711ee1b40f
The god-class is gone. Each capability is now its own focused store:
StatusVariableStore, DataVariableStore, EquipmentConstantStore (with EAC
range validation), EventReportSubscriptions, AlarmRegistry, RecipeStore,
Clock, HostCommandRegistry. Each is independently testable.
EquipmentDataModel becomes a small composite that holds one of each store
as a public member, plus three convenience methods (vid_value, vid_exists,
compose_reports_for) that span SVIDs+DVIDs and inject the right callbacks
into the EventReportSubscriptions.
New under include/secsgem/gem/store/:
status_variables.hpp StatusVariable, StatusVariableStore,
DataVariable, DataVariableStore
equipment_constants.hpp EquipmentConstant, EquipmentConstantStore,
EquipmentAck. set_value() now validates
numeric values against min_str/max_str and
returns EAC=4 on out-of-range — closes the
COMPLIANCE.md gap about EC range validation.
event_reports.hpp CollectionEvent, Report, ReportData,
EventReportSubscriptions + DefineReportAck,
LinkEventAck, EnableEventAck. The store is
pure data; VidLookup / VidExists callbacks
are injected at define / emit time so the
service doesn't back-reference the SVID
store.
alarms.hpp Alarm, AlarmAck, AlarmRegistry.
Encapsulates the (enabled, active) sets and
ALCD byte computation.
recipes.hpp ProcessProgramAck, RecipeStore.
clock.hpp TimeAck, Clock. set_time_string applies an
offset so subsequent reads reflect the host
time without mutating system clock.
host_commands.hpp HostCmdAck, CommandParameter,
HostCommandRegistry with Spec/Result types.
include/secsgem/gem/data_model.hpp shrinks to a 50-line composite:
struct EquipmentDataModel {
StatusVariableStore svids;
DataVariableStore dvids;
EquipmentConstantStore ecids;
EventReportSubscriptions events;
AlarmRegistry alarms;
RecipeStore recipes;
Clock clock;
HostCommandRegistry commands;
/* + vid_value, vid_exists, compose_reports_for sugar */
};
src/gem/data_model.cpp is gone — every store is inline header-only.
include/secsgem/gem/messages_helpers.hpp picks up EventReportAck and
TerminalAck (S6F12 / S10F2-F4 ack enums that aren't tied to any one
store).
Call-site updates:
apps/secs_server.cpp model->status_variable(id) -> model->svids.get(id),
model->equipment_constant(id) -> model->ecids.get(id),
model->alarm_set(id) -> model->alarms.set_active(id),
model->dispatch_command(...) -> model->commands.dispatch(...),
and similar across every handler. Plus
model->current_time_string() -> model->clock....
src/config/loader.cpp model.add_status_variable(sv) -> model.svids.add(sv),
and similar. HostCommandRegistry::Spec replaces
EquipmentDataModel::CommandSpec.
apps/secs_client.cpp std::vector<EquipmentDataModel::CommandParam> ->
std::vector<CommandParameter>.
tests/test_data_model.cpp Rewritten around the individual stores;
each gets its own TEST_CASE block. Adds three
new cases covering EC range validation (in
range / out of range / non-numeric skipped).
tests/test_loader.cpp m.has_event(100) -> m.events.has_event(100),
etc.
Verified:
- Tests: 69 cases / 370 assertions pass (was 67 / 384; -14 stale
composite-API assertions + 16 new store-level assertions covering
EC range validation and the per-store add/get/list/delete paths).
- Demo: byte-identical behaviour across the full 17-step flow.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
104 lines
3.7 KiB
C++
104 lines
3.7 KiB
C++
#pragma once
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#include <cstdint>
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#include <map>
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#include <optional>
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#include <stdexcept>
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#include <string>
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#include <utility>
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#include <variant>
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#include <vector>
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#include "secsgem/secs2/item.hpp"
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namespace secsgem::gem {
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namespace s2 = secsgem::secs2;
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struct EquipmentConstant {
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uint32_t id;
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std::string name;
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std::string units;
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s2::Item value;
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s2::Item def_value;
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std::string min_str; // bounds for S2F30 + EAC validation; "" disables check
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std::string max_str;
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};
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enum class EquipmentAck : uint8_t {
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Accept = 0,
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Denied_UnknownEcid = 1,
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Denied_Busy = 3,
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Denied_OutOfRange = 4,
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};
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class EquipmentConstantStore {
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public:
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void add(EquipmentConstant ec) { by_id_.insert_or_assign(ec.id, std::move(ec)); }
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std::optional<EquipmentConstant> get(uint32_t id) const {
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auto it = by_id_.find(id);
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if (it == by_id_.end()) return std::nullopt;
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return it->second;
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}
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std::vector<EquipmentConstant> all() const {
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std::vector<EquipmentConstant> out;
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out.reserve(by_id_.size());
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for (const auto& [_, ec] : by_id_) out.push_back(ec);
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return out;
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}
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bool has(uint32_t id) const { return by_id_.count(id) > 0; }
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// Validates against min/max for numeric formats (only when min_str and
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// max_str parse cleanly). Returns Denied_UnknownEcid / Denied_OutOfRange
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// per S2F16 EAC. This is the rule that closes the COMPLIANCE.md gap
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// about "EC range validation against min/max".
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EquipmentAck set_value(uint32_t id, s2::Item value) {
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auto it = by_id_.find(id);
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if (it == by_id_.end()) return EquipmentAck::Denied_UnknownEcid;
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if (!in_range(it->second, value)) return EquipmentAck::Denied_OutOfRange;
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it->second.value = std::move(value);
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return EquipmentAck::Accept;
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}
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private:
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// For numeric formats, parse min_str / max_str as integers / doubles and
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// compare against the first value of the array (we don't support setting
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// multi-element ECs in this implementation).
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static bool in_range(const EquipmentConstant& ec, const s2::Item& value) {
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if (ec.min_str.empty() && ec.max_str.empty()) return true;
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auto parse_d = [](const std::string& s, double& out) {
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if (s.empty()) return false;
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try { out = std::stod(s); return true; } catch (...) { return false; }
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};
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double v;
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if (!extract_number(value, v)) return true; // unknown format: skip
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double lo = -1e300, hi = 1e300;
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parse_d(ec.min_str, lo);
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parse_d(ec.max_str, hi);
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return v >= lo && v <= hi;
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}
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static bool extract_number(const s2::Item& item, double& out) {
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switch (item.format()) {
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case s2::Format::U1: out = std::get<std::vector<uint8_t>>(item.storage()).front(); return true;
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case s2::Format::U2: out = std::get<std::vector<uint16_t>>(item.storage()).front(); return true;
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case s2::Format::U4: out = std::get<std::vector<uint32_t>>(item.storage()).front(); return true;
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case s2::Format::U8: out = static_cast<double>(std::get<std::vector<uint64_t>>(item.storage()).front()); return true;
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case s2::Format::I1: out = std::get<std::vector<int8_t>>(item.storage()).front(); return true;
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case s2::Format::I2: out = std::get<std::vector<int16_t>>(item.storage()).front(); return true;
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case s2::Format::I4: out = std::get<std::vector<int32_t>>(item.storage()).front(); return true;
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case s2::Format::I8: out = static_cast<double>(std::get<std::vector<int64_t>>(item.storage()).front()); return true;
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case s2::Format::F4: out = std::get<std::vector<float>>(item.storage()).front(); return true;
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case s2::Format::F8: out = std::get<std::vector<double>>(item.storage()).front(); return true;
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default: return false;
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}
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}
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std::map<uint32_t, EquipmentConstant> by_id_;
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};
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} // namespace secsgem::gem
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