90c177b7ce
GEM300 layer: SEMI E40-0705 Process Job and E94-0705 Control Job state machines, plus the E30 §6.1 communication-state machine that sits between HSMS SELECT and full GEM communication. Data-driven via data/process_job_state.yaml and data/control_job_state.yaml, mirroring the existing control_state.yaml pattern. Wire coverage: S14F9/F10 CreateObject (CJ) host -> equipment S14F11/F12 DeleteObject (CJ) host -> equipment S16F5/F6 PRJobCommand host -> equipment S16F9 PRJobAlert equipment -> host S16F11/F12 PRJobCreate (simplified body) host -> equipment S16F13/F14 PRJobDequeue host -> equipment S16F27/F28 CJobCommand host -> equipment Process Job FSM exposes 8 states matching PRJOBSTATE bytes (E40 §10.3.2); HOQ is reorder-aware (move-to-head against an insertion-order vector); Stop/Abort on a Queued PJ routes through ABORTING so the host observes PRJOBSTATE=7 on the wire (§6.3); alert_enabled is settable per-PJ for PRALERT control; FSM dispatches through ProcessJobStore::on_change_ dynamically so a late set_state_change_handler() reaches existing PJs. Hardening: loader rejects NoState (sentinel) as initial/from/to and rejects `on: created` rows; static_asserts pin enum values to wire bytes; ProcessJobStore is non-movable to keep the per-PJ this-capture safe. Server simulator cascades the full CJ -> PJ lifecycle on CJSTART so the wire trace exercises every legal state. CEIDs 400/401 fire on CJ state changes via the existing event-report pipeline. Tests: 60+ new assertions across test_process_jobs, test_control_jobs, test_communication_state, test_hsms_connection, plus loader and messages round-trip coverage. Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
587 lines
22 KiB
C++
587 lines
22 KiB
C++
#include <doctest/doctest.h>
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#include "secsgem/gem/messages.hpp"
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using namespace secsgem::gem;
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TEST_CASE("S1F3 round-trip preserves SVID list") {
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auto m = s1f3_selected_status_request({1, 2, 99});
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CHECK(m.stream == 1);
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CHECK(m.function == 3);
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CHECK(m.reply_expected);
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auto parsed = parse_s1f3(m);
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REQUIRE(parsed.has_value());
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CHECK(*parsed == std::vector<uint32_t>{1, 2, 99});
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}
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TEST_CASE("S1F4 substitutes empty list for unknown SVIDs") {
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std::vector<std::optional<s2::Item>> values = {s2::Item::u4(uint32_t{42}), std::nullopt,
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s2::Item::ascii("ok")};
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auto m = s1f4_selected_status_data(values);
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REQUIRE(m.body.has_value());
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const auto& children = m.body->as_list();
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REQUIRE(children.size() == 3);
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CHECK(children[0] == s2::Item::u4(uint32_t{42}));
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CHECK(children[1] == s2::Item::list({}));
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CHECK(children[2] == s2::Item::ascii("ok"));
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}
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TEST_CASE("S1F12 round-trip preserves SVID, name, units") {
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std::vector<StatusName> svs = {{1, "Clock", "sec"}, {2, "Power", "W"}};
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auto m = s1f12_status_namelist_data(svs);
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auto parsed = parse_s1f12(m);
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REQUIRE(parsed.has_value());
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REQUIRE(parsed->size() == 2);
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CHECK((*parsed)[0].id == 1);
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CHECK((*parsed)[0].name == "Clock");
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CHECK((*parsed)[0].units == "sec");
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CHECK((*parsed)[1].id == 2);
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CHECK((*parsed)[1].name == "Power");
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}
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TEST_CASE("S2F15 round-trip preserves ECID-value pairs") {
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std::vector<EcSet> sets = {
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{10, s2::Item::u4(uint32_t{50})},
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{11, s2::Item::ascii("YYYYMMDDhhmmsscc")},
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};
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auto m = s2f15_ec_send(sets);
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auto parsed = parse_s2f15(m);
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REQUIRE(parsed.has_value());
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REQUIRE(parsed->size() == 2);
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CHECK((*parsed)[0].ecid == 10);
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CHECK((*parsed)[0].value == s2::Item::u4(uint32_t{50}));
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CHECK((*parsed)[1].ecid == 11);
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CHECK((*parsed)[1].value == s2::Item::ascii("YYYYMMDDhhmmsscc"));
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}
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TEST_CASE("S2F16 EAC ack round-trip") {
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auto m = s2f16_ec_ack(EquipmentAck::Denied_OutOfRange);
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auto byte = ack_byte(m);
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REQUIRE(byte.has_value());
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CHECK(*byte == static_cast<uint8_t>(EquipmentAck::Denied_OutOfRange));
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}
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TEST_CASE("S2F16 EAC enum matches SEMI E5 wire values") {
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// Pin the spec values so an inadvertent re-numbering breaks the test
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// instead of breaking interoperability with conformant hosts.
