Files
secs-gem/include/secsgem/daemon/equipment_service.hpp
T
raphael b1772cfefd feat(daemon): Phase D — GEM300 in-the-loop (jobs, recipes, EC changes)
Semantics settled and documented: v1 is observe-and-report. The engine keeps
acking S16/S3/S7/S2F15 from its FSM tables — exactly the behaviour both
reference implementations validated — while the tool observes lifecycle
events on the Subscribe stream and reports physical progress back. Gating
stays the documented v2 deferred-reply item.

Engine: two new store observers (HandlerSlot pattern) — RecipeStore fires
(ppid, body) after an add (S7F3 downloads), EquipmentConstantStore fires
(id, value) on ACCEPTED S2F15 writes only. Unit-tested.

Daemon: the service registers PJ/recipe/EC observers (io thread; add_
observers coexist with register_default_handlers' primaries) and fans the
new HostRequest variants out via push_request (fire-and-forget, no-
buffering contract). ProcessJob carries action (Start->START, Resume->
RESUME, Paused->PAUSE, Stopping->STOP, Aborting->ABORT) + recipe + material
bindings read store-side on the io thread. ReportProcessJob maps SETTING_UP
->SetupComplete, COMPLETE->ProcessComplete, ABORTED->AbortComplete via
read_sync; PROCESSING is informational; unknown job => INVALID_OBJECT,
table-rejected transition => CANNOT_DO_NOW. Carriers deferred (CarrierStore
has no observer machinery; ReportCarrier stays UNIMPLEMENTED) — roadmap.

Python client: on_process_job / on_recipe / on_constant_change decorators +
report_job(job_id, state); ProcessJob dataclass exported.

Tests: daemon suite 141 -> 175 assertions — the full in-process loop
(S16F11 create -> tool setup -> S16F5 PJSTART -> stream ProcessJob with
recipe+carriers -> ReportProcessJob(COMPLETE) -> FSM at ProcessComplete),
rejection paths, S7F3 -> ProcessProgram, S2F15 -> ConstantChange with the
configured name. Core 475/3097 (observer units). Live regression: daemon
interop 20 checks + pyclient 13 checks still green against the running
daemon.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-06-10 23:53:45 +02:00

633 lines
26 KiB
C++

#pragma once
// The gRPC Equipment service: translates proto/secsgem/v1 RPCs onto an
// EquipmentRuntime. Header-only so both secs_gemd and the daemon tests share
// one definition.
//
// Threading: gRPC handlers run on gRPC's own threads while the engine's
// io thread owns the data model, so handlers must not read the live stores.
// The constructor therefore snapshots the name->id/format maps (immutable
// after config load) — construct the service BEFORE run_async(). All writes
// go through the runtime's posting API.
#include <grpcpp/grpcpp.h>
#include <algorithm>
#include <atomic>
#include <chrono>
#include <condition_variable>
#include <cstdint>
#include <deque>
#include <map>
#include <memory>
#include <mutex>
#include <optional>
#include <string>
#include <utility>
#include <vector>
#include "secsgem/gem/runtime.hpp"
#include "secsgem/secs2/item.hpp"
#include "secsgem/v1/equipment.grpc.pb.h"
#include "secsgem/v1/equipment.pb.h"
namespace secsgem::daemon {
namespace gem = secsgem::gem;
namespace s2 = secsgem::secs2;
namespace pb = secsgem::v1;
// proto Value -> SECS-II Item, honouring the variable's declared wire format
// (from equipment.yaml) so the host sees the same format in S1F11 namelists
// and in reported values. E.g. real 2.5 -> F4 if the variable is F4.
