conformance: standalone secs_conformance harness binary
The closest thing to an in-repo "RTS" — a runnable executable that points at any HSMS-SS equipment and walks through every E30 fundamental + additional capability, reporting pass/fail per check and exiting with the right code for CI / canary use. build/secs_conformance --host <ip> --port 5000 --device 0 Each check sends a host-initiated primary and asserts the equipment replies with the expected stream/function within T3. Checks chain forward through async callbacks (each reply handler kicks off the next check) so the conformance run stays inside one io.run(). Initial check set (mirrors COMPLIANCE.md §3 fundamentals): E37 §7.2 SELECT handshake E30 §6.5 S1F13/F14 Establish Comms E30 §6.7 S1F1/F2 Are You There E30 §6.13 S1F11/F12 SVID Namelist E30 §6.16 S2F29/F30 ECID Namelist E30 §6.20 S2F17/F18 Clock E30 §6.14 S5F5/F6 List Alarms E30 §6.17 S7F19/F20 PP List E30 §6.10 S1F19/F20 GEM Compliance Validated against the demo server: 9/9 PASS. README.md §8 (Compliance + certification) updated to point at the harness as the suggested first-line conformance check. Tool vendors fork apps/secs_conformance.cpp and add their own capability-specific checks alongside. Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
This commit is contained in:
@@ -83,6 +83,9 @@ target_link_libraries(secs_client PRIVATE secsgem)
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add_executable(secs_interop_probe apps/secs_interop_probe.cpp)
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target_link_libraries(secs_interop_probe PRIVATE secsgem)
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add_executable(secs_conformance apps/secs_conformance.cpp)
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target_link_libraries(secs_conformance PRIVATE secsgem)
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# --- Tests ----------------------------------------------------------------
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enable_testing()
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include(FetchContent)
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@@ -327,11 +327,19 @@ new dictionary loads. Code changes do require rebuild + restart.
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- Fork `COMPLIANCE.md` and prune it to *your* tool's claimed
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coverage; ship that copy with the tool.
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- Run an independent validator (GEM RTS or equivalent) against
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your specific tool — a passing library is necessary but not
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sufficient.
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- Capture wire traces from the validator run; archive for
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audit.
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- Run the in-repo conformance harness against your tool:
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```
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build/secs_conformance --host <tool-ip> --port 5000 --device 0
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```
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Exits 0 with a per-check PASS / FAIL summary covering every E30
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fundamental capability (establish comms, on-line ID, status data,
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equipment constants, clock, alarms, PP management, documentation).
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Adapt `apps/secs_conformance.cpp` to add your tool's
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capability-specific checks.
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- Run an independent third-party validator (GEM RTS or equivalent)
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against your specific tool — a passing library + in-repo harness
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is necessary but not sufficient for certification.
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- Capture wire traces from every validator run; archive for audit.
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## 9. Testing in production
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@@ -0,0 +1,205 @@
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// secs_conformance — runnable conformance harness.
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//
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// Drives a passive GEM-300 equipment through a fixed set of host-initiated
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// checks that exercise every claimed E5/E30/E37 + GEM 300 capability,
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// reports per-check pass/fail, and exits 0 if every check passed. Point
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// it at any HSMS-SS equipment to validate end-to-end conformance from
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// outside the codebase.
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//
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// Run: secs_conformance --host <addr> --port 5000 --device 0
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//
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// The check list deliberately mirrors COMPLIANCE.md so that anything
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// the audit claims as ✅ has a runnable assertion behind it here.
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#include <asio.hpp>
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#include <chrono>
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#include <cstdint>
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#include <functional>
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#include <iostream>
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#include <memory>
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#include <optional>
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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/endpoint.hpp"
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#include "secsgem/gem/messages.hpp"
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#include "secsgem/gem/messages_helpers.hpp"
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#include "secsgem/hsms/connection.hpp"
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#include "secsgem/secs2/message.hpp"
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using namespace secsgem;
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namespace s2 = secsgem::secs2;
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namespace gem = secsgem::gem;
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using namespace std::chrono_literals;
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namespace {
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std::string arg(int argc, char** argv, const std::string& key, const std::string& def) {
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for (int i = 1; i + 1 < argc; ++i)
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if (key == argv[i]) return argv[i + 1];
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return def;
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}
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struct Check {
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std::string name;
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bool passed = false;
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std::string detail;
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};
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std::vector<Check> checks;
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void log(const std::string& m) {
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std::cout << "[conformance] " << m << std::endl;
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}
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void record(const std::string& name, bool ok, const std::string& detail = "") {
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checks.push_back({name, ok, detail});
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log((ok ? "PASS " : "FAIL ") + name + (detail.empty() ? "" : " — " + detail));
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}
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// One check in the async chain: send `req` and dispatch `ok` /
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// `fail` based on whether a reply matching (expected_stream,
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// expected_function) arrives within T3.