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CHECK(static_cast<uint8_t>(EquipmentAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(EquipmentAck::Denied_UnknownEcid) == 1);
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CHECK(static_cast<uint8_t>(EquipmentAck::Denied_Busy) == 2);
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CHECK(static_cast<uint8_t>(EquipmentAck::Denied_OutOfRange) == 3);
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}
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TEST_CASE("S2F34 DRACK enum matches SEMI E5 wire values") {
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CHECK(static_cast<uint8_t>(DefineReportAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(DefineReportAck::InsufficientSpace) == 1);
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CHECK(static_cast<uint8_t>(DefineReportAck::InvalidFormat) == 2);
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CHECK(static_cast<uint8_t>(DefineReportAck::RptidAlreadyDefined) == 3);
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CHECK(static_cast<uint8_t>(DefineReportAck::InvalidVid) == 4);
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}
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TEST_CASE("S2F36 LRACK enum matches SEMI E5 wire values") {
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CHECK(static_cast<uint8_t>(LinkEventAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(LinkEventAck::InsufficientSpace) == 1);
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CHECK(static_cast<uint8_t>(LinkEventAck::InvalidFormat) == 2);
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CHECK(static_cast<uint8_t>(LinkEventAck::UnknownCeid) == 3);
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CHECK(static_cast<uint8_t>(LinkEventAck::UnknownRptid) == 4);
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CHECK(static_cast<uint8_t>(LinkEventAck::CeidAlreadyLinked) == 5);
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}
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TEST_CASE("S2F42 HCACK enum matches SEMI E5 wire values") {
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CHECK(static_cast<uint8_t>(HostCmdAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(HostCmdAck::InvalidCommand) == 1);
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CHECK(static_cast<uint8_t>(HostCmdAck::CannotDoNow) == 2);
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CHECK(static_cast<uint8_t>(HostCmdAck::ParameterInvalid) == 3);
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CHECK(static_cast<uint8_t>(HostCmdAck::AcceptedWillFinishLater) == 4);
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CHECK(static_cast<uint8_t>(HostCmdAck::Rejected) == 5);
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CHECK(static_cast<uint8_t>(HostCmdAck::InvalidObject) == 6);
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}
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TEST_CASE("S7F4 ACKC7 enum matches SEMI E5 wire values") {
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CHECK(static_cast<uint8_t>(ProcessProgramAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(ProcessProgramAck::PermissionNotGranted) == 1);
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CHECK(static_cast<uint8_t>(ProcessProgramAck::LengthError) == 2);
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CHECK(static_cast<uint8_t>(ProcessProgramAck::MatrixOverflow) == 3);
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CHECK(static_cast<uint8_t>(ProcessProgramAck::PpidNotFound) == 4);
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CHECK(static_cast<uint8_t>(ProcessProgramAck::ModeUnsupported) == 5);
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CHECK(static_cast<uint8_t>(ProcessProgramAck::PerformanceError) == 6);
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}
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TEST_CASE("S10F2/F4/F6 ACKC10 enum matches SEMI E5 wire values") {
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CHECK(static_cast<uint8_t>(TerminalAck::Accepted) == 0);
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CHECK(static_cast<uint8_t>(TerminalAck::WillNotDisplay) == 1);
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CHECK(static_cast<uint8_t>(TerminalAck::TerminalNotAvailable) == 2);
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}
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TEST_CASE("S1F18 ONLACK / S1F16 OFLACK / S1F14 COMMACK enum wire values") {
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CHECK(static_cast<uint8_t>(OnlineAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(OnlineAck::NotAccept) == 1);
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CHECK(static_cast<uint8_t>(OnlineAck::AlreadyOnline) == 2);
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CHECK(static_cast<uint8_t>(OfflineAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(CommAck::Accept) == 0);
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CHECK(static_cast<uint8_t>(CommAck::Denied) == 1);
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}
