk", {"MHZ"}, -1, GET)); REQUIRE_NOTHROW(caller.call("adcclk", {"mhz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("adcclk", {"MHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("adcclk", {"kHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("adcclk", {"Hz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("adcclk", {}, -1, GET)); // min if (det_type == defs::CHIPTESTBOARD) REQUIRE_THROWS(caller.call("adcclk", {"1", "MHz"}, -1, PUT)); else REQUIRE_THROWS(caller.call("adcclk", {"9", "MHz"}, -1, PUT)); // max if (det_type == defs::CHIPTESTBOARD) REQUIRE_THROWS(caller.call("adcclk", {"66", "MHz"}, -1, PUT)); else REQUIRE_THROWS(caller.call("adcclk", {"301", "MHz"}, -1, PUT)); { std::ostringstream oss; caller.call("adcclk", {"20MHz"}, -1, PUT, oss); REQUIRE(oss.str() == "adcclk 20MHz\n"); } { std::ostringstream oss; caller.call("adcclk", {"10000000"}, -1, PUT, oss); REQUIRE(oss.str() == "adcclk 10000000\n"); } { std::ostringstream oss; caller.call("adcclk", {}, -1, GET, oss); REQUIRE(oss.str() == "adcclk 10MHz\n"); } { std::ostringstream oss; caller.call("adcclk", {"15000", "kHz"}, -1, PUT, oss); REQUIRE(oss.str() == "adcclk 15000kHz\n"); } { std::ostringstream oss; caller.call("adcclk", {}, -1, GET, oss); REQUIRE(oss.str() == "adcclk 15MHz\n"); } { std::ostringstream oss; caller.call("adcclk", {"15.75", "MHz"}, -1, PUT, oss); REQUIRE(oss.str() == "adcclk 15.75MHz\n"); } { std::ostringstream oss; caller.call("adcclk", {}, -1, GET, oss); REQUIRE(oss.str() == "adcclk 15.75MHz\n"); } std::cout << "Resetting adc clock to :" << ToString(prev_val) << std::endl; for (int i = 0; i != det.size(); ++i) { det.setADCClock(prev_val[i], {i}); } } else { // clock index might work // REQUIRE_THROWS(caller.call("adcclk", {}, -1, GET)); } } TEST_CASE("runclk", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getRUNClock(); REQUIRE_NOTHROW(caller.call("runclk", {"MHZ"}, -1, GET)); REQUIRE_NOTHROW(caller.call("runclk", {"mhz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("runclk", {"MHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("runclk", {"kHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("runclk", {"Hz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("runclk", {}, -1, GET)); // min if (det_type == defs::CHIPTESTBOARD) REQUIRE_THROWS(caller.call("runclk", {"1", "MHz"}, -1, PUT)); else REQUIRE_THROWS(caller.call("runclk", {"9", "MHz"}, -1, PUT)); // max REQUIRE_THROWS(caller.call("runclk", {"301", "MHz"}, -1, PUT)); { std::ostringstream oss; caller.call("runclk", {"20MHz"}, -1, PUT, oss); REQUIRE(oss.str() == "runclk 20MHz\n"); } { std::ostringstream oss; caller.call("runclk", {"10000000"}, -1, PUT, oss); REQUIRE(oss.str() == "runclk 10000000\n"); } { std::ostringstream oss; caller.call("runclk", {}, -1, GET, oss); REQUIRE(oss.str() == "runclk 10MHz\n"); } { std::ostringstream oss; caller.call("runclk", {"15000", "kHz"}, -1, PUT, oss); REQUIRE(oss.str() == "runclk 15000kHz\n"); } { std::ostringstream oss; caller.call("runclk", {}, -1, GET, oss); REQUIRE(oss.str() == "runclk 15MHz\n"); } { std::ostringstream oss; caller.call("runclk", {"15.75", "MHz"}, -1, PUT, oss); REQUIRE(oss.str() == "runclk 15.75MHz\n"); } { std::ostringstream oss; caller.call("runclk", {}, -1, GET, oss); REQUIRE(oss.str() == "runclk 15.75MHz\n"); } // tolerance auto prev_exptime = det.getExptime(); auto prev_period = det.getPeriod(); auto prev_delay = det.getDelayAfterTrigger(); { caller.call("runclk", {"80", "MHz"}, -1, PUT); { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("exptime", {"10012", "ns"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("exptime", {"ns"}, -1, GET, oss)); REQUIRE(oss.str() == "exptime 10013ns\n"); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("exptime", {"10013", "ns"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("exptime", {"ns"}, -1, GET, oss)); REQUIRE(oss.str() == "exptime 