inline s2::Item to_item(const pb::Value& v, s2::Format want) {
using F = s2::Format;
switch (v.kind_case()) {
case pb::Value::kText:
return s2::Item::ascii(v.text());
case pb::Value::kBoolean:
return s2::Item::boolean(v.boolean());
case pb::Value::kBinary:
return s2::Item::binary({v.binary().begin(), v.binary().end()});
case pb::Value::kReal:
return want == F::F4 ? s2::Item::f4(static_cast<float>(v.real()))
: s2::Item::f8(v.real());
case pb::Value::kInteger: {
const int64_t n = v.integer();
switch (want) {
case F::U1: return s2::Item::u1(static_cast<uint8_t>(n));
case F::U2: return s2::Item::u2(static_cast<uint16_t>(n));
case F::U4: return s2::Item::u4(static_cast<uint32_t>(n));
case F::U8: return s2::Item::u8(static_cast<uint64_t>(n));
case F::I1: return s2::Item::i1(static_cast<int8_t>(n));
case F::I2: return s2::Item::i2(static_cast<int16_t>(n));
case F::I4: return s2::Item::i4(static_cast<int32_t>(n));
case F::F4: return s2::Item::f4(static_cast<float>(n));
case F::F8: return s2::Item::f8(static_cast<double>(n));
case F::Boolean: return s2::Item::boolean(n != 0);
default: return s2::Item::i8(n);
}
}
case pb::Value::kList: {
// TODO(daemon): list elements inherit the variable's scalar format;
// honouring per-element formats needs the declared Item's nested shape.
s2::Item::List items;
for (const auto& e : v.list().items()) items.push_back(to_item(e, want));
return s2::Item::list(std::move(items));
}
default:
// Unreachable: callers reject KIND_NOT_SET before converting (see
// value_is_set). Kept as a safe fallback for future oneof additions.
return s2::Item::ascii("");
}
}
// Validate a client-supplied Value before conversion. An unset oneof would
// otherwise silently become ASCII "" — reject it at the API edge instead.
inline bool value_is_set(const pb::Value& v) {
return v.kind_case() != pb::Value::KIND_NOT_SET;
}
// SECS-II Item -> proto Value (the read direction). Single-element numeric
// arrays — the overwhelmingly common case — become scalars; multi-element
// arrays become a List so nothing is lost.
// TODO(daemon): C2 (2-byte Unicode) currently surfaces as integer code
// points (it shares storage with U2); convert to text when a tool needs it.
// TODO(daemon): U8 values above 2^63-1 wrap through the sint64 integer
// field; switch Value to a dedicated uint64 arm if that ever bites.
inline pb::Value from_item(const s2::Item& item) {
pb::Value out;
switch (item.format()) {
case s2::Format::List: {
auto* list = out.mutable_list();
for (const auto& child : item.as_list()) *list->add_items() = from_item(child);
return out;
}
case s2::Format::ASCII:
case s2::Format::JIS8:
out.set_text(item.as_ascii());
return out;
case s2::Format::Binary: {
const auto& b = item.as_bytes();
out.set_binary(std::string(b.begin(), b.end()));
return out;
}
case s2::Format::Boolean: {
const auto& b = item.as_bytes();
if (b.size() == 1) {
out.set_boolean(b[0] != 0);
} else {
auto* list = out.mutable_list();
for (auto v : b) list->add_items()->set_boolean(v != 0);
}
return out;
}
default:
break; // numeric formats: handled generically below
}
return std::visit(
[&](const auto& vec) -> pb::Value {
using V = std::decay_t<decltype(vec)>;
if constexpr (std::is_same_v<V, s2::Item::List> ||
std::is_same_v<V, std::string>) {
return out; // unreachable: handled above
} else {
auto set_one = [](pb::Value& dst, auto v) {
if constexpr (std::is_floating_point_v<decltype(v)>)
dst.set_real(static_cast<double>(v));
else
dst.set_integer(static_cast<int64_t>(v));
};
if (vec.size() == 1) {
set_one(out, vec[0]);
} else {
auto* list = out.mutable_list();
for (auto v : vec) set_one(*list->add_items(), v);
}
return out;
}
},
item.storage());
}
inline pb::ControlState::State to_proto_state(gem::ControlState s) {
switch (s) {
case gem::ControlState::EquipmentOffline: return pb::ControlState::EQUIPMENT_OFFLINE;
case gem::ControlState::AttemptOnline: return pb::ControlState::ATTEMPT_ONLINE;
case gem::ControlState::HostOffline: return pb::ControlState::HOST_OFFLINE;
case gem::ControlState::OnlineLocal: return pb::ControlState::ONLINE_LOCAL;
case gem::ControlState::OnlineRemote: return pb::ControlState::ONLINE_REMOTE;
}
return pb::ControlState::EQUIPMENT_OFFLINE;
}
class EquipmentService final : public pb::Equipment::Service {
public:
// Snapshots the (immutable) name->id/format dictionaries and registers the
// health observers. Construct before run_async() so the model is read (and
// observers land) while the io thread isn't running yet.
