Adapt C11 HttpTileDownloader to the AZ-505 v1.0.0 tile-inventory
contract (POST /api/satellite/tiles/inventory + GET /tiles/{z}/{x}/{y})
and wire the Jetson e2e harness against the real parent-suite
satellite-provider service. Closes Phase 1 of 5 for AZ-777; STOP
gate before Phase 2 (Derkachi catalog seed).
C11 changes:
- _LIST_PATH / _GET_PATH replaced with _INVENTORY_PATH + _TILES_PATH.
- _do_enumerate enumerates bbox tile coords client-side and posts
chunked inventory requests (5000-entry cap per the contract).
- _download_one_tile parses tile_id_str into (z,x,y) and fetches
the slippy-map URL.
- Common GET / POST retry+auth ladder consolidated into _send_request.
- New module helpers: _enumerate_bbox_tile_coords,
_tile_center_latlon, _tile_size_meters_at, _format_tile_id_str,
_parse_tile_id_str, _chunk_iter.
- _DEFAULT_ESTIMATED_TILE_BYTES (50 KiB) replaces the inventory-side
estimatedBytes field the v1.0.0 contract dropped.
Tests:
- 14/14 unit tests in tests/unit/c11_tile_manager/test_tile_downloader.py
rewritten for the new POST inventory + slippy-map GET handler.
_StubTileWriter rekeyed by call-index (the downloader now derives
lat/lon from the slippy-map coord, so fixtures can't fabricate
arbitrary positions).
- New Tier-2 smoke at tests/e2e/satellite_provider/test_smoke.py:
validates inventory POST schema + drives HttpTileDownloader against
the real service. Gated by RUN_REPLAY_E2E=1 + tier2.
Compose / env:
- e2e-runner SATELLITE_PROVIDER_URL switched from mock-sat:5100 to
https://satellite-provider:8080; TLS_INSECURE + Bearer JWT env +
depends_on satellite-provider added.
- .env.test.example documents SATELLITE_PROVIDER_API_KEY + dev TLS
bypass security note.
- scripts/mint_dev_jwt.py mints HS256 dev JWTs from env / .env.test.
- pyjwt added to dev extras.
Tracker hygiene:
- AZ-777 row in _dependencies_table.md bumped 5pt -> 8pt to match
the 2026-05-21 override decision log.
Code review: PASS_WITH_WARNINGS (3 medium/low findings, all deferred
to later AZ-777 phases) -- see batch_104_review.md. Batch report at
batch_104_cycle3_report.md.
Co-authored-by: Cursor <cursoragent@cursor.com>
Replay CLI synthesizes a minimal Config whose `components` mapping
omits the strategy-component blocks (`c6_tile_cache`, `c7_inference`,
`c5_state`) the airborne bootstrap historically read unconditionally.
Add `_replay_omits_component_block` and gate the c6 seeds, the c7 +
c3_lightglue_runtime pair, and the c5 (estimator, handle) eager build
on `config.mode == "replay" AND block absent`. Live mode and any
replay config that DOES populate the blocks remain unchanged — the
guard is conditional, not blanket.
The skip is safe because compose_root's per-component wrappers only
run for slugs in `config.components`; absent blocks mean absent
wrappers, so the seeded slots would never be read. Fix lives at the
BUILD-PRE-CONSTRUCTED layer per the spec's explicit "no silent fallback
in `_c6_config`" constraint.
Covers AC-687-1 / AC-687-2 / AC-687-4. AC-687-3 (Jetson Tier-2 e2e
replay) requires an out-of-band hardware re-run; evidence destination
documented in autodev state.
Co-authored-by: Cursor <cursoragent@cursor.com>
Wire register_airborne_strategies + build_pre_constructed +
compose_root(config, pre_constructed=...) into runtime_root.main(). The
existing exception block now catches AirborneBootstrapError distinctly
before the broader (ConfigurationError, StrategyNotLinkedError,
RuntimeError) clause so the operator-facing "airborne_bootstrap:"
prefix carried by every bootstrap error reaches stderr cleanly with
EXIT_GENERIC_FAILURE rather than getting absorbed into a generic
backtrace.
This closes the AZ-618 umbrella: AZ-619..AZ-623 + AZ-625 had built
each pre_constructed key; this batch lands the integration that the
production main() actually invokes them. Both the live
gps-denied-onboard and replay gps-denied-replay binaries dispatch
through this main() per ADR-011, so both reach takeoff with
pre_constructed populated end-to-end.