10013ns\n"); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("exptime", {"10019", "ns"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("exptime", {"ns"}, -1, GET, oss)); REQUIRE(oss.str() == "exptime 10025ns\n"); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("period", {"10125", "ns"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("period", {"ns"}, -1, GET, oss)); REQUIRE(oss.str() == "period 10125ns\n"); } { std::ostringstream oss; REQUIRE_NOTHROW( caller.call("period", {"10124", "ns"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("period", {"ns"}, -1, GET, oss)); REQUIRE(oss.str() == "period 10125ns\n"); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("delay", {"10125", "ns"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("delay", {"ns"}, -1, GET, oss)); REQUIRE(oss.str() == "delay 10125ns\n"); } { std::ostringstream oss; REQUIRE_NOTHROW(caller.call("delay", {"10124", "ns"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("delay", {"ns"}, -1, GET, oss)); REQUIRE(oss.str() == "delay 10125ns\n"); } } for (int i = 0; i != det.size(); ++i) { det.setRUNClock(prev_val[i], {i}); det.setExptime(prev_exptime[i], {i}); det.setPeriod(prev_period[i], {i}); det.setDelayAfterTrigger(prev_delay[i], {i}); } } else { // clock index might work // REQUIRE_THROWS(caller.call("runclk", {}, -1, GET)); } } TEST_CASE("syncclk", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("syncclk", {"MHZ"}, -1, GET)); REQUIRE_NOTHROW(caller.call("syncclk", {"mhz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("syncclk", {"MHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("syncclk", {"kHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("syncclk", {"Hz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("syncclk", {}, -1, GET)); } else { // clock index might work // REQUIRE_THROWS(caller.call("syncclk", {}, -1, GET)); } } TEST_CASE("v_limit", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getVoltageLimit(); auto prev_dac_val = det.getDAC(defs::DAC_0, false); auto prev_power_dac_val = det.getPowerDAC(defs::V_POWER_A); REQUIRE_THROWS(caller.call("v_limit", {"1200", "mV"}, -1, PUT)); REQUIRE_THROWS(caller.call("v_limit", {"-100"}, -1, PUT)); { std::ostringstream oss, oss2; caller.call("v_limit", {"0"}, -1, PUT, oss); REQUIRE(oss.str() == "v_limit 0\n"); caller.call("v_limit", {}, -1, GET, oss2); REQUIRE(oss2.str() == "v_limit 0\n"); REQUIRE_NOTHROW(caller.call("dac", {"0", "1200", "mV"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("powerdac", {"v_a", "1200"}, -1, PUT)); } { std::ostringstream oss; caller.call("v_limit", {"1500"}, -1, PUT, oss); REQUIRE(oss.str() == "v_limit 1500\n"); REQUIRE_THROWS(caller.call("dac", {"0", "1501", "mV"}, -1, PUT)); REQUIRE_THROWS(caller.call("powerdac", {"v_a", "1501"}, -1, PUT)); } det.setVoltageLimit(prev_val); det.setPowerDAC(defs::V_POWER_A, prev_power_dac_val); for (int i = 0; i != det.size(); ++i) { det.setDAC(defs::DAC_0, prev_dac_val[i], false, {i}); } } else { REQUIRE_THROWS(caller.call("v_limit", {}, -1, GET)); } } TEST_CASE("adcenable", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { auto prev_val = det.getADCEnableMask(); { std::ostringstream oss; caller.call("adcenable", {"0x8d0aa0d8"}, -1, PUT, oss); REQUIRE(oss.str() == "adcenable 0x8d0aa0d8\n"); } { std::ostringstream oss; caller.call("adcenable", {"0xffffffff"}, -1, PUT, oss); REQUIRE(oss.str() == "adcenable 0xffffffff\n"); } { std::ostringstream oss; caller.call("adcenable", {}, -1, GET, oss); REQUIRE(oss.str() == "adcenable 0xffffffff\n"); } for (int i = 0; i != det.size(); ++i) { det.setADCEnableMask(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("adcenable", {}, -1, GET)); } } TEST_CASE("adcenable10g", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getTenGigaADCEnableMask(); { std::ostringstream oss; caller.call("adcenable10g", {"0xff0000ff"}, -1, PUT, oss); REQUIRE(oss.str() == "adcenable10g 0xff0000ff\n"); } { std::ostringstream