63bb0cf933
GEM host-side counterpart to the existing equipment server: wraps an HSMS Connection (Active mode), installs an inbound dispatch table that auto-acks the messages a host is expected to passively accept, and exposes the GEM workflow primitives. Inbound dispatch: S5F1 Alarm Report observe (alarm handler) + S5F2 Accept S6F11 Event Report observe (event handler) + S6F12 Accept S6F25 Spool Data Ready S6F26 Accept (host policy: pull on demand) S10F1 Terminal Display observe + S10F2 Accepted S9F* Equipment errors observe (s9 handler); no ack (one-way) Workflow shortcuts: establish_communication() S1F13 -> S1F14 go_remote() S1F17 -> S1F18 go_offline() S1F15 -> S1F16 Plus a low-level send_request() escape hatch so the senders coming in B2/B3 don't have to friend the connection internals. Drive-by: event_reports.hpp was missing `<optional>` (worked transitively through the equipment-side include chain but not when included from the host-side standalone). secsgem-py has `gem/hosthandler.py`; this mirrors its surface for the inbound-ack and lifecycle parts. Outbound senders land in B2/B3. Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
95 lines
3.8 KiB
C++
95 lines
3.8 KiB
C++
#pragma once
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#include <array>
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#include <cstdint>
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#include <functional>
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#include <memory>
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#include <string>
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#include <system_error>
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#include <vector>
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#include "secsgem/gem/store/event_reports.hpp"
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#include "secsgem/hsms/connection.hpp"
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#include "secsgem/secs2/message.hpp"
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// GEM host-side message handler. Wraps an HSMS Connection (Active mode)
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// and provides:
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//
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// - Inbound dispatch with sensible automatic acks for the messages a
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// host is expected to accept passively (S5F1 alarms, S6F11 event
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// reports, S9F* errors, S10F1 terminal text). Each gets a
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// user-settable observer callback.
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//
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// - High-level workflow shortcuts: establish_communication() (S1F13)
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// and go_remote() (S1F17) are the standard GEM host startup pair.
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//
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// - Convenience senders for the GEM/E40/E94 message surface
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// (see host_handler_senders.hpp for the full menu in B2/B3).
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//
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// Mirrors secsgem-py's `GemHostHandler` in `gem/hosthandler.py`. Equipment-
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// side behaviour lives in the existing server app; pulling it into a
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// matching `EquipmentHandler` class is a separate refactor.
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namespace secsgem::gem {
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class HostHandler : public std::enable_shared_from_this<HostHandler> {
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public:
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using ReplyHandler = std::function<void(std::error_code, const secs2::Message&)>;
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using EventHandler = std::function<void(uint32_t dataid, uint32_t ceid,
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const std::vector<ReportData>& reports)>;
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using AlarmHandler = std::function<void(uint32_t alid, uint8_t alcd,
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const std::string& altx)>;
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using TerminalHandler = std::function<void(uint32_t tid, const std::string& text)>;
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using S9Handler = std::function<void(uint8_t function,
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const std::array<uint8_t, 10>& mhead)>;
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using LogHandler = std::function<void(const std::string&)>;
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explicit HostHandler(std::shared_ptr<hsms::Connection> conn);
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// Inbound observers. Each is optional; if unset, the message is acked
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// (where required) and otherwise ignored.
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void set_event_handler(EventHandler h) { on_event_ = std::move(h); }
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void set_alarm_handler(AlarmHandler h) { on_alarm_ = std::move(h); }
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void set_terminal_handler(TerminalHandler h) { on_terminal_ = std::move(h); }
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void set_s9_handler(S9Handler h) { on_s9_ = std::move(h); }
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void set_log_handler(LogHandler h) { on_log_ = std::move(h); }
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// Wire the inbound message handler into the underlying Connection.
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// Call once before Connection::start() so the dispatch table is live
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// when the first inbound primary arrives.
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void install();
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// ---- Workflow shortcuts ------------------------------------------------
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// S1F13/F14 Establish Communication. Resolves `cb` with the equipment's
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// S1F14 reply (or a timeout / error).
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void establish_communication(ReplyHandler cb);
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// S1F17/F18 Request Online. Equipment may reply Accepted / NotAllowed /
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// AlreadyOnline; the raw S1F18 message is forwarded to `cb`.
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void go_remote(ReplyHandler cb);
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// S1F15/F16 Request Offline. Counterpart to go_remote().
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void go_offline(ReplyHandler cb);
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// ---- Low-level: forward a primary verbatim ----------------------------
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void send_request(secs2::Message msg, ReplyHandler cb);
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// Access to the underlying connection (sample apps and tests need it).
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hsms::Connection& connection() { return *conn_; }
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protected:
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// Single inbound dispatch entry point — installed on Connection.
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std::optional<secs2::Message> handle_inbound(const secs2::Message& msg);
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void log(const std::string& msg);
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std::shared_ptr<hsms::Connection> conn_;
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EventHandler on_event_;
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AlarmHandler on_alarm_;
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TerminalHandler on_terminal_;
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S9Handler on_s9_;
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LogHandler on_log_;
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};
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} // namespace secsgem::gem
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