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TEST_CASE("S2F18 carries 16-char time string") {
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auto m = s2f18_date_time_data("2026052812345678");
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auto t = parse_s2f18(m);
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REQUIRE(t.has_value());
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CHECK(*t == "2026052812345678");
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}
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TEST_CASE("S2F41 round-trip with parameters") {
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std::vector<CommandParameter> params = {
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{"LOTID", s2::Item::ascii("LOT-42")},
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{"PPID", s2::Item::ascii("RECIPE-A")},
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};
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auto m = s2f41_host_command("START", params);
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auto parsed = parse_s2f41(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->rcmd == "START");
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REQUIRE(parsed->params.size() == 2);
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CHECK(parsed->params[0].name == "LOTID");
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CHECK(parsed->params[0].value == s2::Item::ascii("LOT-42"));
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CHECK(parsed->params[1].name == "PPID");
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}
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TEST_CASE("S2F42 round-trip with HCACK and CPACKs") {
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auto m = s2f42_host_command_ack(HostCmdAck::ParameterInvalid,
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{{"LOTID", 0}, {"PPID", 3}});
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auto parsed = parse_s2f42(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->hcack == HostCmdAck::ParameterInvalid);
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REQUIRE(parsed->cpacks.size() == 2);
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CHECK(parsed->cpacks[0].name == "LOTID");
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CHECK(parsed->cpacks[0].code == 0);
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CHECK(parsed->cpacks[1].name == "PPID");
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CHECK(parsed->cpacks[1].code == 3);
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}
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TEST_CASE("S2F42 no-params variant") {
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auto m = s2f42_host_command_ack(HostCmdAck::Accept, {});
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auto parsed = parse_s2f42(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->hcack == HostCmdAck::Accept);
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CHECK(parsed->cpacks.empty());
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}
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TEST_CASE("S10F3 terminal display round-trip") {
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auto m = s10f3_terminal_display_single(1, "ALARM: chiller temperature high");
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auto parsed = parse_s10f3(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->tid == 1);
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CHECK(parsed->text == "ALARM: chiller temperature high");
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}
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// ---- S10F5 multi-line terminal display ---------------------------------
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TEST_CASE("S10F5 carries TID + line list; S10F6 ack round-trip") {
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auto m = s10f5_terminal_display_multi(2, {"line one", "line two", "line three"});
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auto td = parse_s10f5(m);
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REQUIRE(td.has_value());
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CHECK(td->tid == 2);
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REQUIRE(td->lines.size() == 3);
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CHECK(td->lines[0] == "line one");
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CHECK(td->lines[2] == "line three");
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CHECK(*ack_byte(s10f6_terminal_display_multi_ack(TerminalAck::Accepted)) == 0);
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}
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// ---- Spool data ready (S6F25/F26) --------------------------------------
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TEST_CASE("S6F25 carries NUM-MSG; S6F26 ack round-trip") {
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auto m = s6f25_spool_data_ready(42);
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auto n = parse_s6f25(m);