oss; caller.call("adcenable10g", {"0xffffffff"}, -1, PUT, oss); REQUIRE(oss.str() == "adcenable10g 0xffffffff\n"); } { std::ostringstream oss; caller.call("adcenable10g", {}, -1, GET, oss); REQUIRE(oss.str() == "adcenable10g 0xffffffff\n"); } for (int i = 0; i != det.size(); ++i) { det.setTenGigaADCEnableMask(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("adcenable10g", {}, -1, GET)); } } TEST_CASE("transceiverenable", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getTransceiverEnableMask(); { std::ostringstream oss; caller.call("transceiverenable", {"0x3"}, -1, PUT, oss); REQUIRE(oss.str() == "transceiverenable 0x3\n"); } { std::ostringstream oss; caller.call("transceiverenable", {"0xf"}, -1, PUT, oss); REQUIRE(oss.str() == "transceiverenable 0xf\n"); } { std::ostringstream oss; caller.call("transceiverenable", {}, -1, GET, oss); REQUIRE(oss.str() == "transceiverenable 0xf\n"); } for (int i = 0; i != det.size(); ++i) { det.setTransceiverEnableMask(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("transceiverenable", {}, -1, GET)); } } /* CTB Specific */ TEST_CASE("dsamples", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getNumberOfDigitalSamples(); { std::ostringstream oss; caller.call("dsamples", {"1"}, -1, PUT, oss); REQUIRE(oss.str() == "dsamples 1\n"); } { std::ostringstream oss; caller.call("dsamples", {"450"}, -1, PUT, oss); REQUIRE(oss.str() == "dsamples 450\n"); } { std::ostringstream oss; caller.call("dsamples", {}, -1, GET, oss); REQUIRE(oss.str() == "dsamples 450\n"); } for (int i = 0; i != det.size(); ++i) { det.setNumberOfDigitalSamples(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("dsamples", {}, -1, GET)); } } TEST_CASE("tsamples", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getNumberOfTransceiverSamples(); { std::ostringstream oss; caller.call("tsamples", {"1"}, -1, PUT, oss); REQUIRE(oss.str() == "tsamples 1\n"); } { std::ostringstream oss; caller.call("tsamples", {"450"}, -1, PUT, oss); REQUIRE(oss.str() == "tsamples 450\n"); } { std::ostringstream oss; caller.call("tsamples", {}, -1, GET, oss); REQUIRE(oss.str() == "tsamples 450\n"); } if (det_type == defs::XILINX_CHIPTESTBOARD) { std::ostringstream oss; caller.call("tsamples", {"10000"}, -1, PUT, oss); REQUIRE(oss.str() == "tsamples 10000\n"); } for (int i = 0; i != det.size(); ++i) { det.setNumberOfTransceiverSamples(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("tsamples", {}, -1, GET)); } } TEST_CASE("romode", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_romode = det.getReadoutMode(); auto prev_asamples = det.getNumberOfAnalogSamples(); auto prev_dsamples = det.getNumberOfDigitalSamples(); auto prev_tsamples = det.getNumberOfTransceiverSamples(); det.setNumberOfAnalogSamples(5000); det.setNumberOfDigitalSamples(5000); det.setNumberOfTransceiverSamples(5000); { std::ostringstream oss; caller.call("romode", {"digital"}, -1, PUT, oss); REQUIRE(oss.str() == "romode digital\n"); } { std::ostringstream oss; caller.call("romode", {"analog_digital"}, -1, PUT, oss); REQUIRE(oss.str() == "romode analog_digital\n"); } { std::ostringstream oss; caller.call("romode", {"analog"}, -1, PUT, oss); REQUIRE(oss.str() == "romode analog\n"); } { std::ostringstream oss; caller.call("romode", {}, -1, GET, oss); REQUIRE(oss.str() == "romode analog\n"); } { std::ostringstream oss; caller.call("romode", {"transceiver"}, -1, PUT, oss); REQUIRE(oss.str() == "romode transceiver\n"); } { std::ostringstream oss; caller.call("romode", {"digital_transceiver"}, -1, PUT, oss); REQUIRE(oss.str() == "romode digital_transceiver\n"); } for (int i = 0; i != det.size(); ++i) { det.setReadoutMode(prev_romode[i], {i}); det.setNumberOfAnalogSamples(prev_asamples[i], {i}); det.setNumberOfDigitalSamples(prev_dsamples[i], {i}); det.setNumberOfTransceiverSamples(prev_tsamples[i], {i}); } } else { REQUIRE_THROWS(caller.call("romode", {}, -1, GET)); } } TEST_CASE("dbitclk", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_val = det.getDBITClock(); REQUIRE_NOTHROW(caller.call("dbitclk", {"MHZ"}, -1, GET)); REQUIRE_NOTHROW(caller.call("dbitclk", {"mhz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("dbitclk", {"MHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("dbitclk", {"kHz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("dbitclk", {"Hz"}, -1, GET)); REQUIRE_NOTHROW(caller.call("dbitclk", {}, -1, GET)); // min if (det_type == defs::CHIPTESTBOARD) REQUIRE_THROWS(caller.call("dbitclk", {"1", "MHz"}, -1, PUT)); else REQUIRE_THROWS(caller.call("dbitclk", {"9", "MHz"}, -1, PUT)); // max REQUIRE_THROWS(caller.call("dbitclk", {"301", "MHz"}, -1, PUT)); { std::ostringstream oss; caller.call("dbitclk", {"20MHz"}, -1, PUT, oss); REQUIRE(oss.str() == "dbitclk 20MHz\n"); } { std::ostringstream oss; caller.call("dbitclk", {"10000000"}, -1, PUT, oss); REQUIRE(oss.str() == "dbitclk 10000000\n"); } { std::ostringstream oss; caller.call("dbitclk", {}, -1, GET, oss); REQUIRE(oss.str() == "dbitclk 10MHz\n"); } { std::ostringstream oss; caller.call("dbitclk", {"15000", "kHz"}, -1, PUT, oss); REQUIRE(oss.str() == "dbitclk 15000kHz\n"); } { std::ostringstream oss; caller.call("dbitclk", {}, -1, GET, oss); REQUIRE(oss.str() == "dbitclk 15MHz\n"); } { std::ostringstream oss; caller.call("dbitclk", {"15.75", "MHz"}, -1, PUT, oss); REQUIRE(oss.str() == "dbitclk 15.75MHz\n"); } { std::ostringstream oss; caller.call("dbitclk", {}, -1, GET, oss); REQUIRE(oss.str() == "dbitclk 15.75MHz\n"); } for (int i = 0; i != det.size(); ++i) { det.setDBITClock(prev_val[i], {i}); } } else { // clock index might work // REQUIRE_THROWS(caller.call("dbitclk", {}, -1, GET)); } } TEST_CASE("v_abcd", "[.detectorintegration]") { Detector det; Caller caller(&det); // removed in favor of "dac" and "power" commands std::vector cmds{"v_a", "v_b", "v_c", "v_d", "v_io", "v_chip"}; for (size_t i = 0; i < cmds.size(); ++i) { try { caller.call(cmds[i], {}, -1, GET); } catch (const std::exception &e) { REQUIRE(std::string(e.what()).find( "removed and is no longer available") != std::string::npos); } } } TEST_CASE("power", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { std::vector cmds{"v_a", "v_b", "v_c", "v_d", "v_io"}; auto indices = det.getPowerList(); std::vector prev_val(cmds.size()); for (size_t iPower = 0; iPower < cmds.size(); ++iPower) { prev_val[iPower] = det.isPowerEnabled(indices[iPower]); } REQUIRE_THROWS(caller.call("power", {"vrandom"}, -1, GET)); REQUIRE_THROWS(caller.call("power", {"v_chip"}, -1, GET)); REQUIRE_THROWS(caller.call("power", {"on", "v_a"}, -1, PUT)); { std::ostringstream oss; caller.call("power", {"v_a", "on"}, -1, PUT, oss); REQUIRE(oss.str() == "power [v_a] on\n"); } { std::ostringstream oss; caller.call("power", {"v_a"}, -1, GET, oss); REQUIRE(oss.str() == "power v_a on\n"); } { std::ostringstream oss; caller.call("power", {"v_a", "v_c", "on"}, -1, PUT, oss); REQUIRE(oss.str() == "power [v_a, v_c] on\n"); } { std::ostringstream oss1, oss2, oss3; caller.call("power", {"v_a", "v_b", "off"}, -1, PUT); caller.call("power", {"v_a"}, -1, GET, oss1); caller.call("power", {"v_b"}, -1, GET, oss2); caller.call("power", {"v_c"}, -1, GET, oss3); REQUIRE(oss1.str() == "power v_a off\n"); REQUIRE(oss2.str() == "power v_b off\n"); REQUIRE(oss3.str() == "power v_c on\n"); } { // power name std::ostringstream oss1; det.setPowerName(defs::V_POWER_B, "pwrname_v_b"); det.setPowerName(defs::V_POWER_C, "pwrname_v_c"); det.setPowerName(defs::V_POWER_D, "pwrname_v_d"); caller.call("power", {"pwrname_v_c", "pwrname_v_d", "on"}, -1, PUT, oss1); std::ostringstream oss[8]; caller.call("power", {"v_a"}, -1, GET, oss[0]); caller.call("power", {"pwrname_v_b"}, -1, GET, oss[1]); caller.call("power", {"v_b"}, -1, GET, oss[2]); caller.call("power", {"pwrname_v_c"}, -1, GET, oss[3]); caller.call("power", {"v_c"}, -1, GET, oss[4]); caller.call("power", {"pwrname_v_d"}, -1, GET, oss[5]); caller.call("power", {"v_d"}, -1, GET, oss[6]); caller.call("power", {"v_io"}, -1, GET, oss[7]); REQUIRE(oss[0].str() == "power