Files
secs-gem/tests/test_loader.cpp
T
raphael 1da56f973f feat(daemon): alarms by name + RequestControlState + WatchHealth (Phase A complete)
A2 — alarms: optional 'name:' on alarm config (a LOCAL key — SEMI only
defines numeric ALID + freetext ALTX; field appended last so existing
{id, text, category} brace-inits compile unchanged), parsed by the loader,
checked by the validator, shipped in equipment.yaml. SetAlarm/ClearAlarm
RPCs resolve config name OR stringified ALID via a constructor snapshot.

A3 — control state + health: RequestControlState fires operator events on
the io thread (read_sync) and reports what the E30 table actually did —
ACCEPT iff the equipment landed in the requested state, CANNOT_DO_NOW naming
the actual state otherwise (the shipped table has no operator path to
EquipmentOffline; the test pins that honesty). ATTEMPT_ONLINE is rejected as
transient. WatchHealth streams an immediate snapshot then pushes on link/
control-state changes via service observers (add_link_observer +
add_control_state_observer — the HandlerSlot work paying off), spool depth
sampled at the 500ms poll; ends on cancel or engine stop.

Tests: daemon suite 61 -> 101 assertions (alarm lifecycle by name/id/unknown,
WatchHealth initial + change push, all four RequestControlState semantics);
loader test for the alarm name (present + absent fallback); core 467/3055.
Interop now 15 checks incl. gRPC SetAlarm -> host receives S5F1 ALCD=0x84
ALID=1, and RequestControlState(HOST_OFFLINE) -> GetControlState confirms.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-06-10 19:47:31 +02:00