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REQUIRE(n.has_value());
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CHECK(*n == 42);
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CHECK(m.reply_expected);
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CHECK(*ack_byte(s6f26_spool_data_ready_ack(EventReportAck::Accept)) == 0);
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}
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// ---- Trace Data Collection (S2F23/F24 + S6F1/F2) -----------------------
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TEST_CASE("S2F23 round-trip") {
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TraceInit ti{7, "1000", 100, 10, {1, 2, 3}};
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auto m = s2f23_trace_initialize_send(ti.trid, ti.dsper, ti.totsmp, ti.repgsz, ti.svids);
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auto parsed = parse_s2f23(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->trid == 7);
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CHECK(parsed->dsper == "1000");
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CHECK(parsed->totsmp == 100);
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CHECK(parsed->repgsz == 10);
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CHECK(parsed->svids == std::vector<uint32_t>{1, 2, 3});
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}
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TEST_CASE("S6F1 round-trip carries TRID + SMPLN + STIME + values") {
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std::vector<s2::Item> values = {s2::Item::u4(uint32_t{42}), s2::Item::ascii("hot")};
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auto m = s6f1_trace_data_send(7, 3, "20260606123000", values);
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auto parsed = parse_s6f1(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->trid == 7);
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CHECK(parsed->smpln == 3);
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CHECK(parsed->stime == "20260606123000");
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REQUIRE(parsed->values.size() == 2);
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CHECK(parsed->values[0] == s2::Item::u4(uint32_t{42}));
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}
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// ---- Limits Monitoring (S2F45-F48) -------------------------------------
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TEST_CASE("S2F45 round-trips define-limits request") {
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std::vector<VidLimitsEntry> entries = {
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{100, {{0, s2::Item::u4(uint32_t{1000}), s2::Item::u4(uint32_t{0})}}},
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{101, {{0, s2::Item::f4(2.0f), s2::Item::f4(0.5f)},
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{1, s2::Item::f4(3.0f), s2::Item::f4(0.1f)}}},
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};
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auto m = s2f45_define_variable_limits(7, entries);
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auto parsed = parse_s2f45(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->dataid == 7);
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REQUIRE(parsed->entries.size() == 2);
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CHECK(parsed->entries[0].vid == 100);
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REQUIRE(parsed->entries[0].limits.size() == 1);
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CHECK(parsed->entries[0].limits[0].upper == s2::Item::u4(uint32_t{1000}));
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CHECK(parsed->entries[1].vid == 101);
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REQUIRE(parsed->entries[1].limits.size() == 2);
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}
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TEST_CASE("S2F46 / S2F48 round-trips") {
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CHECK(*ack_byte(s2f46_define_variable_limits_ack(LimitMonitorAck::VidNotExist)) == 4);
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std::vector<VidLimitsEntry> rows = {
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{100, {{0, s2::Item::u4(uint32_t{1000}), s2::Item::u4(uint32_t{0})}}}};
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auto m = s2f48_variable_limit_attribute_data(rows);
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REQUIRE(m.body.has_value());
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REQUIRE(m.body->is_list());
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}
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// ---- S9 error-stream round-trips ----------------------------------------
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TEST_CASE("S9 MHEAD-carrying messages round-trip") {
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// A representative 10-byte HSMS header (data message, S2F33 W, sys=42).