Tests: tests/unit/runtime_root/test_az618_pre_constructed.py adds 6
tests covering AC-618-1..AC-618-4 + AZ-624 local handler-ordering
regression guard. The strategy factories are stubbed at the
airborne_bootstrap module boundary so the test exercises the
integration seam without standing up gtsam / FAISS / TensorRT /
PyTorch / OpenCV at unit-test scope.
AC-618-5 (Jetson tier-2 e2e) is BLOCKED on operator-supplied hardware
evidence: scripts/run-tests-jetson.sh
tests/e2e/replay/test_derkachi_1min.py must run on Jetson Orin Nano
(JetPack 6.2.2+b24) and the terminal log path + JetPack version + run
timestamp captured per _docs/02_document/tests/tier2-jetson-testing.md.
Quality gates: ruff format clean, ruff lint clean, 6/6 new umbrella
tests pass, 261/261 runtime_root + c5_state regression suite passes,
25/25 test_az401_compose_root_replay regression passes, full Tier-1
unit suite 2150/2151 passes (1 unrelated pre-existing failure:
c12_operator_orchestrator subprocess cold-start NFR fails on Mac dev
host's Python startup ~700 ms; not regressed by AZ-624). Code review
verdict PASS (1 Low finding; full report in
_docs/03_implementation/reviews/batch_96_review.md).
Archives AZ-624 task spec + AZ-618 umbrella reference to done/.
Co-authored-by: Cursor <cursoragent@cursor.com>
Wire the airborne bootstrap to seed pre_constructed['c5_isam2_graph_handle']
so c4_pose's compose-time lookup is satisfied (c4_pose runs before c5_state in
topological order; the iSAM2 graph handle is built INSIDE the C5 estimator's
constructor and so must be produced eagerly at bootstrap time).
build_pre_constructed now invokes a new internal _build_c5_state_estimator_pair
helper that calls state_factory.build_state_estimator once, captures the
(estimator, handle) tuple, and seeds two slots: 'c5_isam2_graph_handle' for
C4's lookup, and an internal '_c5_prebuilt_estimator' look-aside key for the
C5 wrapper's short-circuit. _c5_state_wrapper checks the look-aside key first
and returns the prebuilt instance as-is — the SAME object the handle was
extracted from, so c4_pose._isam2_handle and c5_state._isam2_handle reference
ONE object across the C4 / C5 seam (AC-625.3 cross-seam identity invariant).
C5_STATE_BUILD_FLAGS mirrors state_factory._STATE_BUILD_FLAGS so the bootstrap
can name the gating BUILD_STATE_* flag in operator errors before the lower
level StateEstimatorConfigError fires (AC-625.2). When the factory itself
rejects the configuration with the flag ON, the error wraps into
AirborneBootstrapError with __cause__ preserved (matches AZ-621 / AZ-622
patterns).
Constraints respected per AZ-618 umbrella: no per-component factory signature
changed; additive on top of AZ-619..AZ-623; no edits under state_factory,
pose_factory, or c5_state internals.
Tests: tests/unit/runtime_root/test_az625_c5_isam2_graph_handle_ordering.py
adds 8 tests covering AC-625.1..3 (presence + Protocol conformance, internal
key invariant, BUILD-flag-OFF error, unknown-strategy error, factory error
wrapping, cross-seam identity, wrapper short-circuit, wrapper fallback).
Autouse stubs added to test_az619/620/621/622/623 so prior phase tests stay
isolated from the new builder.
Quality gates: ruff format clean, ruff lint clean, 32/32 phase tests pass,
255/255 runtime_root + c5_state regression suite passes. Code review verdict
PASS (2 Low findings; full report in
_docs/03_implementation/reviews/batch_95_review.md).
Co-authored-by: Cursor <cursoragent@cursor.com>
build_pre_constructed now populates c3_lightglue_runtime
(LightGlueRuntime) + c3_feature_extractor (FeatureExtractor) on top
of AZ-619/620/621. Strategy-specific BUILD_MATCHER_* flag mismatch
raises AirborneBootstrapError naming the missing flag and the c3_matcher
consumer; the c7 InferenceRuntime built earlier in the bootstrap is
reused as the engine source so no double-build at this layer.
C3MatcherConfig gains optional lightglue_weights_path: Path | None
for the operator's deployment config; production main() (AZ-624)
populates it. Real LightGlue inference correctness is verified by
AZ-624's Jetson AC-5 run per the AZ-622 Tier-2 Note.
Phase tests for AZ-619/620/621 gain an autouse _stub_c3_matcher_builders
fixture so additivity assertions remain valid as the bootstrap grows.
Code review: PASS_WITH_WARNINGS (3 Low: signature drift from spec,
_is_build_flag_on duplication across 3 runtime_root modules, and
BuildConfig literal mirrored with per-strategy build configs). All
deferred to future hygiene PBIs.
