5f1444c756
Adds the Carrier Management wire surface that drives the FSMs from D1:
S3F17 / S3F18 CarrierAction (host issues ProceedWithCarrier /
CancelCarrier / BindCarrierID / etc.; CommandParameter
list is reused from S2F41).
S3F23 / S3F24 PortGroupChangeReport (equipment notifies host of port
group composition changes).
S3F25 / S3F26 CarrierTransfer (host instructs source -> target port
transfer).
S3F27 / S3F28 CancelCarrier (host cancels an outstanding carrier op).
Two new ack enums in messages_helpers.hpp:
CarrierActionAck — CAACK byte; covers the common error responses
(CarrierIDUnknown, Inaccessible, ActionInProgress).
PortGroupAck — PGACK byte (Accept / Error).
Round-trip tests for all four pairs. Server-side dispatch + the
CarrierStore + LoadPortStore that the FSMs key into land in D3/D4.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
193 lines
6.9 KiB
C++
193 lines
6.9 KiB
C++
#pragma once
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#include <cstdint>
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#include <functional>
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#include <optional>
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#include <string>
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#include <variant>
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#include <vector>
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#include "secsgem/gem/data_model.hpp"
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#include "secsgem/secs2/item.hpp"
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#include "secsgem/secs2/message.hpp"
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// Hand-written helpers used by the generated messages.hpp: scalar accessors
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// (one per SECS-II type), a few list helpers, and the two special-case
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// messages whose shape doesn't fit the codegen schema (S1F4 needs per-row
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// optional values; S5F6 needs a callback to compute ALCD per alarm).
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namespace secsgem::gem {
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namespace s2 = secsgem::secs2;
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namespace secs2 = secsgem::secs2; // alias used by generated code
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// ---- Scalar accessors ----------------------------------------------------
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inline std::optional<std::string> as_ascii(const s2::Item& item) {
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if (item.format() != s2::Format::ASCII) return std::nullopt;
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return item.as_ascii();
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}
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inline std::optional<std::string> as_binary_string(const s2::Item& item) {
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if (item.format() != s2::Format::Binary) return std::nullopt;
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const auto& v = item.as_bytes();
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return std::string(v.begin(), v.end());
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}
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inline std::optional<uint8_t> as_binary_first(const s2::Item& item) {
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if (item.format() != s2::Format::Binary) return std::nullopt;
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const auto& v = item.as_bytes();
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if (v.empty()) return std::nullopt;
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return v.front();
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}
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inline std::optional<bool> as_boolean(const s2::Item& item) {
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if (item.format() != s2::Format::Boolean) return std::nullopt;
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const auto& v = item.as_bytes();
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if (v.empty()) return std::nullopt;
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return v.front() != 0;
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}
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// Templated typed-scalar accessor — one specialization per SECS-II numeric.
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template <typename Vec>
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inline std::optional<typename Vec::value_type> first_or_none(const s2::Item& item,
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s2::Format want) {
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if (item.format() != want) return std::nullopt;
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const auto& v = std::get<Vec>(item.storage());
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if (v.empty()) return std::nullopt;
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return v.front();
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}
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inline std::optional<uint8_t> as_u1_scalar(const s2::Item& i) { return first_or_none<std::vector<uint8_t>>(i, s2::Format::U1); }
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inline std::optional<uint16_t> as_u2_scalar(const s2::Item& i) { return first_or_none<std::vector<uint16_t>>(i, s2::Format::U2); }
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inline std::optional<uint32_t> as_u4_scalar(const s2::Item& i) { return first_or_none<std::vector<uint32_t>>(i, s2::Format::U4); }
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inline std::optional<uint64_t> as_u8_scalar(const s2::Item& i) { return first_or_none<std::vector<uint64_t>>(i, s2::Format::U8); }
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inline std::optional<int8_t> as_i1_scalar(const s2::Item& i) { return first_or_none<std::vector<int8_t>>(i, s2::Format::I1); }
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inline std::optional<int16_t> as_i2_scalar(const s2::Item& i) { return first_or_none<std::vector<int16_t>>(i, s2::Format::I2); }
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inline std::optional<int32_t> as_i4_scalar(const s2::Item& i) { return first_or_none<std::vector<int32_t>>(i, s2::Format::I4); }
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inline std::optional<int64_t> as_i8_scalar(const s2::Item& i) { return first_or_none<std::vector<int64_t>>(i, s2::Format::I8); }
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inline std::optional<float> as_f4_scalar(const s2::Item& i) { return first_or_none<std::vector<float>>(i, s2::Format::F4); }
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inline std::optional<double> as_f8_scalar(const s2::Item& i) { return first_or_none<std::vector<double>>(i, s2::Format::F8); }
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// ---- List helpers --------------------------------------------------------
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inline s2::Item u4_list_item(const std::vector<uint32_t>& ids) {
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s2::Item::List children;
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children.reserve(ids.size());
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for (auto id : ids) children.push_back(s2::Item::u4(id));
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return s2::Item::list(std::move(children));
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}
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inline std::optional<std::vector<uint32_t>> parse_u4_list_body(const s2::Message& m) {
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if (!m.body || !m.body->is_list()) return std::nullopt;
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std::vector<uint32_t> out;
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for (const auto& c : m.body->as_list()) {
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auto v = as_u4_scalar(c);
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if (!v) return std::nullopt;
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out.push_back(*v);
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}
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return out;
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}
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// Generic "body is <B ack>" reader, used by tests + apps as a quick helper.