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const std::string mhead(
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"\x12\x34" // session id
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"\x82" // byte2: W=1, stream=2
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"\x21" // byte3: function=33
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"\x00" // ptype
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"\x00" // stype=Data
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"\x00\x00\x00\x2A", // system bytes = 42
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10);
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auto check = [&](const s2::Message& m, std::optional<std::string> (*p)(const s2::Message&)) {
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CHECK(m.stream == 9);
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CHECK_FALSE(m.reply_expected);
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auto out = p(m);
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REQUIRE(out.has_value());
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CHECK(*out == mhead);
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};
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check(s9f1_unrecognized_device_id(mhead), parse_s9f1);
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check(s9f3_unrecognized_stream_type(mhead), parse_s9f3);
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check(s9f5_unrecognized_function_type(mhead), parse_s9f5);
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check(s9f7_illegal_data(mhead), parse_s9f7);
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check(s9f9_transaction_timer_timeout(mhead), parse_s9f9);
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check(s9f11_data_too_long(mhead), parse_s9f11);
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}
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TEST_CASE("S9F13 conversation timeout carries MEXP + EDID") {
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auto m = s9f13_conversation_timeout("S2F33W", "EQUIP-01");
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CHECK(m.stream == 9);
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CHECK(m.function == 13);
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auto parsed = parse_s9f13(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->mexp == "S2F33W");
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CHECK(parsed->edid == "EQUIP-01");
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}
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// ---- S5F7 / S5F8 List Enabled Alarms -----------------------------------
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TEST_CASE("S5F7 header-only; S5F8 round-trips alarm listing") {
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auto req = s5f7_list_enabled_alarms_request();
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CHECK(req.stream == 5);
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CHECK(req.function == 7);
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CHECK(req.reply_expected);
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CHECK_FALSE(req.body.has_value());
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std::vector<AlarmListing> rows = {{0x84, 1, "Chiller Temp High"},
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{0x01, 2, "Door Open"}};
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auto m = s5f8_list_enabled_alarms_data(rows);
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auto parsed = parse_s5f8(m);
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REQUIRE(parsed.has_value());
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REQUIRE(parsed->size() == 2);
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CHECK((*parsed)[0].alcd == 0x84);
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CHECK((*parsed)[0].alid == 1);
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CHECK((*parsed)[1].alcd == 0x01);
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CHECK((*parsed)[1].altx == "Door Open");
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}
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// ---- S1F19 / S1F20 Get GEM Compliance ----------------------------------
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TEST_CASE("S1F19 is header-only and S1F20 round-trips capability list") {
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auto req = s1f19_get_gem_compliance_request();
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CHECK(req.stream == 1);
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CHECK(req.function == 19);
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CHECK(req.reply_expected);
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CHECK_FALSE(req.body.has_value());
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std::vector<CapabilityEntry> caps = {
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{1, "Establish Communications"},
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{5, "Status Data Collection"},
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{14, "Spooling"},
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};
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auto m = s1f20_get_gem_compliance_data("0.1.0", "EQUIPMENT", caps);
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auto parsed = parse_s1f20(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->softrev == "0.1.0");
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CHECK(parsed->equipment_type == "EQUIPMENT");
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REQUIRE(parsed->capabilities.size() == 3);
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CHECK(parsed->capabilities[0].ccode == 1);
