13a2867ef678edd5a853696126e809c0c7887e2d
3 Commits
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13a2867ef6 |
sprint-2.5: RBAC 4 roles + Studio bootable + Flash Console
End-to-end implementation per docs/sprint-2.5-plan.md. New requirement added by user mid-sprint: 4-role RBAC (Super Admin / Engineer / Owner / User) with dual-auth for Engineer flashing firmware, plus a "mini Arduino IDE" inside the Studio. Tests: pytest 231/231 green (129 Sprint 2 + 102 Sprint 2.5 new). RBAC core (arautopilot/core/): - rbac.py: 4 roles, 12 capabilities, immutable capability matrix, has() / capabilities_of() / require() / requires_dual_auth() helpers. Engineer flashing firmware needs SA approval; everything else is single-factor. - user.py: User model with PBKDF2-HMAC-SHA256 PIN hashing (200k iters, 16-byte salt, self-describing hash format for future migrations). 4-8 digit numeric PINs enforced. - user_store.py: JSON-backed user database. seed_demo_users() for first-run UX. - audit.py: append-only JSONL audit log. AuditEvent with timestamp, user_id, role, action, target, outcome, reason, secondary_user_id for dual-auth, optional extra payload. Crypto signing of lines deferred to Sprint 8. Studio GUI (arautopilot/studio/): - app.py: real entry point (replaces Sprint 0 stub). --seed-demo populates demo users without launching GUI; --data-dir overrides the ~/.ar-autopilot/studio/ default. - session.py: Session + SessionHolder. check() always audits the decision; verify_super_admin_pin() + log_dual_auth_grant() for dual-auth flows. - login_window.py: modal login dialog with user picker + PIN field. Audits login attempts (success and bad-PIN denials). - main_window.py: top-level window with sidebar (user + role + caps) and tab area (Overview, Flash Console, Project placeholder, Telemetry placeholder). - flash_console.py: the "mini Arduino IDE". Lists serial ports via pyserial; picks firmware variant (esp32-dev / esp32-debug); compiles via 'pio run'; flashes via 'pio run -t upload --upload-port <port>'; streams pio output to a dark-themed read-only console; supports cancel. For Engineer flashes, asks the Super Admin for their PIN inline before invoking pio. Records dual-auth grant + pio exit code in the audit log. Dependencies: - New [project.optional-dependencies] group 'studio': PySide6>=6.6, pyserial>=3.5, platformio>=6.1. Kept optional so the core can be installed in lean / CI environments. Tests (arautopilot/tests/): - test_rbac.py: 32 tests for capability matrix, dual-auth policy, no-privilege-escalation invariants, partial overlap between roles. - test_user.py: 11 tests for PIN hashing, verification, salting, serialisation, field validators. - test_audit.py: 9 tests for JSONL append, immutability, round-trip, corrupt-line detection, dual-auth event shape, blank-line tolerance. - test_user_store.py: 10 tests for CRUD, persistence, role filtering, demo seed idempotency. - test_session.py: 9 tests for capability checks + audit side effects, SA PIN verification, dual-auth recording, SessionHolder lifecycle. - test_studio_smoke.py: 5 headless tests verifying Studio modules import without a display server, --seed-demo works, helpers safe to call without hardware. NOT in Sprint 2.5 (intentional): - Crypto signing of audit log lines (hash-chain) -- Sprint 8 - HWID binding of the user store -- Sprint 8 - Project configurator + .appack compiler -- Sprint 4 - Flutter bridge display -- Sprint 4 - Telemetry dashboard tab -- Sprint 4 - Serial monitor as a separate tab -- future enhancement Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com> |
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295efa2d83 |
sprint-2: PID inner loop + Python rudder simulator
End-to-end implementation per docs/sprint-2-plan.md.
Builds: pio run -e esp32-dev SUCCESS, RAM 6.8%, Flash 26.8% (351 KB).
Tests: pytest 129/129 green (110 Sprint 1 + 19 Sprint 2).
Python (arautopilot/studio/simulator/):
- rudder_dynamics.py: marine-realistic physical model of a hydraulic
rudder actuator. Defaults tuned so 100 % PWM produces steady-state
v_max ~5 deg/s, matching the brief's "typical 3-6 dps" for a 30 m
yacht. Includes deadband, min-useful PWM snap, port/stbd asymmetry,
end-stops, optional external torque, RunRecorder helper.
- pid_inner.py: pure-Python reference PID. Anti-windup via back-
calculation, setpoint rate limit, setpoint deadband, derivative LPF,
actuator non-linearity compensation. This module is the algorithmic
source of truth; C++ firmware is a line-by-line port.
Firmware (firmware/ar_autopilot_v1/src/pid/):
- pid_inner.h: header-only C++17 controller, byte-equivalent port of
pid_inner.py. Compiles on ESP32 toolchain AND on host g++/clang/MSVC
(no Arduino dependencies) -- ready for native Unity cross-validation
once a host compiler is installed.
- pid_inner_task.{h,cpp}: FreeRTOS task wrapper. 50 Hz on Core 1
(real-time core). Subscribes to TWDT, bleeds integrator during
STANDBY, surfaces telemetry + tunables via the Modbus slave.
Modbus map (regenerated from YAML):
- 6 new INPUT registers (40-45): setpoint, output, error, kp/ki/kd live
- 4 new HOLDING registers (16-19): writable setpoint + kp/ki/kd req
(writes propagate atomically; zero kp rejected as ILLEGAL_DATA_VALUE)
Tests:
- test_rudder_simulator.py: 9 tests (zero-input rest, full deflection,
end-stop saturation, deadband, min-useful snap, asymmetry, recorder
API, invalid dt, end-stop velocity zeroing).
- test_pid_inner_python.py: 10 tests (positive/negative step response,
setpoint deadband holds, anti-windup bounds under saturation,
allowed=false bleeds integrator, actuator deadband + asymmetry
compensation, output saturation, rate limit, disturbance rejection).
NOT in Sprint 2 (intentional per brief sec. 12):
- Outer heading PID, gain scheduling by SOG, ROT feed-forward
(those land in Sprint 3)
- Cross-validation tests via ctypes (need host C++ compiler that
this Windows machine lacks; algorithmic parity enforced by review)
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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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> |