Co-authored-by: Cursor <cursoragent@cursor.com>
Catches up implement skill Step 14.5 cadence (K=3 missed since
batches 82-84): one review covering the 88-92 window after the
previous session backfilled the missing 85-87 review at the wrong
path. Renames reviews/cumulative_review_batches_85_87.md to the
canonical cumulative_review_batches_85-87_cycle1_report.md so the
implement skill's resumability detects it.
Cumulative review 88-92 verdict: PASS_WITH_WARNINGS.
- CR-F1/F2 carry-overs from 85-87 escalated (write_csv_evidence +
_resolve_fixture_path duplication now in 17 files each).
- CR-F3 process: batch_90/91_review.md missing on disk; batches'
inline self-reviews substitute.
- Phase 7 architecture clean: airborne_bootstrap.py imports all
Layer-5 sibling or lower, no new cycles, public APIs respected.
State: still Step 7 (Implement) sub_step 16 batch-loop. Next: batch
93 = AZ-622 (Phase D, 3cp) — fresh session recommended.
Co-authored-by: Cursor <cursoragent@cursor.com>
Third subtask of AZ-618. Extends airborne_bootstrap.build_pre_constructed
additively with c7_inference (GPU InferenceRuntime). Wraps the existing
inference_factory.build_inference_runtime so a BUILD_TENSORRT_RUNTIME /
BUILD_PYTORCH_FP16_RUNTIME mismatch surfaces a clear operator-facing
AirborneBootstrapError naming BOTH airborne C7 flags plus the consuming
component slug, rather than bubbling up RuntimeNotAvailableError with no
context.
New public const C7_AIRBORNE_BUILD_FLAGS pairs each airborne runtime
with its gating env flag (onnx_trt_ep deliberately omitted — research
only). Tests stub at the factory boundary; real GPU/TensorRT load
remains Tier-2 only (consolidated at AZ-624). AZ-619 and AZ-620 test
files extended with a _stub_c7_inference_builder autouse fixture
mirroring the AZ-620 pattern for _build_c6_*.
18/18 runtime_root unit tests pass.
Co-authored-by: Cursor <cursoragent@cursor.com>
Batch 89 — adds optional `band`, `ci95_low`, `ci95_high` kw-only
parameters to `_NfrRecorder.record_metric` and emits a new per-metric
report.csv artifact (one row per scenario × metric, columns:
scenario_id, metric_name, value, value_band, ci95_low, ci95_high,
ac_id, outcome). Backwards compatible — existing 4-arg callers
unchanged; unbalanced ci95 pair raises ValueError. report.csv is
written once per pytest session from `pytest_sessionfinish` so the
annotation pass runs once per CI invocation regardless of
(fc_adapter, vio_strategy) (AC-3). `regression-baseline.json`
intentionally kept flat to preserve the diff contract used by
regression-detection tooling.
NFT-RES-03 + NFT-PERF-01 scenarios updated to pass real bands and
compute empirical 2.5/97.5-percentile ci95 from their own sample
streams (per-iteration envelope ratios for Monte Carlo,
per-frame latency samples for N-sample latency).
Tests: 1229 e2e/_unit_tests pass (+6 vs. batch 88 for AZ-446
band/CI behavior, value-error on unbalanced ci95, report.csv columns,
explicit-path override, and end-to-end emission via the pytest
plugin). Code review: PASS_WITH_WARNINGS — 1 Low (empirical-CI
semantics, documented inline), 1 Medium carried over from batch 88's
cumulative-review backlog (write_csv_evidence + _resolve_fixture_path
duplication is outside AZ-446 reporting scope).
This commit closes Step 10 Implement Tests for cycle 1 (41 of 41
blackbox-test tasks done, AZ-406..AZ-446). Greenfield auto-chains to
Step 11 Run Tests next.
Co-authored-by: Cursor <cursoragent@cursor.com>
Batch 88 — adds four resource-limit blackbox scenarios + pure-logic
helpers + unit tests:
- NFT-LIM-01 Jetson memory (AC-NEW-13): tier2_only; Plan A/B budgets;
AC-4 OOM-event scan; 30 s warm-up window; VmRSS + tegrastats streams.
- NFT-LIM-02 FDR size (AC-7.3): 30 min → 8 h linear extrapolation
against 50 GiB; ±60 s replay-window slack for AC-1.
- NFT-LIM-03+05 storage (AC-7.4 + AC-NEW-12 + RESTRICT-STORAGE):
aggregate ≤ 100 GiB across tile-cache + tile-cache-write +
fdr-output; thumbnail-log < 1 GiB strict 8 h-extrapolated.