v_a off\n"); REQUIRE(oss[1].str() == "power pwrname_v_b off\n"); REQUIRE(oss[2].str() == "power v_b off\n"); REQUIRE(oss[3].str() == "power pwrname_v_c on\n"); REQUIRE(oss[4].str() == "power v_c on\n"); REQUIRE(oss[5].str() == "power pwrname_v_d on\n"); REQUIRE(oss[6].str() == "power v_d on\n"); REQUIRE(oss[7].str() == "power v_io off\n"); } // all { std::ostringstream oss; caller.call("power", {"all"}, -1, GET, oss); REQUIRE( oss.str() == "power {v_a: off, v_b: off, v_c: on, v_d: on, v_io: off}\n"); } { // power on all caller.call("power", {"all", "on"}, -1, PUT); std::ostringstream oss1, oss2, oss3, oss4, oss5; caller.call("power", {"v_a"}, -1, GET, oss1); caller.call("power", {"v_b"}, -1, GET, oss2); caller.call("power", {"v_c"}, -1, GET, oss3); caller.call("power", {"v_d"}, -1, GET, oss4); caller.call("power", {"v_io"}, -1, GET, oss5); REQUIRE(oss1.str() == "power v_a on\n"); REQUIRE(oss2.str() == "power v_b on\n"); REQUIRE(oss3.str() == "power v_c on\n"); REQUIRE(oss4.str() == "power v_d on\n"); REQUIRE(oss5.str() == "power v_io on\n"); std::ostringstream oss; caller.call("power", {"all"}, -1, GET, oss); REQUIRE(oss.str() == "power all on\n"); } for (size_t iPower = 0; iPower < cmds.size(); ++iPower) { det.setPowerEnabled(std::vector{indices[iPower]}, prev_val[iPower]); } } else { REQUIRE_THROWS(caller.call("power", {"v_a"}, -1, GET)); } } TEST_CASE("vm_a", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("vm_a", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("vm_a", {}, -1, GET)); } } TEST_CASE("vm_b", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("vm_b", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("vm_b", {}, -1, GET)); } } TEST_CASE("vm_c", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("vm_c", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("vm_c", {}, -1, GET)); } } TEST_CASE("vm_d", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("vm_d", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("vm_d", {}, -1, GET)); } } TEST_CASE("vm_io", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("vm_io", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("vm_io", {}, -1, GET)); } } TEST_CASE("im_a", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("im_a", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("im_a", {}, -1, GET)); } } TEST_CASE("im_b", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("im_b", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("im_b", {}, -1, GET)); } } TEST_CASE("im_c", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("im_c", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("im_c", {}, -1, GET)); } } TEST_CASE("im_d", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("im_d", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("im_d", {}, -1, GET)); } } TEST_CASE("im_io", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { REQUIRE_NOTHROW(caller.call("im_io", {}, -1, GET)); } else { REQUIRE_THROWS(caller.call("im_io", {}, -1, GET)); } } TEST_CASE("slowadc", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { for (int i = 0; i <= 7; ++i) { REQUIRE_NOTHROW( caller.call("slowadc", {std::to_string(i)}, -1, GET)); REQUIRE_THROWS(caller.call("slowadc", {"0"}, -1, PUT)); } } else { REQUIRE_THROWS(caller.call("slowadc", {"0"}, -1, GET)); } } TEST_CASE("extsampling", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { auto prev_val = det.getExternalSampling(); { std::ostringstream oss; caller.call("extsampling", {"1"}, -1, PUT, oss); REQUIRE(oss.str() == "extsampling 1\n"); } { std::ostringstream oss; caller.call("extsampling", {"0"}, -1, PUT, oss); REQUIRE(oss.str() == "extsampling 0\n"); } { std::ostringstream oss; caller.call("extsampling", {}, -1, GET, oss); REQUIRE(oss.str() == "extsampling 