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CHECK(parsed->capabilities[0].cdesc == "Establish Communications");
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CHECK(parsed->capabilities[2].ccode == 14);
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CHECK(parsed->capabilities[2].cdesc == "Spooling");
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}
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// ---- S1F21 / S1F22 DVID Namelist ---------------------------------------
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TEST_CASE("S1F22 round-trip preserves DVIDs (shape matches S1F12)") {
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std::vector<StatusName> dvs = {{100, "WaferCounter", "wafer"},
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{101, "ChamberPressure", "Torr"}};
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auto m = s1f22_data_variable_namelist_data(dvs);
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auto parsed = parse_s1f22(m);
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REQUIRE(parsed.has_value());
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REQUIRE(parsed->size() == 2);
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CHECK((*parsed)[0].id == 100);
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CHECK((*parsed)[0].name == "WaferCounter");
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CHECK((*parsed)[0].units == "wafer");
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CHECK((*parsed)[1].id == 101);
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}
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// ---- Extended GEM message round-trips ------------------------------------
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TEST_CASE("S2F33 define-report round-trip") {
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auto m = s2f33_define_report(7, {{1000, {1, 2, 3}}, {1001, {4}}});
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auto parsed = parse_s2f33(m);
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REQUIRE(parsed.has_value());
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CHECK(parsed->dataid == 7);
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REQUIRE(parsed->reports.size() == 2);
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CHECK(parsed->reports[0].rptid == 1000);
|
|
CHECK(parsed->reports[0].vids == std::vector<uint32_t>{1, 2, 3});
|
|
CHECK(parsed->reports[1].rptid == 1001);
|
|
CHECK(parsed->reports[1].vids == std::vector<uint32_t>{4});
|
|
}
|
|
|
|
TEST_CASE("S2F35 link-event round-trip") {
|
|
auto m = s2f35_link_event_report(0, {{100, {1000, 1001}}, {200, {1001}}});
|
|
auto parsed = parse_s2f35(m);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->dataid == 0);
|
|
REQUIRE(parsed->links.size() == 2);
|
|
CHECK(parsed->links[0].ceid == 100);
|
|
CHECK(parsed->links[0].rptids == std::vector<uint32_t>{1000, 1001});
|
|
}
|
|
|
|
TEST_CASE("S2F37 enable-event round-trip") {
|
|
auto enable = s2f37_enable_event(true, {100, 200});
|
|
auto disable = s2f37_enable_event(false, {});
|
|
auto pe = parse_s2f37(enable);
|
|
auto pd = parse_s2f37(disable);
|
|
REQUIRE(pe.has_value());
|
|
REQUIRE(pd.has_value());
|
|
CHECK(pe->enable);
|
|
CHECK(pe->ceids == std::vector<uint32_t>{100, 200});
|
|
CHECK_FALSE(pd->enable);
|
|
CHECK(pd->ceids.empty());
|
|
}
|
|
|
|
TEST_CASE("S5F1 alarm-report round-trip") {
|
|
auto m = s5f1_alarm_report(0x84, 7, "Chiller temp high");
|
|
auto parsed = parse_s5f1(m);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->alid == 7);
|
|
CHECK(parsed->altx == "Chiller temp high");
|
|
CHECK(parsed->alcd == 0x84);
|
|
CHECK((parsed->alcd & 0x80) != 0); // set bit
|
|
CHECK((parsed->alcd & 0x7F) == 4); // category
|
|
}
|
|
|
|
TEST_CASE("S5F3 enable/disable alarm send round-trip") {
|
|
auto on = s5f3_enable_alarm(kAlarmEnableByte, 42);
|
|
auto off = s5f3_enable_alarm(kAlarmDisableByte, 42);
|
|
auto pon = parse_s5f3(on);
|
|
auto poff = parse_s5f3(off);
|
|
REQUIRE(pon.has_value());
|
|
REQUIRE(poff.has_value());
|
|
CHECK((pon->aled & 0x80) != 0);
|
|
CHECK((poff->aled & 0x80) == 0);
|
|
CHECK(pon->alid == 42);
|
|
}
|
|
|
|
TEST_CASE("S5F6 alarm list builder marks active alarms with bit 7") {
|
|
std::vector<Alarm> alarms = {{1, "Door", 1}, {2, "Heater", 4}};
|
|
auto m = s5f6_list_alarms_data(alarms, [](uint32_t id) { return id == 2; });
|
|
REQUIRE(m.body.has_value());
|
|
REQUIRE(m.body->is_list());
|
|
REQUIRE(m.body->as_list().size() == 2);
|
|
const auto& row0 = m.body->as_list()[0].as_list();
|
|
const auto& row1 = m.body->as_list()[1].as_list();
|
|
CHECK(row0[0].as_bytes()[0] == 0x01); // door inactive: cat 1, bit 7 clear
|
|
CHECK(row1[0].as_bytes()[0] == 0x84); // heater active: cat 4, bit 7 set
|
|
}
|
|
|
|
TEST_CASE("S6F11 event-report round-trip preserves DATAID, CEID, reports") {
|
|
std::vector<ReportData> reports = {
|
|
{1000, {s2::Item::ascii("OnlineRemote")}},
|
|
{1001, {s2::Item::u4(uint32_t{42}), s2::Item::ascii("hello")}},
|
|
};
|
|
auto m = s6f11_event_report(7, 100, reports);
|
|
auto parsed = parse_s6f11(m);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->dataid == 7);
|
|
CHECK(parsed->ceid == 100);
|
|
REQUIRE(parsed->reports.size() == 2);
|
|
CHECK(parsed->reports[0].rptid == 1000);
|
|
CHECK(parsed->reports[0].values[0] == s2::Item::ascii("OnlineRemote"));
|
|
CHECK(parsed->reports[1].rptid == 1001);
|
|
CHECK(parsed->reports[1].values[0] == s2::Item::u4(uint32_t{42}));
|
|
}
|
|
|
|
TEST_CASE("S7F3 process-program send round-trip") {
|
|
auto m = s7f3_process_program_send("RECIPE-A", "step1\nstep2\n");
|
|
auto parsed = parse_s7f3(m);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->ppid == "RECIPE-A");
|
|
CHECK(parsed->ppbody == "step1\nstep2\n");
|
|
}
|
|
|
|
TEST_CASE("S2F25 / S2F26 loopback diagnostic round-trip") {
|
|
// Arbitrary binary payload — host sends, equipment echoes back.
