A network-plugin hot reload unloaded the DLL without destroying the agent
handle it created, so the plugin's m_agent was left dangling into freed
memory. On reload create_agent() short-circuited on has_agent() and kept the
stale handle, and the next call into the new DLL (install_device_cert from the
device-refresh timer) dereferenced it and crashed with an access violation.
unload() now destroys the agent first, so a reload always gets a fresh handle.
When a print fails, DeviceErrorDialog now fetches the printer's captured camera
frame of the failure and shows it in place of the generic HMS illustration,
falling back to the local image and a drawn placeholder on older plugins or errors.
- Agent: add get_hms_snapshot through NetworkAgent / IPrinterAgent (BBL calls the
bound plugin symbol; other agents no-op, so old plugins degrade gracefully).
- DeviceManager: parse and clear m_print_error_img_id from the print-error message.
- Dialog: tiered cloud/local/placeholder image reusing the single image widget,
with a liveness-guarded async callback decoded on the UI thread.
Add the 11 functions the newer plugin exports (HMS snapshot, GoLive camera
URL, consent report, cloud filament-spool CRUD, AMS-filament sync, login-state
and studio-info hooks) plus their four parameter structs. Everything resolves
to null on older plugins and no caller invokes them yet, so this is inert ABI
surface for later features.
The newer plugin adds four PrintParams fields (task_timelapse_use_internal,
extruder_cali_manual_mode, svc_context, slicer_uid) and an extra dev_model
argument to bind. Both cross the by-value C ABI boundary, so match the struct
layout and thread dev_model through the bind chain, else start_print and bind
corrupt the stack on the newer plugin. Keep 02.03.00.62 selectable as a fallback.
## What this does
Ports the AMS filament drying control feature from BambuStudio. Most
work was done by Claude Code with deepseek-v4-pro. Thanks Bambu & CC &
DeepSeek :P
Allows users to start, monitor, and stop AMS-based filament drying
directly from the OrcaSlicer UI for N3F (AMS 2 Pro) and N3S (AMS HT) AMS
units.
Mostly from
c8f70c6ca7
Part of #12091
## Screenshots
<img width="500" alt="image"
src="https://github.com/user-attachments/assets/24f579cb-c67c-4d6e-bf77-c31e018f2f70"
/>
<img width="500" alt="image"
src="https://github.com/user-attachments/assets/74f628aa-6f5f-4150-b2e9-082e4ffc3527"
/>
<img width="500" alt="image"
src="https://github.com/user-attachments/assets/d2f26412-a054-4085-9236-5074a030b001"
/>
<img width="500" alt="image"
src="https://github.com/user-attachments/assets/7beef770-8fbc-4375-b244-e0de44b8db2f"
/>
## Changes
- **Data model:** Added drying status enums (`DryStatus`,
`DrySubStatus`, `CannotDryReason`, etc.), `DrySettings` struct,
`DevFilamentDryingPreset` struct to `DevAms`/`DevFilaSystem`
- **Promoted `DevAmsType`** to a global enum (`EXT_SPOOL=0, AMS=1,
AMS_LITE=2, N3F=3, N3S=4`), renamed `DUMMY` → `EXT_SPOOL`
- **JSON parsing:** Extended `DevFilaSystemParser` to parse drying
status fields from printer status messages
- **Commands:** Added `CtrlAmsStartDryingHour()` and
`CtrlAmsStopDrying()` sending `"ams_filament_drying"` JSON via MQTT
- **Backend utility:** New `DevUtilBackend` class with
`GetFilamentDryingPreset()` for reading filament drying config keys
- **UI dialog:** New `AMSDryControl` dialog with three pages
(status/control, guide, progress) matching BambuStudio behavior
- **Integration:** Wired AMS humidity indicator click to open the drying
dialog for N3F/N3S AMS types
- **Assets:** 12 new drying-related images from BambuStudio
- **Firmware parsing:** Added `is_support_remote_dry` flag parsed from
`fun2` bit 5
## Constraints
- N3F/N3S only — standard AMS and AMS Lite continue to use the existing
humidity popup
- Backward compatible — existing `command_ams_drying_stop()` preserved
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The eight presets added in 0545750c1b never got ids: the six iQ processes
had none, and K1 SE 0.8 / V-Core 4 0.8 carried ids copied from the presets
they were duplicated from — K1 SE 0.8 still shared K1C 0.8's id. Regenerated
with scripts/assign_vendor_setting_ids.py; none of the eight have shipped in
a release, so no existing id changes meaning.
The filament-group golden harness landed with H2C/A2L support (#14685). Its
"FilamentGroup golden regression" / stress_66 case fails intermittently on
Windows x64, on main and on unrelated PRs alike. The test depends on how fast the
runner is.
The k-medoids clustering these goldens exercise is an anytime search bounded by a
3 second wall clock. Every restart is seeded from its own index, so nothing about
it is random. What varies is how many restarts fit in the budget, and the best
cost is a minimum over completed restarts, so a slower runner is never better.
Grading a score produced that way measures the machine as much as the code.
Add a ClusteringBudget struct and let the tests set it. The defaults are the
current 3 seconds and 30 restarts, so slicing behavior is unchanged. A
non-positive timeout removes the wall clock and bounds the search by restart
count alone.
The goldens are then graded under a fixed budget of four restarts, where every
one of them reaches the BambuStudio reference within 3%, so the score becomes a
property of the code. This retires the machine-specific 125103 lock on stress_66.
The default wall-clock path keeps its own test, asserting the grouping is valid
and the search does not run away. It makes no score assertion, because under a
wall clock that number is not a property of the code.
The golden test also checks the run fits in ten times the default wall clock.
Slicing quality depends on how many restarts fit in the budget, so a search an
order of magnitude slower would degrade real groupings while a fixed-budget score
gate stayed green.
The 3% tolerance stays as the parity allowance against the goldens. It also
covers a small spread across standard libraries: the k-medoids search seeds each
restart with std::shuffle, whose algorithm the C++ standard leaves unspecified,
so libstdc++, libc++ and the MSVC STL permute the same seed differently, start
from different medoids, and settle on slightly different groupings, about 3e-4
apart and only on the goldens heavy enough to reach the k-medoids search.
# Description
Adds a --slice (-s) mode to the profile validator that slices a
two-colour cube through every shipped printer, expanding all custom
g-code (change_filament_gcode, machine start/end, etc.). This catches
invalid-placeholder / bad-flow / slicing errors that the static JSON
checks and unit tests can't see.
Included:
- Validator: new -s sweep mode; per-profile error attribution in the
log; resolves the synthetic 2nd-filament nozzle-mapping so multi-nozzle
BBL printers (incl. the Direct-Drive+Bowden X2D) validate cleanly.
- CI, two complementary paths:
- check_profiles.yml — runs the sweep on profile-only PRs (nightly
binary).
- build_all.yml — new parallel slice_check_linux job runs it on
engine/src PRs with the PR-built binary (build_all doesn't trigger on
resources/**, so no overlap). Runs off the build's artifact, so it
doesn't lengthen the build leg.
- Profile fixes surfaced by the sweep: Creality, FLSun, Ginger, Qidi,
RatRig, iQ.
- Engine: whitelist BBL firmware T-opcodes (T1001/T65279/T65535) in the
time estimator (log-only, no g-code change); dedupe a
per-filament/per-layer log flood in get_config_index.
# Screenshots/Recordings/Graphs
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## Tests
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