explicit EquipmentService(gem::EquipmentRuntime& rt) : rt_(rt) {
for (const auto& sv : rt.model().svids.all())
vars_.insert({sv.name, {sv.id, sv.value.format()}});
for (const auto& dv : rt.model().dvids.all())
vars_.insert({dv.name, {dv.id, dv.value.format()}});
for (const auto& ev : rt.model().events.all_events())
events_.insert({ev.name, ev.id});
for (const auto& al : rt.model().alarms.all()) {
if (!al.name.empty()) alarms_.insert({al.name, al.id});
alarms_.insert({std::to_string(al.id), al.id}); // always addressable by id
}
// Health signals: bump a version + wake WatchHealth streams whenever the
// HSMS link or the control state changes (observers fire on the io thread;
// add_ observers survive register_default_handlers' primary set_).
rt.add_link_observer([this](bool selected) {
link_selected_.store(selected, std::memory_order_relaxed);
bump_health();
});
rt.add_control_state_observer(
[this](gem::ControlState, gem::ControlState, gem::ControlEvent) {
bump_health();
});
for (const auto& ec : rt.model().ecids.all())
ecnames_.insert({ec.id, ec.name});
// GEM300 in-the-loop (Phase D, observe-and-report): forward job
// lifecycle, recipe downloads, and accepted EC writes onto the
// Subscribe stream. Observers fire on the io thread; push_request only
// takes the subscriber mutex briefly. add_ observers coexist with the
// primary handlers register_default_handlers installs (HandlerSlot).
rt.model().process_jobs.add_state_change_handler(
[this](const std::string& prjobid, gem::ProcessJobState,
gem::ProcessJobState to, gem::ProcessJobEvent trig) {
pb::ProcessJob::Action action;
using PS = gem::ProcessJobState;
using PE = gem::ProcessJobEvent;
if (to == PS::Processing && trig == PE::Start) action = pb::ProcessJob::START;
else if (to == PS::Processing && trig == PE::Resume) action = pb::ProcessJob::RESUME;
else if (to == PS::Paused) action = pb::ProcessJob::PAUSE;
else if (to == PS::Stopping) action = pb::ProcessJob::STOP;
else if (to == PS::Aborting) action = pb::ProcessJob::ABORT;
else return; // SettingUp/complete/etc.: not tool work
pb::HostRequest hr;
auto* job = hr.mutable_process_job();
job->set_job_id(prjobid);
job->set_action(action);
// Observer runs on the io thread — reading the store is safe.