0\n"); } for (int i = 0; i != det.size(); ++i) { det.setExternalSampling(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("extsampling", {}, -1, GET)); } } TEST_CASE("extsamplingsrc", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { auto prev_val = det.getExternalSamplingSource(); { std::ostringstream oss; caller.call("extsamplingsrc", {"63"}, -1, PUT, oss); REQUIRE(oss.str() == "extsamplingsrc 63\n"); } { std::ostringstream oss; caller.call("extsamplingsrc", {"0"}, -1, PUT, oss); REQUIRE(oss.str() == "extsamplingsrc 0\n"); } { std::ostringstream oss; caller.call("extsamplingsrc", {}, -1, GET, oss); REQUIRE(oss.str() == "extsamplingsrc 0\n"); } REQUIRE_THROWS(caller.call("extsamplingsrc", {"64"}, -1, PUT)); for (int i = 0; i != det.size(); ++i) { det.setExternalSamplingSource(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("extsamplingsrc", {}, -1, GET)); } } TEST_CASE("diodelay", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { { std::ostringstream oss; caller.call("diodelay", {"0x01010", "0"}, -1, PUT, oss); REQUIRE(oss.str() == "diodelay [0x01010, 0]\n"); } { std::ostringstream oss; caller.call("diodelay", {"0x01010", "775"}, -1, PUT, oss); REQUIRE(oss.str() == "diodelay [0x01010, 775]\n"); } REQUIRE_THROWS(caller.call("diodelay", {}, -1, GET)); REQUIRE_THROWS(caller.call("diodelay", {"0x01010", "776"}, -1, GET)); } else { REQUIRE_THROWS(caller.call("diodelay", {"0x01010", "775"}, -1, PUT)); } } TEST_CASE("led", "[.detectorintegration]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD) { auto prev_val = det.getLEDEnable(); { std::ostringstream oss; caller.call("led", {"1"}, -1, PUT, oss); REQUIRE(oss.str() == "led 1\n"); } { std::ostringstream oss; caller.call("led", {"0"}, -1, PUT, oss); REQUIRE(oss.str() == "led 0\n"); } { std::ostringstream oss; caller.call("led", {}, -1, GET, oss); REQUIRE(oss.str() == "led 0\n"); } for (int i = 0; i != det.size(); ++i) { det.setLEDEnable(prev_val[i], {i}); } } else { REQUIRE_THROWS(caller.call("led", {}, -1, GET)); } } TEST_CASE("define_reg", "[.detectorintegration][reg]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_reg_defines = det.getRegisterDefinitions(); auto prev_bit_defines = det.getBitDefinitions(); det.clearRegisterDefinitions(); det.clearBitDefinitions(); { // invalid puts // missing arg REQUIRE_THROWS(caller.call("define_reg", {}, -1, GET)); // missing arg REQUIRE_THROWS(caller.call("define_reg", {"TEST_REG"}, -1, PUT)); // invalid module id REQUIRE_THROWS( caller.call("define_reg", {"TEST_REG", "0x201"}, 0, PUT)); // valid put REQUIRE_NOTHROW( caller.call("define_reg", {"TEST_REG", "0x200"}, -1, PUT)); // modify reg REQUIRE_NOTHROW( caller.call("define_reg", {"TEST_REG", "0x201"}, -1, PUT)); REQUIRE_NOTHROW( caller.call("define_reg", {"TEST_REG2", "0x202"}, -1, PUT)); // invalid puts // existing reg addr REQUIRE_THROWS( caller.call("define_reg", {"TEST_REG3", "0x201"}, -1, PUT)); // valid gets { // get by name std::ostringstream oss; REQUIRE_NOTHROW( caller.call("define_reg", {"TEST_REG"}, -1, GET, oss)); REQUIRE(oss.str() == "define_reg 0x201\n"); } { // get by addr std::ostringstream oss; REQUIRE_NOTHROW( caller.call("define_reg", {"0x201"}, -1, GET, oss)); REQUIRE(oss.str() == "define_reg TEST_REG\n"); } // invalid gets // doesnt exist REQUIRE_THROWS(caller.call("define_reg", {"TEST_REG3"}, -1, GET)); REQUIRE_THROWS(caller.call("define_reg", {"0x203"}, -1, GET)); // ensure correct exception message try { caller.call("define_reg", {"0x203"}, -1, GET); } catch (const std::exception &e) { REQUIRE(std::string(e.what()).find( "No entry found for value") != std::string::npos); } } det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinitions(prev_reg_defines); det.setBitDefinitions(prev_bit_defines); } else { REQUIRE_THROWS( caller.call("define_reg", {"TEST_REG", "0x200"}, -1, PUT)); REQUIRE_THROWS(caller.call("define_reg", {"TEST_REG"}, -1, GET)); } } TEST_CASE("define_bit", "[.detectorintegration][reg]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_reg_defines = det.getRegisterDefinitions(); auto prev_bit_defines = det.getBitDefinitions(); det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinition("TEST_REG", RegisterAddress(0x201)); det.setRegisterDefinition("TEST_REG2", RegisterAddress(0x202)); { // invalid puts // skipped register REQUIRE_THROWS( caller.call("define_bit", {"TEST_BIT", "1"}, -1, PUT)); // named register doesnt exist REQUIRE_THROWS(caller.call( "define_bit", {"TEST_BIT", "RANDOM_REG", "1"}, -1, PUT)); // invalid bit position REQUIRE_THROWS( caller.call("define", {"TEST_BIT", "TEST_REG", "32"}, -1, PUT)); // valid puts REQUIRE_NOTHROW(caller.call( "define_bit", {"TEST_BIT", "TEST_REG2", "1"}, -1, PUT)); // modify reg REQUIRE_NOTHROW(caller.call( "define_bit", {"TEST_BIT", "TEST_REG", "1"}, -1, PUT)); // modify position REQUIRE_NOTHROW(caller.call( "define_bit", {"TEST_BIT", "TEST_REG", "2"}, -1, PUT)); // another bit to same reg REQUIRE_NOTHROW(caller.call( "define_bit", {"TEST_BIT2", "TEST_REG", "4"}, -1, PUT)); // bit to a different reg REQUIRE_NOTHROW(caller.call( "define_bit", {"TEST_BIT3", "TEST_REG2", "3"}, -1, PUT)); // valid gets { // get by name std::ostringstream oss; REQUIRE_NOTHROW( caller.call("define_bit", {"TEST_BIT"}, -1, GET, oss)); REQUIRE(oss.str() == "define_bit [TEST_REG, 2]\n"); } { // get by addr+pos name std::ostringstream oss; REQUIRE_NOTHROW( caller.call("define_bit", {"TEST_REG", "2"}, -1, GET, oss)); REQUIRE(oss.str() == "define_bit TEST_BIT\n"); } { // get by addr val + pos std::ostringstream oss; REQUIRE_NOTHROW( caller.call("define_bit", {"0x201", "2"}, -1, GET, oss)); REQUIRE(oss.str() == "define_bit TEST_BIT\n"); } // invalid gets // bit doesnt exist REQUIRE_THROWS( caller.call("define_bit", {"TEST_REG", "3"}, -1, GET)); // addr doesnt exist REQUIRE_THROWS( caller.call("define_bit", {"TEST_REG3", "2"}, -1, GET)); // ensure correct exception message try { caller.call("define_bit", {"TEST_REG", "3"}, -1, GET); } catch (const std::exception &e) { REQUIRE(std::string(e.what()).find( "No entry found for value") != std::string::npos); } } det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinitions(prev_reg_defines); det.setBitDefinitions(prev_bit_defines); } else { REQUIRE_THROWS( caller.call("define_bit", {"TEST_BIT", "0x200", "2"}, -1, PUT)); REQUIRE_THROWS(caller.call("define_bit", {"0x200", "2"}, -1, GET)); } } TEST_CASE("using define for reg, setbit, getbit and clearbit", "[.detectorintegration][reg]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { if (det.isVirtualDetectorServer().tsquash( "inconsistent virtual values")) { auto prev_reg_defines = det.getRegisterDefinitions(); auto prev_bit_defines = det.getBitDefinitions(); det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinition("TEST_REG", RegisterAddress(0x201)); det.setRegisterDefinition("TEST_REG2", RegisterAddress(0x202)); det.setBitDefinition("TEST_BIT", BitAddress(RegisterAddress(0x201), 2)); det.setBitDefinition("TEST_BIT2", BitAddress(RegisterAddress(0x201), 4)); det.setBitDefinition("TEST_BIT3", BitAddress(RegisterAddress(0x202), 3)); auto prev_val_addr = det.readRegister(RegisterAddress(0x201)); auto prev_val_addr2 = det.readRegister(RegisterAddress(0x202)); // invalid puts // doesnt exist addr REQUIRE_THROWS( caller.call("reg", {"RANDOM_REG", "0xf00"}, -1, PUT)); REQUIRE_THROWS( caller.call("clearbit", {"RANDOM_REG", "TEST_BIT"}, -1, PUT)); REQUIRE_THROWS( caller.call("setbit", {"RANDOM_REG", "TEST_BIT"}, -1, PUT)); REQUIRE_THROWS( caller.call("getbit", {"RANDOM_REG", "TEST_BIT"}, -1, GET)); // using bit name for reg (only hardcoded values allowed) REQUIRE_THROWS( caller.call("reg", {"TEST_REG", "TEST_BIT"}, -1, PUT)); // using bit name and reg (only bit names or both reg and bit // hardcoded