Commit Graph

4 Commits

Author SHA1 Message Date
alro65 e4812e9b44 sprint-4: Project Editor + .appack compiler + IRudderActuator HAL + dual sensor config
Cherry-pick of ab28cb7 onto main (was missing from main branch history).

Python:
- arautopilot/core/sensor_config.py: RudderSensorConfig + DualRudderSensorConfig
  (AS5048A SPI / potentiometer, dual with cross-validation thresholds)
- arautopilot/core/vessel_config.py: add sensors: DualRudderSensorConfig field
- arautopilot/studio/compiler/appack.py: .appack compiler (ZIP with
  manifest.json + project.yaml + firmware_config.h + install_notes.txt)
- arautopilot/studio/editors/project_editor.py: full project config editor
  (vessel / actuator / sensors / PID, RBAC-gated fields, save/load .yaml/.json)
- arautopilot/studio/main_window.py: wire ProjectEditorWidget into Project tab
- tests: test_sensor_config.py (11 tests) + test_appack_compiler.py (10 tests)

Firmware:
- hal/rudder_actuator_iface.h: IRudderActuator abstract interface
- hal/rudder_actuator_hydraulic.h: reversible hydraulic pump (LEDC PWM)
- hal/rudder_actuator_electric.h: reversible DC motor + deadband compensation
- hal/rudder_actuator_factory.h: build-time type selection via AR_ACTUATOR_TYPE

Tests: 483 passed (was 462, +21 Sprint 4)

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-20 10:29:17 -04:00
alro65 5f9b445572 sprint-7: Commissioning wizard + relay ZN auto-tuner + NVS config + knob encoder
Python:
- autotuner.py: RelayAutoTuner (Astrom-Hagglund relay method) → TunerResult
  with Ku/Tu; TunerResult.to_pid_gains() applies ZN formulas
- commissioning_wizard.py: 4-phase state machine (RUDDER_LIMITS → SENSOR_CAL
  → AUTO_TUNE → DONE); transport-injected for testability; abort on invalid cal
- test_autotuner.py: 17 tests covering relay convergence, ZN formulas,
  wizard full-run, abort, ADC swap, identical-ADC guard

Firmware:
- nvs_config.h/cpp: NVS-backed CalibrationData store (adc limits, rudder angles,
  outer Kp/Ki/Kd, commissioned flag); float stored as uint32 via memcpy
- knob_encoder.h/cpp: quadrature rotary encoder on GPIO 16/17 with ISR Gray-code
  decode; knob_arm coil arms for 5 s window; updates heading setpoint ±1 deg/detent
- modbus_slave.cpp: COIL_CMD_KNOB_ARM now calls knob_encoder_set_armed()
- main.cpp: nvs_config_init/load at boot; apply commissioned calibration to
  rudder sensor and outer loop gains; start knob encoder task

Tests: 326 passed | Flash: 28.5%

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-20 02:55:26 -04:00
alro65 65860948b4 sprint-1: firmware ESP32 base -- STANDBY + Modbus + NMEA 2000 + watchdog
End-to-end implementation of Sprint 1 per docs/sprint-1-plan.md.

Builds: pio run -e esp32-dev SUCCESS, RAM 6.7%, Flash 26.5% (347 KB).
Tests: pytest 110/110 green; pio test -e native deferred (needs host
       C++ compiler -- none on this Windows machine).

Firmware (firmware/ar_autopilot_v1/):