169 lines
6.2 KiB
C++

#include <doctest/doctest.h>
#include <filesystem>
#include <fstream>
#include <string>
#include "secsgem/config/loader.hpp"
#include "secsgem/secs2/item.hpp"
using namespace secsgem;
namespace gem = secsgem::gem;
namespace s2 = secsgem::secs2;
#ifndef SECSGEM_DATA_DIR
#error "SECSGEM_DATA_DIR not defined; see CMakeLists.txt"
#endif
TEST_CASE("control_state.yaml parses into the same shape as default_table()") {
auto cfg = config::load_control_state(SECSGEM_DATA_DIR "/control_state.yaml");
auto baseline = gem::ControlTransitionTable::default_table();
CHECK(cfg.initial == gem::ControlState::HostOffline);
// Same row count; same (from, on) pairs map to the same destination.
CHECK(cfg.table.size() == baseline.size());
for (const auto& r : baseline.rows()) {
const auto* loaded = cfg.table.find(r.from, r.on);
REQUIRE(loaded != nullptr);
CHECK(loaded->to == r.to);
CHECK(loaded->then == r.then);
CHECK(loaded->ack_code == r.ack_code);
}
}
TEST_CASE("equipment.yaml populates SVIDs, ECIDs, CEIDs, alarms, recipes, commands") {
gem::EquipmentDataModel m;
auto desc = config::load_equipment(SECSGEM_DATA_DIR "/equipment.yaml", m);
CHECK(desc.model_name == "SECSGEM-SIM");
CHECK(desc.software_rev == "0.1.0");
REQUIRE(desc.emit_on_control_change.has_value());
CHECK(*desc.emit_on_control_change == 100);
CHECK(m.svids.all().size() == 3);
CHECK(m.svids.get(1)->name == "ControlState");
CHECK(m.svids.get(3)->value == s2::Item::boolean(true));
CHECK(m.ecids.all().size() == 2);
CHECK(m.ecids.get(10)->value == s2::Item::u4(uint32_t{1}));
CHECK(m.events.all_events().size() >= 3);
CHECK(m.events.has_event(100));
CHECK(m.events.has_event(300));
CHECK(m.events.has_event(400)); // E94 CJ Executing
CHECK(m.events.has_event(401)); // E94 CJ Completed
CHECK(m.alarms.all().size() == 2);
CHECK(m.alarms.get(1)->text == "Chiller Temp High");
CHECK(m.alarms.get(1)->severity_category == 4);
CHECK(m.recipes.list().size() == 2);
CHECK(m.recipes.get("RECIPE-A").value().find("CHAMBER ARGON") != std::string::npos);
CHECK(m.commands.has("START"));
auto start = m.commands.dispatch("START", {});
CHECK(start.ack == gem::HostCmdAck::Accept);
CHECK(start.emit_ceid.value_or(0) == 300);
auto fault = m.commands.dispatch("FAULT", {});
CHECK(fault.set_alarm.value_or(0) == 1);
// Spool config loaded from YAML.
CHECK(m.spool.is_stream_spoolable(5));
CHECK(m.spool.is_stream_spoolable(6));
CHECK_FALSE(m.spool.is_stream_spoolable(1));
CHECK(m.spool.max_size() == 100);
// force_spool flag plumbed from YAML through CommandSpec.
auto on = m.commands.dispatch("SPOOL_ON", {});
auto off = m.commands.dispatch("SPOOL_OFF", {});
REQUIRE(on.force_spool.has_value());
CHECK(*on.force_spool == true);
REQUIRE(off.force_spool.has_value());
CHECK(*off.force_spool == false);
// Capabilities + equipment_type loaded for S1F20.
CHECK(desc.equipment_type == "EQUIPMENT");
REQUIRE(desc.capabilities.size() >= 5);
bool saw_spooling = false;
for (const auto& [code, name] : desc.capabilities) {
if (code == 14) saw_spooling = true;
}
CHECK(saw_spooling);
// DVIDs loaded for S1F22.
CHECK(m.dvids.all().size() == 2);
CHECK(m.dvids.get(100)->name == "WaferCounter");
CHECK(m.dvids.get(101)->units == "Torr");
}
TEST_CASE("loader surfaces YAML errors with file path") {
CHECK_THROWS_AS(config::load_equipment("/tmp/does-not-exist.yaml", *new gem::EquipmentDataModel),
config::ConfigError);
}
TEST_CASE("loader: process_job_state.yaml -> non-empty table") {
auto cfg = config::load_process_job_state(
std::string(SECSGEM_DATA_DIR) + "/process_job_state.yaml");
CHECK(cfg.initial == gem::ProcessJobState::Queued);
CHECK(cfg.table.size() >= 18);
// Spot-check: Queued + Select -> SettingUp.
const auto* row = cfg.table.find(gem::ProcessJobState::Queued,
gem::ProcessJobEvent::Select);
REQUIRE(row != nullptr);
REQUIRE(row->to.has_value());
CHECK(*row->to == gem::ProcessJobState::SettingUp);
}
TEST_CASE("loader: NoState rejected in PJ state table") {
const std::string path = "/tmp/pj_nostate.yaml";
std::ofstream(path) << "initial: NoState\ntransitions: []\n";
CHECK_THROWS_AS(config::load_process_job_state(path), config::ConfigError);
std::ofstream(path) << "initial: Queued\ntransitions:\n"
<< " - {from: NoState, on: select, to: SettingUp}\n";
CHECK_THROWS_AS(config::load_process_job_state(path), config::ConfigError);
std::ofstream(path) << "initial: Queued\ntransitions:\n"
<< " - {from: Queued, on: select, to: NoState}\n";
CHECK_THROWS_AS(config::load_process_job_state(path), config::ConfigError);
// `created` is the synthetic observer event — never legal in the table.
std::ofstream(path) << "initial: Queued\ntransitions:\n"
<< " - {from: Queued, on: created, to: SettingUp}\n";
CHECK_THROWS_AS(config::load_process_job_state(path), config::ConfigError);
}
TEST_CASE("loader: control_job_state.yaml -> non-empty table") {
auto cfg = config::load_control_job_state(
std::string(SECSGEM_DATA_DIR) + "/control_job_state.yaml");
CHECK(cfg.initial == gem::ControlJobState::Queued);
CHECK(cfg.table.size() >= 18);
const auto* row = cfg.table.find(gem::ControlJobState::Executing,
gem::ControlJobEvent::AllJobsComplete);
REQUIRE(row != nullptr);
REQUIRE(row->to.has_value());
CHECK(*row->to == gem::ControlJobState::Completed);
}
TEST_CASE("alarm optional name: parsed when present, empty when absent") {
gem::EquipmentDataModel m;
config::load_equipment(SECSGEM_DATA_DIR "/equipment.yaml", m);
// data/equipment.yaml names both alarms.
CHECK(m.alarms.get(1)->name == "chiller_temp_high");
CHECK(m.alarms.get(2)->name == "door_open");
// A config without `name:` yields an empty name (back-compat).
const auto path = std::filesystem::temp_directory_path() / "alarm_noname.yaml";
{
std::ofstream f(path);
f << "device: {id: 0, model_name: M, software_rev: R}\n"
"alarms:\n"
" - {id: 9, text: \"Unnamed\", category: 1}\n";
}
gem::EquipmentDataModel m2;
config::load_equipment(path.string(), m2);
CHECK(m2.alarms.get(9)->name.empty());
std::filesystem::remove(path);
}