if (const auto* pj = rt_.model().process_jobs.get(prjobid)) {
job->set_recipe(pj->ppid);
for (const auto& m : pj->mtrloutspec) job->add_carriers(m);
}
push_request(std::move(hr));
});
rt.model().recipes.add_added_handler(
[this](const std::string& ppid, const std::string& body) {
pb::HostRequest hr;
hr.mutable_process_program()->set_ppid(ppid);
hr.mutable_process_program()->set_body(body);
push_request(std::move(hr));
});
rt.model().ecids.add_changed_handler(
[this](uint32_t ecid, const s2::Item& value) {
pb::HostRequest hr;
auto it = ecnames_.find(ecid);
hr.mutable_constant()->set_name(
it != ecnames_.end() ? it->second : std::to_string(ecid));
*hr.mutable_constant()->mutable_value() = from_item(value);
push_request(std::move(hr));
});
// Host commands -> the Subscribe stream (the HCACK-4 contract). For every
// YAML-declared command, install a behaviour handler that pushes the
// command to subscribed tool clients and answers the host immediately
// with AcceptedWillFinishLater; with NO subscriber it returns the
// command's declarative ack — i.e. exactly the pre-daemon behaviour, and
// honest (never "will finish later" for work nobody will do). Runs on
// the io thread; only briefly takes the subscriber mutex.
for (const auto& rcmd : rt.model().commands.names()) {
const auto declarative =
rt.model().commands.spec(rcmd)->ack; // names() came from the map
rt.on_command(rcmd, [this, declarative](
const std::string& cmd,
const std::vector<gem::CommandParameter>& params) {
return forward_command(cmd, params, declarative);
});
}
}
grpc::Status SetVariables(grpc::ServerContext*, const pb::VariableUpdate* req,
pb::Ack* resp) override {
for (const auto& kv : req->values()) {
auto it = vars_.find(kv.first);
if (it == vars_.end()) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("no variable named '" + kv.first + "'");
return grpc::Status::OK;
}
if (!value_is_set(kv.second)) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("value for '" + kv.first + "' has no kind set");
return grpc::Status::OK;
}
rt_.set_variable(it->second.vid, to_item(kv.second, it->second.format));
}
resp->set_code(pb::Ack::ACCEPT);
return grpc::Status::OK;
}
grpc::Status FireEvent(grpc::ServerContext*, const pb::Event* req,
pb::Ack* resp) override {
// Optional per-fire variable values, then trigger the collection event.
for (const auto& kv : req->data()) {
auto it = vars_.find(kv.first);
if (it == vars_.end()) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("no variable named '" + kv.first + "'");
return grpc::Status::OK;
}
if (!value_is_set(kv.second)) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("value for '" + kv.first + "' has no kind set");
return grpc::Status::OK;
}
rt_.set_variable(it->second.vid, to_item(kv.second, it->second.format));
}
auto ev = events_.find(req->name());
if (ev == events_.end()) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("no event named '" + req->name() + "'");
return grpc::Status::OK;
}
rt_.emit_event(ev->second);
resp->set_code(pb::Ack::ACCEPT);
return grpc::Status::OK;
}
grpc::Status SetAlarm(grpc::ServerContext*, const pb::Alarm* req,
pb::Ack* resp) override {
return alarm_action(req->name(), /*set=*/true, resp);
}
grpc::Status ClearAlarm(grpc::ServerContext*, const pb::Alarm* req,
pb::Ack* resp) override {
return alarm_action(req->name(), /*set=*/false, resp);
}
grpc::Status GetVariables(grpc::ServerContext*, const pb::VariableQuery* req,
pb::VariableSnapshot* resp) override {
// Resolve names against the snapshot maps (empty query = everything).
std::vector<std::pair<std::string, uint32_t>> wanted;
if (req->names().empty()) {
wanted.reserve(vars_.size());
for (const auto& [name, ref] : vars_) wanted.emplace_back(name, ref.vid);
} else {
for (const auto& name : req->names()) {
auto it = vars_.find(name);
if (it == vars_.end())
return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT,
"no variable named '" + name + "'");
wanted.emplace_back(name, it->second.vid);
}
}
// Mutable values live on the io thread — read them there (read_sync is
// the standard pattern; see runtime.hpp).