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inline std::optional<uint8_t> ack_byte(const s2::Message& m) {
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if (!m.body) return std::nullopt;
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return as_binary_first(*m.body);
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}
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// ---- S1F4: list of values, nullopt -> <L,0> -----------------------------
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inline s2::Message s1f4_selected_status_data(
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const std::vector<std::optional<s2::Item>>& values) {
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s2::Item::List children;
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children.reserve(values.size());
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for (const auto& v : values) {
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children.push_back(v ? *v : s2::Item::list({}));
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}
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return s2::Message(1, 4, false, s2::Item::list(std::move(children)));
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}
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// ---- S5F6: alarm directory; ALCD bit-7 from per-row callback ------------
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inline s2::Message s5f6_list_alarms_data(const std::vector<Alarm>& alarms,
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const std::function<bool(uint32_t)>& active) {
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s2::Item::List rows;
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rows.reserve(alarms.size());
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for (const auto& a : alarms) {
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const uint8_t alcd = (a.severity_category & 0x7F) |
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static_cast<uint8_t>(active(a.id) ? 0x80 : 0x00);
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rows.push_back(s2::Item::list(
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{s2::Item::binary({alcd}), s2::Item::u4(a.id), s2::Item::ascii(a.text)}));
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}
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return s2::Message(5, 6, false, s2::Item::list(std::move(rows)));
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}
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// ---- ALED byte constants for S5F3 ---------------------------------------
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inline constexpr uint8_t kAlarmEnableByte = 0x80;
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inline constexpr uint8_t kAlarmDisableByte = 0x00;
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// ---- Ack enums that aren't tied to a specific store -------------------
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enum class EventReportAck : uint8_t { // S6F12
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Accept = 0,
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Denied = 1,
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};
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enum class TerminalAck : uint8_t { // S10F2, S10F4
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Accepted = 0,
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WillNotDisplay = 1,
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TerminalNotAvailable = 2,
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};
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// E5 §13 S12 (Wafer Maps). Encoded as separate enums even though the
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// underlying byte semantics differ slightly across F2/F6/F8 — keeping
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// them distinct preserves call-site readability.
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// Reference point on a wafer/substrate map (E5 §13.7.4 REFP). Declared
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// out of line so the messages.yaml catalog can mark it `external_struct`
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// and reuse the same C++ type across F1 / F4.
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struct ReferencePoint {
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int32_t x;
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int32_t y;
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};
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enum class MapSetupAck : uint8_t { // S12F2 SDACK
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Accept = 0,
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Error = 1,
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};
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enum class MapTransmitGrant : uint8_t { // S12F6 GRANT
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Granted = 0,
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BusyTryAgain = 1,
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NoSpaceAvailable = 2,
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DuplicateMID = 3,
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MaterialNotRecognized = 4,
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};
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enum class MapDataAck : uint8_t { // S12F8 MAPER
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Accept = 0,
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FormatError = 1,
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UnknownID = 2,
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AbortNoMap = 3,
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};
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// E87 §10.2 carrier-action ack code (CAACK). Same byte used by S3F18,
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// S3F26 (carrier transfer), and S3F28 (cancel carrier).
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enum class CarrierActionAck : uint8_t {
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Accept = 0,
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Invalid = 1,
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ParameterInvalid = 2,
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CarrierIDUnknown = 3,
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CarrierActionInvalid = 4,
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CarrierInaccessible = 5,
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CarrierActionInProgress = 6,
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};
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// E87 §10.4 port-group change ack code.
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enum class PortGroupAck : uint8_t {
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Accept = 0,
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Error = 1,
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};
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} // namespace secsgem::gem
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