- NFT-LIM-04 thermal (AC-NEW-5 PARTIAL): tier2_only; CPU/SoC p99
≤ T_throttle − 5 °C; throttle-event scan; PARTIAL annotation written
to traceability-status.json. Thresholds fixture lives at
e2e/fixtures/jetson/thermal-thresholds.json (moved from the
task spec's suggested tests/fixtures/ path so the file stays
inside the blackbox_tests Owns: e2e/** envelope).
All four helpers are public-boundary-only (no src/gps_denied_onboard
imports). Scenarios skip cleanly in the Tier-1 docker harness pending
AZ-595 (SITL replay builder) for the four shared fixture inputs and
AZ-444 (Tier-2 Jetson runner) for the tier2_only scenarios.
Code review: PASS_WITH_WARNINGS (0/0/2/1). Both Mediums are
carried-over write_csv_evidence + _resolve_fixture_path duplication,
deferred to AZ-446 (batch 89). Low is the self-resolved AZ-443 fixture
ownership drift documented in the review.
Tests: 1223 e2e/_unit_tests passing (+1 vs. batch 87 from the new
directory-layout entry); 24 resource_limit scenarios collect and skip
cleanly under runner/pytest.ini.
Co-authored-by: Cursor <cursoragent@cursor.com>
FT-P-15: parse FDR `cache-self-check` records; assert every tile-manifest
entry has CRS, tile_matrix, dimension, m_per_px, capture_date, source,
compression; m_per_px >= 0.5 (or rejected by FDR `tile-load-rejected`).
FT-P-16: read `docker network inspect e2e-net` + `docker inspect <sut>`
snapshots; assert `Internal == true` AND SUT attached only to e2e-net.
The 0-egress semantic of AC-8.3 is enforced structurally.
FT-P-18: walk FDR + tile-cache, probe JPEG dimensions via stdlib SOF
parser, reject any file matching nav-camera raw pattern (5472x3648 or
880x720). Extrapolate thumbnail-log size to 8h; assert < 1 GB.
Adds runner.helpers.tile_cache_inspector with five evaluators
(manifest schema, offline mode, raw-frame detection, thumbnail budget,
JPEG dimension probe) + walk_files helper. Pure-logic coverage: 43
new unit tests; full e2e/_unit_tests/ suite 793 passing (was 746).
Scenarios skip locally when SITL replay fixture or docker-inspect
env vars are missing; production hooks (cache-self-check FDR record,
tile-load-rejected events, docker-inspect snapshots) are tracked
outside this task.
See _docs/03_implementation/batch_82_report.md +
reviews/batch_82_review.md.
Co-authored-by: Cursor <cursoragent@cursor.com>
Archive AZ-420 to done/; add cumulative review for batches 79-81 (PASS,
no new findings); advance autodev state to await batch 82.
Co-authored-by: Cursor <cursoragent@cursor.com>
FT-P-12: parse mavproxy-listener tlog over a 60 s Derkachi replay and
assert SUT->GCS GLOBAL_POSITION_INT cadence lands in [1, 2] Hz (AC-6.1).
FT-P-13: inject `RELOC:<lat>,<lon>,<radius_m>` STATUSTEXT while the SUT
is in dead_reckoned; verify FDR `c8.gcs.operator_command` ack <=2s,
`anchor_search_region` centre shifts toward the hint, and no
BAD_SIGNATURE / UNAUTHORIZED / REJECTED STATUSTEXT lands in the
post-inject window (AC-6.2).
Adds runner.helpers.gcs_telemetry_evaluator (rate, hint-ack correlation,
haversine search-region shift, rejection scan) and
sitl_observer.capture_gcs_tlog (parity surface to capture_ap_tlog).
Pure-logic coverage: 39 new unit tests; full e2e/_unit_tests/ suite
746 passing (was 700). Scenarios skip locally on missing SITL replay
fixture; production hooks (inbound STATUSTEXT parser, anchor_search_region
FDR emitter) tracked outside this task.
See _docs/03_implementation/batch_81_report.md +
reviews/batch_81_review.md.
Co-authored-by: Cursor <cursoragent@cursor.com>
Phase 1: extend sitl_observer with cursor-based `wait_for_outbound`
returning `OutboundMessage` from `outbound_messages_<fc_kind>_<host>.json`
fixtures. Three outcomes: message, TimeoutError (null entries), or
RuntimeError (missing/malformed). Fix FT-P-01 + FT-P-05 scenarios to
use `fc_kind=` kwarg.
