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gps-denied-onboard/e2e/runner/helpers/msp_frame_observer.py
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Oleksandr Bezdieniezhnykh a644debdb7 [AZ-416] [AZ-417] [AZ-419] Test batch 72: FT-P-09 AP/iNav + FT-P-11 cold start 
- AZ-416 (FT-P-09-AP): fills mavproxy_tlog_reader.iter_messages with
  pymavlink body (AZ-406 surface kept); adds ap_contract_evaluator
  covering AC-1 (signing handshake <=5s), AC-2 (GPS_INPUT >=4.5 Hz),
  AC-3 (EK3_SRC1_POSXY=3), AC-4 (GPS_RAW_INT health >=80%); scenario
  forces fc_adapter=ardupilot.
- AZ-417 (FT-P-09-iNav): msp_frame_observer covering AC-2 (MSP rate)
  and AC-3 (fix_type/provider/numSat); scenario forces
  fc_adapter=inav.
- AZ-419 (FT-P-11): cold_start_evaluator covering AC-1 (operator
  manifest origin), AC-2 (FC EKF fallback), AC-3 (no-origin abort),
  AC-4 (bounded-delta conflict, ADR-010 Principle #11 amended);
  scenario parametrized on origin_source plus dedicated no-origin
  abort scenario.
- All scenarios skip-gated on upstream frame_source_replay /
  imu_replay / fdr_reader / sitl_observer extensions.
- +67 unit tests; full e2e unit suite: 460 passed.
- K=3 cumulative review fired: PASS for batches 70-72.

See _docs/03_implementation/batch_72_report.md,
_docs/03_implementation/reviews/batch_72_review.md,
_docs/03_implementation/cumulative_review_batches_70-72_cycle1_report.md.

Co-authored-by: Cursor <cursoragent@cursor.com>
2026-05-17 07:49:17 +03:00

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"""MSP2 frame observer for FT-P-09-iNav (AZ-417 / AC-4.3).
iNav consumes MSP2 over a TCP socket on port 5760. The SUT's
``c8_fc_adapter`` (iNav-side) emits ``MSP2_SENSOR_GPS`` (function ID
0x1F03) frames at a configured cadence (target 5 Hz per AC-2).
This helper owns the pure-logic side of FT-P-09-iNav:
* ``compute_rate_hz`` — given a sequence of frame-arrival timestamps,
return the observed Hz over a window.
* ``count_frames_by_id`` — filter + tally per MSP function ID.
* ``evaluate_inav_gps_state`` — given a snapshot of iNav's ``gpsSol``
+ ``provider`` after replay, assert AC-3 (fix_type ≥ 3, provider =
MSP, numSat matches the emitted value).
The TCP-probe + actual MSP frame capture path is owned by AZ-407
(``runner.helpers.sitl_observer``) and the iNav SITL docker compose
service. This module only consumes already-captured data.
Public-boundary discipline: does NOT import any ``src/gps_denied_onboard``
symbol.
"""
from __future__ import annotations
from dataclasses import dataclass
from typing import Sequence
MSP2_SENSOR_GPS_FUNCTION_ID = 0x1F03
DEFAULT_TARGET_RATE_HZ = 5.0
MIN_OBSERVED_RATE_HZ = 4.5 # AC-2: ≥4.5 Hz observed for 5 Hz target
MIN_FIX_TYPE = 3 # AC-3: gpsSol.fixType ≥ 3
REQUIRED_PROVIDER = "MSP" # AC-3: provider=MSP (no fallback to internal GPS)
@dataclass(frozen=True)
class MspFrameSample:
"""One MSP frame as captured by the SITL-side observer."""
monotonic_ms: int
function_id: int
@dataclass(frozen=True)
class InavGpsSnapshot:
"""Snapshot of iNav's ``gpsSol`` + provider state after replay."""
fix_type: int
num_sat: int
provider: str
@dataclass(frozen=True)
class RateReport:
"""Observed rate over a window with pass/fail vs spec target."""
frame_count: int
window_ms: int
observed_rate_hz: float
target_rate_hz: float
min_required_hz: float
@property
def passes(self) -> bool:
return (
self.window_ms > 0
and self.observed_rate_hz >= self.min_required_hz
)
@dataclass(frozen=True)
class InavGpsReport:
"""Evaluation of iNav GPS state against AC-3."""
snapshot: InavGpsSnapshot
expected_num_sat: int
fix_type_ok: bool
provider_ok: bool
num_sat_ok: bool
@property
def passes(self) -> bool:
return self.fix_type_ok and self.provider_ok and self.num_sat_ok
def count_frames_by_id(samples: Sequence[MspFrameSample]) -> dict[int, int]:
"""Tally per MSP function ID."""
counts: dict[int, int] = {}
for s in samples:
counts[s.function_id] = counts.get(s.function_id, 0) + 1
return counts
def compute_rate_hz(
samples: Sequence[MspFrameSample],
*,
function_id: int = MSP2_SENSOR_GPS_FUNCTION_ID,
target_rate_hz: float = DEFAULT_TARGET_RATE_HZ,
min_required_hz: float = MIN_OBSERVED_RATE_HZ,
) -> RateReport:
"""Compute observed Hz for the given function_id over the sample window.
The window is ``[first_sample.monotonic_ms, last_sample.monotonic_ms]``
inclusive. A window of zero ms (≤1 matching sample) is reported but
will not pass.
"""
if min_required_hz < 0:
raise ValueError(f"min_required_hz must be ≥0, got {min_required_hz}")
filtered = [s for s in samples if s.function_id == function_id]
if len(filtered) < 2:
return RateReport(
frame_count=len(filtered),
window_ms=0,
observed_rate_hz=0.0,
target_rate_hz=target_rate_hz,
min_required_hz=min_required_hz,
)
window_ms = filtered[-1].monotonic_ms - filtered[0].monotonic_ms
if window_ms <= 0:
return RateReport(
frame_count=len(filtered),
window_ms=window_ms,
observed_rate_hz=0.0,
target_rate_hz=target_rate_hz,
min_required_hz=min_required_hz,
)
# Rate = (count - 1) / (window in seconds); the first frame is the
# epoch boundary, subsequent frames define the cadence.
observed = (len(filtered) - 1) / (window_ms / 1000.0)
return RateReport(
frame_count=len(filtered),
window_ms=window_ms,
observed_rate_hz=observed,
target_rate_hz=target_rate_hz,
min_required_hz=min_required_hz,
)
def evaluate_inav_gps_state(
snapshot: InavGpsSnapshot,
*,
expected_num_sat: int,
min_fix_type: int = MIN_FIX_TYPE,
required_provider: str = REQUIRED_PROVIDER,
) -> InavGpsReport:
"""Validate AC-3: fix_type ≥3, provider=MSP, numSat matches emitted value."""
if expected_num_sat < 0:
raise ValueError(f"expected_num_sat must be ≥0, got {expected_num_sat}")
return InavGpsReport(
snapshot=snapshot,
expected_num_sat=expected_num_sat,
fix_type_ok=snapshot.fix_type >= min_fix_type,
provider_ok=snapshot.provider == required_provider,
num_sat_ok=snapshot.num_sat == expected_num_sat,
)
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