|
|
const std::string payload("\x00\x01\x02\xFE\xFF some text", 14);
|
|
auto req = s2f25_loopback_diagnostic_request(payload);
|
|
CHECK(req.stream == 2);
|
|
CHECK(req.function == 25);
|
|
CHECK(req.reply_expected);
|
|
auto parsed_req = parse_s2f25(req);
|
|
REQUIRE(parsed_req.has_value());
|
|
CHECK(*parsed_req == payload);
|
|
|
|
auto rsp = s2f26_loopback_diagnostic_data(payload);
|
|
auto parsed_rsp = parse_s2f26(rsp);
|
|
REQUIRE(parsed_rsp.has_value());
|
|
CHECK(*parsed_rsp == payload);
|
|
}
|
|
|
|
TEST_CASE("S5F9 / S5F10 exception post round-trip") {
|
|
std::vector<std::string> recovery = {"RETRY", "ABORT", "MANUAL_INTERVENTION"};
|
|
auto m = s5f9_exception_post_notify(42, "FATAL", "vacuum lost", recovery);
|
|
CHECK(m.stream == 5);
|
|
CHECK(m.function == 9);
|
|
CHECK(m.reply_expected);
|
|
|
|
auto parsed = parse_s5f9(m);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->exid == 42);
|
|
CHECK(parsed->extype == "FATAL");
|
|
CHECK(parsed->exmessage == "vacuum lost");
|
|
CHECK(parsed->exrecvra == recovery);
|
|
|
|
CHECK(*ack_byte(s5f10_exception_post_confirm(AlarmAck::Accept)) == 0);
|
|
}
|
|
|
|
TEST_CASE("S5F11 / S5F12 exception clear round-trip") {
|
|
auto m = s5f11_exception_clear_notify(42, "FATAL", "vacuum restored");
|
|
auto parsed = parse_s5f11(m);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->exid == 42);
|
|
CHECK(parsed->extype == "FATAL");
|
|
CHECK(parsed->exmessage == "vacuum restored");
|
|
|
|
CHECK(*ack_byte(s5f12_exception_clear_confirm(AlarmAck::Accept)) == 0);
|
|
}
|
|
|
|
TEST_CASE("S7F19 / S7F20 EPPD list") {
|
|
auto req = s7f19_current_eppd_request();
|
|
CHECK(req.stream == 7);
|
|
CHECK(req.function == 19);
|
|
CHECK(req.reply_expected);
|
|
CHECK_FALSE(req.body.has_value());
|
|
|
|
auto data = s7f20_current_eppd_data({"RECIPE-A", "RECIPE-B"});
|
|
auto parsed = parse_s7f20(data);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(*parsed == std::vector<std::string>{"RECIPE-A", "RECIPE-B"});
|
|
}
|
|
|
|
TEST_CASE("S14F9 / S14F10 CreateControlJob round-trip") {
|
|
auto req = s14f9_create_control_job("CJ-1", {"PJ-1", "PJ-2"});
|
|
CHECK(req.stream == 14);
|
|
CHECK(req.function == 9);
|
|
CHECK(req.reply_expected);
|
|
|
|
auto parsed = parse_s14f9(req);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->ctljobid == "CJ-1");
|
|
CHECK(parsed->prjobids == std::vector<std::string>{"PJ-1", "PJ-2"});