Phase 2: FT-P-01 vertical-slice fixture builder under
`e2e/fixtures/sitl_replay_builder/`. Reuses the production
`gps-denied-replay` CLI + `ReplayInputAdapter`: encode 60 stills as
1 fps MP4 + synthetic stationary tlog (pymavlink); run replay;
project FDR outbound estimates into the schema. Avoids the
13+ cp of SUT-side frame-ingestion that a live-SITL-capture path
would have required. Live execution remains a manual operator step.
+35 unit tests (664 total, up from 637). K=3 cumulative review for
b76-b78 documents the offline-replay arc convergence.
Co-authored-by: Cursor <cursoragent@cursor.com>
Add `runner/helpers/replay_mode.py` (NullFrameSink, NullFcInboundEmitter,
default_frame_period_ms, load_replay_json, resolve_replay_subdir,
imu_replay_noop) and rewire all 13 scenarios off their local
`_resolve_*` / `_drive_*` / `_push_*` NotImplementedError stubs.
Closes the offline FDR-replay execution path. `grep raise
NotImplementedError` under `e2e/tests/` now returns zero matches. +17
unit tests (626 total, up from 608). Unit-test behaviour unchanged
(scenarios still skip via b75 sitl_replay_ready gate when
E2E_SITL_REPLAY_DIR is unset).
Co-authored-by: Cursor <cursoragent@cursor.com>
Add `runner/helpers/fc_proxy_runtime.py` wrapping the existing
`BlackoutSpoofProxy` (AZ-406) with a scenario-facing `drive_fc_proxy`
entry point. FDR-replay mode only: loads `schedule.json`, optionally
activates the proxy against a caller clock for alignment verification,
and writes a `proxy_drive_report.json` audit record into
`${E2E_SITL_REPLAY_DIR}` for downstream evaluators.
Replaces the local `_drive_fc_proxy` stub in FT-N-04. Adds 3
@property accessors on `BlackoutSpoofProxy` so the wrapper does not
reach into private attributes. +11 unit tests (608 total, up from
596). Live-mode router wiring remains out of scope (future ticket).
Co-authored-by: Cursor <cursoragent@cursor.com>
Implement all 11 `sitl_observer` public surfaces as an offline
FDR-replay strategy (reads JSON fixtures under `${E2E_SITL_REPLAY_DIR}`
instead of live pymavlink/yamspy). Replace 12 per-scenario
`_harness_helpers_implemented` probes with one shared session-scoped
`sitl_replay_ready` fixture in `e2e/tests/conftest.py`.
Net: -636 LoC of duplicated scenario gating, +17 LoC shared fixture,
+38 new unit tests (596 total, up from 558). Includes K=3 cumulative
review for batches 73-75 (PASS).
Co-authored-by: Cursor <cursoragent@cursor.com>
Replaces the NotImplementedError stubs AZ-406 reserved on three runner-
side helpers; these were stranded from any tracker ticket since
AZ-407/408 never came back to fill them. Concrete bodies:
* fdr_reader.iter_records: JSONL parser + wire-envelope validator;
recursive *.jsonl walk; projects {schema_version, ts, producer_id,
kind, payload} to runner-side FdrRecord with record_type/monotonic_ms
renames; yields oldest-first.
* frame_source_replay.replay_video: OpenCV VideoCapture decode + JPEG
re-encode; auto-detects file vs directory; injectable sleep_fn for
unit-test pacing.
* imu_replay.ImuReplayer.replay: csv.DictReader parse; degrees->radians
attitude conversion; tolerates scientific notation; same sleep_fn
injection pattern.
Adds 34 unit tests (14 + 10 + 10). Full e2e unit suite: 558 passed (+31).
Existing scenario _harness_helpers_implemented probes still return False
because they also depend on sitl_observer / fc_proxy_runtime stubs that
remain pending; scenario probe cleanup is out of AZ-594 scope.
Co-authored-by: Cursor <cursoragent@cursor.com>
All FC adapter outbound MAVLink bytes now go through the AZ-401
MavlinkTransport seam (NoopMavlinkTransport in replay,
SerialMavlinkTransport in live). New helpers in
_outbound_mavlink_payloads.py extract encode/pack/seq-bump so the four
AP _send sites and the iNav statustext _send site become
encode -> pack -> transport.write. TlogReplayFcAdapter emits real
AP-shape MAVLink bytes through the injected NoopMavlinkTransport,
satisfying replay protocol Invariant 5 and unblocking AZ-401 AC-9.