std::vector<uint32_t> vids;
vids.reserve(wanted.size());
for (const auto& w : wanted) vids.push_back(w.second);
auto values = rt_.read_sync([this, vids]() {
std::vector<std::optional<s2::Item>> out;
out.reserve(vids.size());
for (auto vid : vids) out.push_back(rt_.model().vid_value(vid));
return out;
});
if (!values)
return grpc::Status(grpc::StatusCode::UNAVAILABLE,
"engine io thread did not answer (not running?)");
for (std::size_t i = 0; i < wanted.size(); ++i) {
if (!(*values)[i]) continue; // vid vanished — defensive, can't happen
(*resp->mutable_values())[wanted[i].first] = from_item(*(*values)[i]);
}
return grpc::Status::OK;
}
grpc::Status GetControlState(grpc::ServerContext*, const pb::Empty*,
pb::ControlState* resp) override {
// Thread-safe: control_state() reads the runtime's atomic mirror.
resp->set_state(to_proto_state(rt_.control_state()));
return grpc::Status::OK;
}
// Everything the host asks of the tool, as a stream. v1 contract:
// - firehose: every subscriber receives every host request;
// - NO buffering: commands arriving with no subscriber take the
// declarative ack instead (see the constructor's forwarding handler);
// - the S2F42 already went out as HCACK-4 when a command appears here —
// report the real outcome via FireEvent/SetAlarm; CompleteCommand
// correlates/audits.
grpc::Status Subscribe(grpc::ServerContext* ctx, const pb::SubscribeRequest* req,
grpc::ServerWriter<pb::HostRequest>* writer) override {
auto sub = std::make_shared<Subscriber>();
{
std::lock_guard<std::mutex> lk(subs_mu_);
subs_.push_back(sub);
}
rt_.log("tool client subscribed" +
(req->client().empty() ? "" : " (" + req->client() + ")"));
bool alive = true;
while (alive && !ctx->IsCancelled()) {
std::optional<pb::HostRequest> next;
{
std::unique_lock<std::mutex> lk(subs_mu_);
subs_cv_.wait_for(lk, std::chrono::milliseconds(500),
[&] { return !sub->queue.empty(); });
if (!sub->queue.empty()) {
next = std::move(sub->queue.front());
sub->queue.pop_front();
}
}
if (next) alive = writer->Write(*next); // write OUTSIDE the lock
}
{
std::lock_guard<std::mutex> lk(subs_mu_);
subs_.erase(std::remove(subs_.begin(), subs_.end(), sub), subs_.end());
}
rt_.log("tool client unsubscribed");
return grpc::Status::OK;
}
grpc::Status CompleteCommand(grpc::ServerContext*, const pb::CommandResult* req,
pb::Ack* resp) override {
std::string rcmd;
{
std::lock_guard<std::mutex> lk(subs_mu_);
auto it = pending_.find(req->id());
if (it == pending_.end()) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("unknown command id '" + req->id() + "'");
return grpc::Status::OK;
}
rcmd = it->second;
pending_.erase(it);
}
rt_.log("command '" + rcmd + "' id=" + req->id() + " completed by tool (ack=" +
std::to_string(static_cast<int>(req->ack().code())) + ")");
resp->set_code(pb::Ack::ACCEPT);
return grpc::Status::OK;
}
// E40 progress reports (Phase D, observe-and-report): the tool advances
// the physical work and tells the engine; the engine drives the FSM and
// emits the matching S16F9 alert / CEIDs to the host. PROCESSING is
// informational (the engine entered it when the host commanded Start).