|
|
|
|
auto ack = s14f10_create_control_job_ack("CJ-1", ObjectAck::Success);
|
|
auto parsed_ack = parse_s14f10(ack);
|
|
REQUIRE(parsed_ack.has_value());
|
|
CHECK(parsed_ack->ctljobid == "CJ-1");
|
|
CHECK(parsed_ack->ack == ObjectAck::Success);
|
|
}
|
|
|
|
TEST_CASE("S14F11 / S14F12 DeleteControlJob round-trip") {
|
|
auto req = s14f11_delete_control_job("CJ-1");
|
|
auto parsed = parse_s14f11(req);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(*parsed == "CJ-1");
|
|
|
|
auto ack = s14f12_delete_control_job_ack(ObjectAck::Denied_UnknownObject);
|
|
CHECK(*ack_byte(ack) == 2);
|
|
}
|
|
|
|
TEST_CASE("S16F11 / S16F12 PRJobCreate round-trip") {
|
|
auto req = s16f11_pr_job_create("PJ-1", "RECIPE-A", {"WFR-1", "WFR-2"});
|
|
CHECK(req.stream == 16);
|
|
CHECK(req.function == 11);
|
|
|
|
auto parsed = parse_s16f11(req);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->prjobid == "PJ-1");
|
|
CHECK(parsed->ppid == "RECIPE-A");
|
|
CHECK(parsed->mtrloutspec == std::vector<std::string>{"WFR-1", "WFR-2"});
|
|
|
|
CHECK(*ack_byte(s16f12_pr_job_create_ack(HostCmdAck::Accept)) == 0);
|
|
}
|
|
|
|
TEST_CASE("S16F13 / S16F14 PRJobDequeue round-trip") {
|
|
auto req = s16f13_pr_job_dequeue("PJ-1");
|
|
CHECK(*parse_s16f13(req) == "PJ-1");
|
|
CHECK(*ack_byte(s16f14_pr_job_dequeue_ack(HostCmdAck::CannotDoNow)) == 2);
|
|
}
|
|
|
|
TEST_CASE("S16F5 / S16F6 PRJobCommand round-trip") {
|
|
auto req = s16f5_pr_job_command("PJ-1", "PJSTART");
|
|
auto parsed = parse_s16f5(req);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->prjobid == "PJ-1");
|
|
CHECK(parsed->prcmd == "PJSTART");
|
|
CHECK(*ack_byte(s16f6_pr_job_command_ack(HostCmdAck::Accept)) == 0);
|
|
}
|
|
|
|
TEST_CASE("S16F9 PRJobAlert round-trip with typed state byte") {
|
|
auto m = s16f9_pr_job_alert("PJ-1", ProcessJobState::Processing);
|
|
auto parsed = parse_s16f9(m);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->prjobid == "PJ-1");
|
|
CHECK(parsed->prjobstate == ProcessJobState::Processing);
|
|
}
|
|
|
|
TEST_CASE("S16F27 / S16F28 CJobCommand round-trip") {
|
|
auto req = s16f27_cj_command("CJ-1", "CJSTART");
|
|
auto parsed = parse_s16f27(req);
|
|
REQUIRE(parsed.has_value());
|
|
CHECK(parsed->ctljobid == "CJ-1");
|
|
CHECK(parsed->ctljobcmd == "CJSTART");
|
|
CHECK(*ack_byte(s16f28_cj_command_ack(HostCmdAck::Accept)) == 0);
|
|
}
|