Closes AZ-558. Also unskips AZ-401 AC-9 and AZ-404 AC-4b. Live wire
output remains byte-identical (proven via two-instance MAVLink
byte-equivalence tests). AST scan asserts no .mav.<name>_send( calls
remain in the retrofit set (AP / iNav / tlog adapters).
Out of scope (logged in review): GCS adapter retrofit; airborne live
strategy registration that would activate the SerialMavlinkTransport
factory injection path.
Tests: 2110 passed, 92 environmental skips, 1 unrelated pre-existing
macOS cold-start flake deselected.
Co-authored-by: Cursor <cursoragent@cursor.com>
Implements the replay-mode CLI dispatcher per ADR-011 (replay-as-
configuration):
- src/gps_denied_onboard/cli/replay.py: argparse with all 6 required
args (--video, --tlog, --output, --camera-calibration, --config,
--mavlink-signing-key) plus --pace and --time-offset-ms; path
validation, calibration JSON schema-validation, config mutation
(mode='replay' + replay sub-block + signing-key hex on dev_static
field), dispatch into runtime_root.main(config).
- runtime_root.main() now accepts an optional Config (additive,
backward-compat). Adds dedicated catch for ReplayInputAdapterError
mapping to EXIT_FDR_OPEN_FAILURE (2) so the CLI's exit-code matrix
holds end-to-end (AC-9 + epic AZ-265 AC-8).
- Signing-key contents stored as hex; redacted in startup banner.
- Top-level except logs full traceback via logger.exception + stderr
print and exits 1.
The CLI does NOT call compose_root directly — it builds a Config and
hands it to the shared airborne main, which calls compose_root, which
branches on config.mode (AZ-401 / replay protocol Invariant 11).
Tests: 22 unit tests covering AC-1..AC-10 + extras (signing-key
redaction, file-not-dir validation, dev_static propagation, unhandled
exception traceback). Full regression: 2085 passed (+22) green; no
new flaky tests.
Co-authored-by: Cursor <cursoragent@cursor.com>
Wires the airborne composition root for replay-as-configuration (ADR-011):
- compose_root(config) branches on config.mode in {"live", "replay"}.
Live behaviour is unchanged; replay builds ReplayInputAdapter,
attaches JsonlReplaySink, and injects NoopMavlinkTransport.
- New private module runtime_root/_replay_branch.py holds the
replay-only strategy graph + build-flag gate + calibration loader.
- Config gains Config.mode (Literal["live","replay"]) plus
Config.replay sub-block with nested ReplayAutoSyncConfig that mirrors
the AZ-405 AutoSyncConfig DTO; YAML loader + ENV map updated.
Absorbs the AZ-400 transport-seam retrofit that AZ-401 strictly
required but AZ-400 had not delivered:
- New MavlinkTransport Protocol (write/bytes_written/close).
- NoopMavlinkTransport (replay; build-flag gated, idempotent close,
thread-safe byte counter).
- SerialMavlinkTransport (live, no-op restructure of existing pymavlink
byte path; encoder retrofit to actually USE it is the AZ-558
follow-up).
AZ-401 AC-9 (NoopMavlinkTransport.bytes_written > 0 after C8 encoders
run) is BLOCKED on AZ-558 — the encoder routing retrofit is out of
the AZ-401 task envelope (FORBIDDEN files: pymavlink_ardupilot_adapter,
msp2_inav_adapter). AZ-558 spec, batch_61_review.md, and the test's
@pytest.mark.skip rationale all carry the deferral reason.
Tests: 22 compose_root replay-branch tests + 17 transport tests.
Full regression: 2063 passed, 86 environment-skips, 1 documented
skip (AC-9 / AZ-558), 1 pre-existing flaky perf test deselected.
Co-authored-by: Cursor <cursoragent@cursor.com>
Adds the Layer-4 cross-cutting `replay_input/` module per ADR-011:
ReplayInputAdapter converges (video, tlog) into the standard
FrameSource + FcAdapter + Clock surfaces the airborne composition
root consumes. Owns time-alignment between video frames and tlog
IMU/attitude ticks (manual via --time-offset-ms or auto via the
AZ-405 IMU-take-off detector + Farneback motion-onset detector).
Auto-sync algorithm (auto_sync.py):
- Tlog take-off detector: sustained vertical-accel excess > 0.5 g for
>= 0.5 s + sustained attitude-rate magnitude > 1 rad/s.
- Video motion-onset detector: dense Farneback flow magnitude > 1.5 px
sustained >= 0.5 s (deterministic per AC-10).
- compute_offset combines the two; confidence = min(tlog, video).
- validate_offset_or_fail implements the AC-9 95 % frame-window match
validator with configurable threshold + window.