allowed) REQUIRE_THROWS( caller.call("clearbit", {"TEST_REG", "TEST_BIT"}, -1, PUT)); REQUIRE_THROWS( caller.call("setbit", {"TEST_REG", "TEST_BIT"}, -1, PUT)); REQUIRE_THROWS( caller.call("getbit", {"TEST_REG", "TEST_BIT"}, -1, GET)); // valid puts and gets { // reg hard coded value of 0 std::ostringstream oss; REQUIRE_NOTHROW( caller.call("reg", {"TEST_REG", "0x0"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("reg", {"TEST_REG"}, -1, GET, oss)); REQUIRE(oss.str() == "reg 0x0\n"); } { // reg hard coded value std::ostringstream oss; REQUIRE_NOTHROW( caller.call("reg", {"TEST_REG", "0x10"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("reg", {"TEST_REG"}, -1, GET, oss)); REQUIRE(oss.str() == "reg 0x10\n"); } { // set bit std::ostringstream oss; REQUIRE_NOTHROW(caller.call("setbit", {"TEST_BIT"}, -1, PUT)); REQUIRE_NOTHROW( caller.call("setbit", {"TEST_REG", "2"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("reg", {"TEST_REG"}, -1, GET, oss)); REQUIRE(oss.str() == "reg 0x14\n"); } { // get bit std::ostringstream oss, oss2; REQUIRE_NOTHROW( caller.call("getbit", {"TEST_REG", "2"}, -1, GET, oss)); REQUIRE(oss.str() == "getbit 1\n"); REQUIRE_NOTHROW( caller.call("getbit", {"TEST_BIT"}, -1, GET, oss2)); REQUIRE(oss2.str() == "getbit 1\n"); } { // clear bit std::ostringstream oss; REQUIRE_NOTHROW(caller.call("clearbit", {"TEST_BIT"}, -1, PUT)); REQUIRE_NOTHROW( caller.call("clearbit", {"TEST_REG", "2"}, -1, PUT)); REQUIRE_NOTHROW(caller.call("reg", {"TEST_REG"}, -1, GET, oss)); REQUIRE(oss.str() == "reg 0x10\n"); } for (int i = 0; i != det.size(); ++i) { det.writeRegister(RegisterAddress(0x201), RegisterValue(prev_val_addr[i]), false, {i}); det.writeRegister(RegisterAddress(0x202), RegisterValue(prev_val_addr2[i]), false, {i}); } det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinitions(prev_reg_defines); det.setBitDefinitions(prev_bit_defines); } } else { REQUIRE_THROWS(caller.call("reg", {"TEST_REG", "0x200"}, -1, PUT)); REQUIRE_THROWS(caller.call("reg", {"TEST_REG"}, -1, GET)); } } TEST_CASE("definelist_reg", "[.detectorintegration][reg]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_reg_defines = det.getRegisterDefinitions(); det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinition("TEST_REG", RegisterAddress(0x201)); det.setRegisterDefinition("TEST_REG2", RegisterAddress(0x202)); // invalid // cannot put REQUIRE_THROWS( caller.call("definelist_reg", {"TEST_REG", "0x201"}, -1, PUT)); // too many args REQUIRE_THROWS(caller.call("definelist_reg", {"TEST_MACRO"}, -1, GET)); // valid REQUIRE_NOTHROW(caller.call("definelist_reg", {}, -1, GET)); det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinitions(prev_reg_defines); } else { REQUIRE_THROWS(caller.call("definelist_reg", {}, -1, GET)); } } TEST_CASE("definelist_bit", "[.detectorintegration][reg]") { Detector det; Caller caller(&det); auto det_type = det.getDetectorType().squash(); if (det_type == defs::CHIPTESTBOARD || det_type == defs::XILINX_CHIPTESTBOARD) { auto prev_reg_defines = det.getRegisterDefinitions(); auto prev_bit_defines = det.getBitDefinitions(); det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinition("TEST_REG", RegisterAddress(0x201)); det.setRegisterDefinition("TEST_REG2", RegisterAddress(0x202)); det.setBitDefinition("TEST_BIT", BitAddress(RegisterAddress(0x201), 2)); det.setBitDefinition("TEST_BIT2", BitAddress(RegisterAddress(0x201), 4)); det.setBitDefinition("TEST_BIT3", BitAddress(RegisterAddress(0x202), 3)); // invalid // cannot put REQUIRE_THROWS( caller.call("definelist_bit", {"TEST_BIT", "0x201", "2"}, -1, PUT)); // too many args REQUIRE_THROWS(caller.call("definelist_bit", {"TEST_BIT"}, -1, GET)); // valid REQUIRE_NOTHROW(caller.call("definelist_bit", {}, -1, GET)); det.clearRegisterDefinitions(); det.clearBitDefinitions(); det.setRegisterDefinitions(prev_reg_defines); det.setBitDefinitions(prev_bit_defines); } else { REQUIRE_THROWS(caller.call("definelist_bit", {}, -1, GET)); } } } // namespace sls