2d60571a9c
Adds a Docker-based interop harness that drives the C++ server with
secsgem-py 0.3.0 as the active host and probes a secsgem-py-passive
equipment from a minimal C++ active client. Surfaces and fixes four
interoperability bugs uncovered by cross-testing:
* SEMI E5 identifier formatcodes are a U1|U2|U4|U8 wildcard;
secsgem-py picks the narrowest fitting width while our parsers
only accepted U4. `as_uN_scalar` / `as_iN_scalar` now accept
any unsigned/signed width and range-check the downcast.
* PPBODY (S7F3/F6) is "ASCII | Binary | List" per the spec;
secsgem-py defaults to ASCII. Added BINARY_OR_ASCII codegen
item type with `as_text_or_binary` accessor.
* S1F23/F24 Collection Event Namelist was unimplemented; added
schema + `vids_for(ceid)` accessor on EventReportSubscriptions
plus the dispatch handler.
* S10F1 was registered as a host->equipment handler, but per
SEMI E5 §12 S10F1 is equipment->host; S10F3 is the actual
host->equipment Terminal Display Single. Added an S10F3
handler alongside (we keep S10F1 too for backward compat).
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
secsgem-py interop harness
Cross-validates our C++ SECS-II / HSMS / GEM implementation against secsgem-py 0.3.0, the de-facto Python reference. Everything runs in Docker — no Python or secsgem-py on the host.
What it tests
| Driver | Peer | Coverage |
|---|---|---|
host_vs_cpp_server.py |
C++ secs_server (passive) |
HSMS select/separate, S1F1/F3/F11/F17/F23, S2F13/F17/F29/F33/F35/F37/F41, S5F3/F5/F7, S5F1 unsolicited, S6F11 unsolicited, S7F3/F5/F19, S10F1/F3, S1F15 |
secs_interop_probe (C++) |
passive_equipment.py (secsgem-py GemEquipmentHandler) |
HSMS select, S1F13/F14, S1F1/F2, S1F3/F4, clean separate |
raw_gem300_harness.py |
C++ secs_server (passive) |
GEM 300 streams secsgem-py upstream doesn't ship: S3F17/F18 (E87 carrier action), S16F5/F6 (E40 PRJobCommand), S16F27/F28 (E94 CJobCommand) — built with custom SecsStreamFunction subclasses + registered custom DataItems |
24 named checks on the C++-server side; 4 explicit checks on the C++-host side; 4 GEM-300 raw-frame checks. Implicit HSMS state-machine and wire-level framing validation everywhere.
Running
# Start C++ passive server, then drive it with secsgem-py host:
docker compose up -d server
docker compose run --rm interop python3 /app/interop/host_vs_cpp_server.py \
--host server --port 5000 --session-id 0
# Start Python passive equipment, then probe it with the C++ host:
docker compose up -d equipment_py
docker compose run --rm builder /app/build/secs_interop_probe \
--host equipment_py --port 5000 --device 0
Both exit 0 on success.
What this caught
Real bugs surfaced by interop (now fixed):
- Strict U4 parsing rejected U1-encoded identifiers. SEMI E5
declares DATAID, RPTID, VID, CEID, ALID, EXID, etc. as
U1 | U2 | U4 | U8; secsgem-py picks the smallest width that fits. Ouras_u4_scalar,as_u2_scalar, etc. were strict. Now lenient with range-checked downcasts (messages_helpers.hpp::any_unsigned_first). - PPBODY rejected when sent as ASCII. SEMI lets PPBODY be
ASCII | Binary | List; secsgem-py defaults to ASCII. Added theBINARY_OR_ASCIIcodegen item type plus a permissiveas_text_or_binaryaccessor, used for S7F3/F6. - Missing S1F23 / S1F24 (Collection Event Namelist). Added the
wire schema in
data/messages.yaml, avids_for(ceid)accessor on the event-report store, and the dispatch handler insecs_server.cpp. - Missing S10F3 handler (Terminal Display Single, host→equipment). Our server only registered S10F1; per SEMI E5, S10F1 is equipment→host and S10F3 is the host→equipment counterpart. Added the missing dispatch.
The C++ test suite still passes (278 cases / 1436 assertions) after each of these changes — the fixes are purely permissive widenings, no existing behaviour was broken.