ReplayInputAdapter.open() ordering (AC-13):
1. Load tlog samples + fail-fast on missing RAW_IMU/SCALED_IMU2 or
ATTITUDE BEFORE any video read.
2. Resolve offset (auto-sync OR manual override; manual bypasses the
detectors entirely per AC-8).
3. Run AC-9 validator on resolved offset; raise auto-sync hard-fail
for AC-7 (CLI exit 2 mapping).
4. Build single Clock instance per pace (TlogDerived/ASAP, Wall/REAL).
5. Construct VideoFileFrameSource and TlogReplayFcAdapter with the
resolved offset baked in (replay protocol Invariant 8).
Structured log + FDR records on auto-sync detected / low-confidence /
AC-8 hard-fail kinds. Idempotent close (AC-12).
Tests: 25 unit tests across tests/unit/replay_input/ covering all 13
ACs (kernel-level synthetic fixtures for AC-1..AC-10; coordinator-
level OpenCV synthetic videos + faked pymavlink for AC-6..AC-13).
Contract update: replay_protocol.md v2.0.0 added fdr_client to the
ReplayInputAdapter __init__ signature (was missing in the prose; the
task spec already listed it in the allowed-imports section).
Co-authored-by: Cursor <cursoragent@cursor.com>
Opens E-DEMO-REPLAY (AZ-265): the two C8 strategies that let the
upcoming compose_replay (AZ-401) and gps-denied-replay CLI (AZ-402)
run the production C1-C5 pipeline against a recorded (.tlog, video)
pair without touching live FC I/O.
AZ-400 lands the contract ReplaySink Protocol (emit + close per
replay_protocol.md v1.0.0) and JsonlReplaySink: orjson-serialised
JSONL, fsync-on-close, build-flag gated (BUILD_REPLAY_SINK_JSONL),
double-close idempotent, FDR mirror on open/close. The drifted
AZ-390 stub in interface.py is removed; the canonical Protocol now
lives in replay_sink.py per module-layout.md and is re-exported via
__init__.py. AZ-390 conformance test widened.
AZ-399 lands TlogReplayFcAdapter: full FcAdapter Protocol surface,
build-flag gated (BUILD_TLOG_REPLAY_ADAPTER), pymavlink stream-parse
with bounded pre-scan + fail-fast on missing required messages
(R-DEMO-3), dedicated decode thread feeding the existing AZ-391
SubscriptionBus. Outbound surface raises FcEmitError per Invariant 5;
request_source_set_switch raises SourceSetSwitchNotSupportedError.
Pacing honours Invariant 6 via Clock.sleep_until_ns. time_offset_ms
shifts every emitted received_at per Invariant 8. Non-monotonic
timestamps raise FcOpenError.
Test coverage: 188 c8_fc_adapter tests pass; 1 skipped (AZ-399 AC-1
500 MB tlog RSS bound, deferred to AZ-404 e2e behind RUN_REPLAY_E2E).
Code review: PASS_WITH_WARNINGS — 1 Medium (mapping logic duplicates
AZ-391 live decoder; intentional today, four behavioural deltas
documented), 2 Low.
Co-authored-by: Cursor <cursoragent@cursor.com>
Implement the single production-default C4 PoseEstimator strategy.
AZ-358 — Marginals path: OpenCV solvePnPRansac (SOLVEPNP_IPPE) on
best-candidate inliers, PriorFactorPose3 with Jacobian-derived initial
covariance, flushed into C5's iSAM2 graph via the widened
ISam2GraphHandle.update(graph, values, None) (Option B). Posterior
covariance from compute_marginals().marginalCovariance(pose_key) with
SPD-defensive Cholesky check. Tile pixel -> ENU world conversion via
the shared WgsConverter + a configurable tile_size_px. Two spec
deviations now documented in the AZ-358 task file: PriorFactorPose3
over GenericProjectionFactorCal3DS2 (avoids unbounded landmark
variables; same Fisher information on the pose marginal) and explicit
(graph, values, timestamps) update args (aligns with C5's impl).
AZ-361 — Jacobian + thermal hybrid: per-frame dispatch on
thermal_state.thermal_throttle_active selects the cv2.projectPoints-
derived 6x6 information matrix (with ridge regularisation) as the
emitted covariance. Skips the iSAM2 factor add under throttle
(Invariant 12). Emits CovarianceDegradedWarning via warnings.warn
(never raised); paired WARN log + FDR record rate-limited per
covariance_degraded_warn_window_ns (default 60 s) via an injected
monotonic Clock. Supersedes the AZ-358 NotImplementedError stub.