grpc::Status ReportProcessJob(grpc::ServerContext*, const pb::ProcessJobState* req,
pb::Ack* resp) override {
const std::string job_id = req->job_id();
const auto state = req->state();
auto outcome = rt_.read_sync([this, job_id, state]() -> std::optional<bool> {
auto& pjs = rt_.model().process_jobs;
if (!pjs.has(job_id)) return std::nullopt;
switch (state) {
case pb::ProcessJobState::SETTING_UP:
return pjs.fire_internal(job_id, gem::ProcessJobEvent::SetupComplete);
case pb::ProcessJobState::COMPLETE:
return pjs.fire_internal(job_id, gem::ProcessJobEvent::ProcessComplete);
case pb::ProcessJobState::ABORTED:
return pjs.fire_internal(job_id, gem::ProcessJobEvent::AbortComplete);
default:
return true; // PROCESSING: informational
}
});
if (!outcome) {
resp->set_code(pb::Ack::CANNOT_DO_NOW);
resp->set_message("engine io thread did not answer (not running?)");
} else if (!*outcome) {
resp->set_code(pb::Ack::INVALID_OBJECT);
resp->set_message("no process job '" + job_id + "'");
} else if (!**outcome) {
resp->set_code(pb::Ack::CANNOT_DO_NOW);
resp->set_message("E40 table rejects that transition from the current state");
} else {
resp->set_code(pb::Ack::ACCEPT);
}
return grpc::Status::OK;
}
// Operator-panel control-state transitions (e.g. "offline for maintenance").
// Fires the operator events on the io thread 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. Note the shipped table
// has no operator path to EQUIPMENT_OFFLINE — operator_offline lands
// HOST_OFFLINE — so honesty matters here.
grpc::Status RequestControlState(grpc::ServerContext*,
const pb::ControlStateRequest* req,
pb::Ack* resp) override {
using PS = pb::ControlState;
const auto desired = req->desired();
if (desired == PS::ATTEMPT_ONLINE) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("ATTEMPT_ONLINE is transient; request a settled state");
return grpc::Status::OK;
}
auto final_state = rt_.read_sync([this, desired]() {
auto& sm = rt_.control();
switch (desired) {
case PS::ONLINE_LOCAL:
if (sm.state() == gem::ControlState::OnlineRemote) sm.operator_local();
else if (!sm.online()) sm.operator_online(); // table chains to OnlineLocal
break;
case PS::ONLINE_REMOTE:
if (sm.state() == gem::ControlState::OnlineLocal) sm.operator_remote();
else if (!sm.online()) {
sm.operator_online();
sm.operator_remote();
}
break;
case PS::HOST_OFFLINE:
case PS::EQUIPMENT_OFFLINE:
sm.operator_offline();
break;
default:
break;
}
return sm.state();
});
if (!final_state) {
resp->set_code(pb::Ack::CANNOT_DO_NOW);
resp->set_message("engine io thread did not answer (not running?)");
return grpc::Status::OK;
}
if (to_proto_state(*final_state) == desired) {
resp->set_code(pb::Ack::ACCEPT);
} else {
resp->set_code(pb::Ack::CANNOT_DO_NOW);
resp->set_message(std::string("equipment is in ") +
gem::control_state_name(*final_state));
}
return grpc::Status::OK;
}
// Streams a Health snapshot immediately, then again whenever the link or
// control state changes (and on spool-depth changes, sampled at the poll
// interval). Ends when the client cancels or the engine stops.
grpc::Status WatchHealth(grpc::ServerContext* ctx, const pb::Empty*,
grpc::ServerWriter<pb::Health>* writer) override {
bool first = true;
pb::Health last;
while (!ctx->IsCancelled()) {
const uint64_t seen = health_version_.load(std::memory_order_relaxed);
auto snap = make_health();
if (!snap) break; // engine stopped — end the stream
if (first || snap->link() != last.link() ||
snap->control_state() != last.control_state() ||
snap->spool_depth() != last.spool_depth()) {
if (!writer->Write(*snap)) break;
last = *snap;
first = false;
}
std::unique_lock<std::mutex> lk(health_mu_);
health_cv_.wait_for(lk, std::chrono::milliseconds(500), [&] {
return health_version_.load(std::memory_order_relaxed) != seen;
});
}
return grpc::Status::OK;
}
private:
// Fan a HostRequest out to every subscriber (fire-and-forget
// notifications: jobs, recipes, EC changes). No subscriber = dropped,
// matching the no-buffering contract.