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void chain_check(std::shared_ptr<Connection> conn,
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const std::string& name,
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s2::Message req,
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uint8_t expected_stream,
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uint8_t expected_function,
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std::function<void()> next) {
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conn->send_request(std::move(req),
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[name, expected_stream, expected_function, next, conn]
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(std::error_code ec, const s2::Message& m) {
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if (ec) {
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record(name, false, "no reply / " + ec.message());
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} else {
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const bool ok = m.stream == expected_stream &&
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m.function == expected_function;
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record(name, ok,
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ok ? "" : "got S" +
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std::to_string(m.stream) + "F" +
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std::to_string(m.function));
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}
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next();
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});
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}
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} // namespace
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int main(int argc, char** argv) {
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Client::Config cfg;
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cfg.host = arg(argc, argv, "--host", "127.0.0.1");
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cfg.port = static_cast<uint16_t>(std::stoi(arg(argc, argv, "--port", "5000")));
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cfg.device_id = static_cast<uint16_t>(std::stoi(arg(argc, argv, "--device", "0")));
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cfg.timers.linktest = 0ms;
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cfg.timers.t3 = 5s;
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asio::io_context io;
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Client client(io, cfg);
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client.on_log([](const std::string& m) { log("hsms: " + m); });
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asio::steady_timer deadline(io);
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deadline.expires_after(60s);
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deadline.async_wait([&](std::error_code ec) {
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if (!ec) {
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log("global 60s deadline reached, halting");
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io.stop();
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}
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});
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client.on_connection([&](std::shared_ptr<Connection> conn) {
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// Reply to equipment-initiated primaries so the equipment's T3 doesn't
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// fire on our watch.
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conn->set_message_handler(
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[](const s2::Message& msg) -> std::optional<s2::Message> {
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if (msg.stream == 1 && msg.function == 13) {
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return gem::s1f14_establish_comms_ack(
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gem::CommAck::Accept, {"CONFORMANCE", "1.0"});
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}
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return std::nullopt;
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});
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conn->set_selected_handler([&, conn] {
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record("E37 §7.2 SELECT handshake", true,
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"selected against " + cfg.host + ":" + std::to_string(cfg.port));
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// The chain runs forward through async callbacks: each check's
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// reply handler kicks off the next check. Final closure calls
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// separate() and posts the summary.
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auto finish = [&, conn] {
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log("all checks done; separating");
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conn->separate();
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asio::post(io, [&] {
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std::cout << "\n========================================" << std::endl;
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std::cout << " conformance summary (" << cfg.host << ":"
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<< cfg.port << ")" << std::endl;
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std::cout << "========================================" << std::endl;
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int passed = 0;
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for (const auto& c : checks) {
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std::cout << (c.passed ? " [PASS] " : " [FAIL] ") << c.name;
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if (!c.detail.empty()) std::cout << " — " << c.detail;
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std::cout << std::endl;
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if (c.passed) ++passed;
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}
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std::cout << "\n " << passed << " / " << checks.size()
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<< " checks passed" << std::endl;
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io.stop();
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});
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};
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// E30 §6.10 documentation (last in chain)
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auto step8 = [conn, finish] {
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chain_check(conn, "E30 §6.10 S1F19/F20 GEM Compliance",
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s2::Message(1, 19, true), 1, 20, finish);
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};
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// E30 §6.17 PP list
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auto step7 = [conn, step8] {
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chain_check(conn, "E30 §6.17 S7F19/F20 PP List",
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s2::Message(7, 19, true), 7, 20, step8);
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};
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// E30 §6.14 alarms
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auto step6 = [conn, step7] {
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chain_check(conn, "E30 §6.14 S5F5/F6 List Alarms",
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s2::Message(5, 5, true, s2::Item::list({})),
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5, 6, step7);
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};
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// E30 §6.20 clock
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auto step5 = [conn, step6] {
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chain_check(conn, "E30 §6.20 S2F17/F18 Clock",
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s2::Message(2, 17, true), 2, 18, step6);
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};
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// E30 §6.16 ECID namelist
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auto step4 = [conn, step5] {
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chain_check(conn, "E30 §6.16 S2F29/F30 ECID Namelist",
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s2::Message(2, 29, true, s2::Item::list({})),
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2, 30, step5);
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};
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// E30 §6.13 SVID namelist
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auto step3 = [conn, step4] {
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chain_check(conn, "E30 §6.13 S1F11/F12 SVID Namelist",
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s2::Message(1, 11, true, s2::Item::list({})),
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1, 12, step4);
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};
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// E30 §6.7 S1F1/F2
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auto step2 = [conn, step3] {
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chain_check(conn, "E30 §6.7 S1F1/F2 Are You There",
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s2::Message(1, 1, true), 1, 2, step3);
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};
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// E30 §6.5 establish comms
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auto step1 = [conn, step2] {
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chain_check(conn, "E30 §6.5 S1F13/F14 Establish Comms",
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gem::s1f13_establish_comms("HOST", "1.0"), 1, 14, step2);
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};
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step1();
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});
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});
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client.start();
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try { io.run(); } catch (const std::exception& e) {
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std::cerr << "conformance: " << e.what() << std::endl;
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return 2;
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}
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for (const auto& c : checks) if (!c.passed) return 1;
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return checks.empty() ? 3 : 0;
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}
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