- platformio.ini: 4 envs (esp32-dev release, esp32-debug, native unity
  tests, check static analysis). NMEA2000-library@4.22, NMEA2000_esp32@
  1.0, eModbus@1.7.4 pinned.
- main.cpp: boot in STANDBY, FreeRTOS task spawn, returns to scheduler.
- system/: ar_log.h facade, task_config.h (priorities/stacks/cores
  central table), heartbeat (1 Hz LED + uptime).
- modes/: STANDBY-only state machine; non-STANDBY rejected.
- hal/: di_do.cpp (5 DI + 10 DO with debounce + last-state cache),
  rudder_sensor.cpp (100 Hz ADC + 5-sample median filter, Core 1),
  rudder_actuator.cpp (DO1/DO2/DO3 with three safety interlocks:
  power-off, STANDBY mode, limit switch).
- safety/: TWDT @ 2 s panic-on-expire; 50 Hz safety task on Core 1
  enforcing DI1 physical disengage button, DI4 external alarm,
  both-limit-switch interlock.
- protocols/modbus_slave.cpp: eModbus RTU server on UART2 @ 38400 8N1,
  slave ID 1. 17 inputs + 19 discretes + 5 holdings + 4 coils. Reads
  pull live telemetry; writes validate range and route to handlers.
- protocols/nmea2000_consumer.cpp: stack open with CAN TX=GPIO3
  RX=GPIO1, subscribed to PGN 127250 (Heading) + PGN 127251 (Rate of
  Turn). 5 s staleness flag built in for Sprint 6 alarm wiring.
- filters/median.h: templated MedianFilter<T,N> (host testable).

Cross-cutting:

- modbus_registers.yaml: single source of truth for the Modbus register
  map. 45 entries.
- tools/gen_modbus_registers.py: YAML -> C++ header + Python module
  generator with --check for drift detection.
- arautopilot/shared/modbus_register_map.py: generated Python mirror,
  imported by Studio + tools.
- arautopilot/tests/test_modbus_register_map.py: 30 tests covering
  schema, address uniqueness, range, spot-checks, and drift detection
  (fails if YAML edited without regenerating).
- firmware/ar_autopilot_v1/tools/modbus_client_test.py: manual Modbus
  client for poking the slave from a PC with USB-RS485 dongle.
- firmware/ar_autopilot_v1/test/test_median_filter/test_median.cpp:
  8 Unity tests of the median filter (host-side, no Arduino dependency).
- docs/firmware.md: full operator + integrator guide (toolchain, build,
  flash, expected boot log, troubleshooting, Sprint 1 capability matrix).

Architecture note: opted for Arduino-on-ESP32 only instead of the
proposed dual Arduino-as-ESP-IDF-component setup. Rationale documented
in CHANGELOG and docs/firmware.md -- Arduino-on-ESP32 already provides
the FreeRTOS primitives we need; dual framework adds fragility without
benefit at Sprint 1 scope. Reconsider in Sprint 8 (OTA + secure boot).

NOT in Sprint 1 (intentional per brief sec. 12):
  - PID loops (inner/outer)
  - True Course / Track Keeping
  - Full alarm catalogue beyond DI1/DI4
  - Knob driver
  - Studio GUI / dedicated display

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-18 10:45:56 -04:00
alro65 700756c16f sprint-0: foundations -- data model, seed library, tests, demo
Initial commit. Delivers what the brief calls 'Sprint 0 - Foundations'
(see docs/AR_Autopilot_brief.md section 12):

- Complete repository structure (arautopilot package + firmware, display,
  installer, tools placeholders + docs).
- Core data model (Pydantic v2): modes, alarms, actuator config, PID
  config + gain scheduling, vessel config, knob state machine, project
  config with YAML/JSON serialisation.
- Seed library: 2 actuator profiles (hydraulic & electric DC reversible)
  and 2 default tunings (yacht motor planeo 30 m and 40 m). Conservative
  literature values, NOT the integrator's production tuning IP.
- Firmware skeleton: only src/hal/pinout.h with the 21 I/O contract for
  the AR-NMEA-IO v1.0 board. No drivers, no main loop.
- Studio stubs (real PySide6 app starts in Sprint 4).
- pytest suite (80 tests, all green): modes, alarms, actuator, PID
  (incl. gain interpolation and the +/-50% adaptive bound from brief
  section 6), vessel, knob state, project config, library loader,
  end-to-end roundtrip.
- examples/sprint0_demo.py - the acceptance demo from the brief.

Acceptance criteria met:
- pytest green (80/80)
- demo creates, saves (YAML + JSON), reloads, and verifies a full
  ProjectConfig using the seed library
- repository ready for tag `sprint-0-approved`

See CHANGELOG.md for the detailed scope.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-17 23:57:18 -04:00