void push_request(pb::HostRequest hr) {
std::lock_guard<std::mutex> lk(subs_mu_);
for (auto& sub : subs_) sub->queue.push_back(hr);
if (!subs_.empty()) subs_cv_.notify_all();
}
// The command-forwarding handler (runs on the io thread during S2F41/F21/
// F49 dispatch). Subscriber present -> queue the command + HCACK 4; absent
// -> the command's declarative YAML ack. Never blocks.
gem::HostCmdAck forward_command(const std::string& rcmd,
const std::vector<gem::CommandParameter>& params,
gem::HostCmdAck declarative) {
std::lock_guard<std::mutex> lk(subs_mu_);
if (subs_.empty()) return declarative;
const std::string id = std::to_string(next_command_id_++);
pb::HostRequest hr;
auto* cmd = hr.mutable_command();
cmd->set_id(id);
cmd->set_name(rcmd);
for (const auto& p : params) (*cmd->mutable_params())[p.name] = from_item(p.value);
pending_.emplace(id, rcmd);
for (auto& sub : subs_) sub->queue.push_back(hr);
subs_cv_.notify_all();
rt_.log("command '" + rcmd + "' id=" + id + " -> tool stream (HCACK=4)");
return gem::HostCmdAck::AcceptedWillFinishLater;
}
void bump_health() {
health_version_.fetch_add(1, std::memory_order_relaxed);
health_cv_.notify_all();
}
// Build a Health snapshot. Control state + link come from atomics; spool
// depth is mutable engine state, read via read_sync. nullopt = engine down.
std::optional<pb::Health> make_health() {
auto depth = rt_.read_sync(
[this]() { return static_cast<uint32_t>(rt_.model().spool.size()); });
if (!depth) return std::nullopt;
pb::Health h;
// CONNECTED (TCP up, not yet SELECTED) is reserved: the runtime's link
// observer fires on SELECTED/closed only. TODO(daemon): surface the
// intermediate state if a tool ever needs it.
h.set_link(link_selected_.load(std::memory_order_relaxed)
? pb::Health::SELECTED
: pb::Health::DISCONNECTED);
h.set_spool_depth(*depth);
h.set_control_state(to_proto_state(rt_.control_state()));
return h;
}
grpc::Status alarm_action(const std::string& name, bool set, pb::Ack* resp) {
auto it = alarms_.find(name);
if (it == alarms_.end()) {
resp->set_code(pb::Ack::PARAMETER_INVALID);
resp->set_message("no alarm named '" + name + "'");
return grpc::Status::OK;
}
if (set) rt_.set_alarm(it->second);
else rt_.clear_alarm(it->second);
resp->set_code(pb::Ack::ACCEPT);
return grpc::Status::OK;
}
struct VarRef {
uint32_t vid;
s2::Format format; // declared wire format from equipment.yaml
};
gem::EquipmentRuntime& rt_;
std::map<std::string, VarRef> vars_; // SVIDs + DVIDs (SVIDs win on clash)
std::map<std::string, uint32_t> events_; // CEID by name
std::map<std::string, uint32_t> alarms_; // ALID by name AND stringified id
std::map<uint32_t, std::string> ecnames_; // ECID -> name (ConstantChange)
// WatchHealth plumbing: observers (io thread) bump the version and wake the
// per-stream wait loops (gRPC threads).
std::atomic<bool> link_selected_{false};
std::atomic<uint64_t> health_version_{0};
std::mutex health_mu_;
std::condition_variable health_cv_;
// Subscribe plumbing: the io-thread forwarding handler queues HostRequests;
// each Subscribe call drains its own queue on a gRPC thread.
struct Subscriber {
std::deque<pb::HostRequest> queue;
};
std::mutex subs_mu_;
std::condition_variable subs_cv_;
std::vector<std::shared_ptr<Subscriber>> subs_;
std::map<std::string, std::string> pending_; // command id -> rcmd (audit)
uint64_t next_command_id_ = 1; // guarded by subs_mu_
};
} // namespace secsgem::daemon