Widens ISam2GraphHandle from get_pose_key only to all five C4-facing
methods (add_factor, update, compute_marginals, last_anchor_age_ms);
C5's existing ISam2GraphHandleImpl already satisfies the superset, so
no C5 source change this batch. Threads fdr_client + clock through
pose_factory composition.
Registers two new FDR payload kinds: pose.frame_done (per-call
telemetry; both success and PnpFailureError paths) and
pose.covariance_degraded (per-window throttle exposure).
Tests: 21 new (AZ-358 AC-1..11 + AZ-361 AC-1..10/12/13; AZ-361 AC-11
RMSE-ratio informational per spec, not asserted). Updates 2 existing
test files for Protocol widening and the FDR-schema round trip.
Code review verdict: PASS_WITH_WARNINGS (5 findings: Medium x2,
Low x3; none blocking). Full suite: 1958 passed, 1 unrelated
host-dependent perf failure (c12 CLI cold-start, pre-existing).
Co-authored-by: Cursor <cursoragent@cursor.com>
Implement the three concrete C3 CrossDomainMatcher strategies plus the
C3.5 production-default AdHoPRefiner.
C3 (AZ-345/346/347):
- DiskLightGlueMatcher + AlikedLightGlueMatcher share a single shared
_pipeline.run_lightglue_pipeline orchestrator (decode -> query
extract -> per-candidate loop -> RANSAC sort -> health update ->
FDR emit) so the only per-backbone delta is the keypoint+descriptor
extractor closure. ALIKED adds a create-time engine output-schema
probe (AC-special-1).
- XFeatMatcher owns its own per-candidate loop (single forward fuses
extraction + matching); it re-uses the shared FDR emission helpers
to keep telemetry byte-identical across strategies. lightglue_runtime
parameter accepted by factory but discarded (AC-special-1).
- All three consume the shared LightGlueRuntime / RansacFilter /
RollingHealthWindow helpers; no helper forks. InferenceRuntimeCut
consumer-side Protocol added per AZ-507.
C3.5 (AZ-349):
- AdHoPRefiner implements the <= conditional gate, runs the OrthoLoC
AdHoP TRT engine over best-candidate correspondences, re-runs RANSAC
on the perspective-preconditioned set, and emits an enriched
MatchResult with refinement_label="adhop".
- Invariant 4 passthrough fall-through: any RefinerBackboneError (TRT
failure, OOM, NaN, bad shape) is caught, logged ERROR, FDR-emitted
with error: true, and converted to passthrough that still counts
against the rolling invocation-rate window. MemoryError and other
non-listed exceptions propagate by design (AC-5 closed-set
semantics).
- Rolling 60-s invocation-rate window + rate-limited WARN log
(configurable via ratelimited_warn_window_ns; default 60 s).
Shared changes:
- C3MatcherConfig + C3_5RefinerConfig extended with the new
weights/threshold/window fields.
- matcher_factory + refiner_factory optionally forward clock +
fdr_client to the strategy's create(); backward-compatible.
- fdr_client.records registers five new kinds: matcher.frame_done,
matcher.backbone_error, matcher.insufficient_inliers,
matcher.all_failed, refiner.frame_done.
Tests: 66 new (43 C3 parametrised + 23 AdHoP) covering 47/47 ACs;
focused suite green; full project test suite green except for one
pre-existing flaky CLI cold-start timing test unrelated to this batch.
Co-authored-by: Cursor <cursoragent@cursor.com>
Adds JsonSidecarWarmStartHintStore (atomic JSON + SHA-256 sidecar via
AZ-280) inside c1_vio, plus the cross-strategy WarmStartWiredStrategy
wrapper + prime_warm_start_from_disk / prime_warm_start_from_fc hooks
at runtime_root. AC-7 post-reset covariance inflation and AC-8 "no
fake confidence" baseline floor are enforced at the wiring layer so
no strategy module needed edits. Adds three c1_vio config fields
(warm_start_store_dir, warm_start_save_period_frames,
post_reset_covariance_inflation_factor) and registers the new FDR
kind vio.warm_start. 34 unit tests cover all 10 ACs + 3 NFRs.
Verdict PASS_WITH_WARNINGS — see
_docs/03_implementation/reviews/batch_56_review.md for the four
non-blocking documentation findings (F1 cold-start log kind shorthand,
F2 strategy-frame pose semantics, F3 dev-hardware perf smoke, F4
runtime_root importing c1-internal _facade_spine for shared FDR
conventions).
Closes AZ-335; depends on AZ-528 (batch 55).
Co-authored-by: Cursor <cursoragent@cursor.com>
Replace 3-way byte-equivalent orchestration-spine duplication across
okvis2.py / vins_mono.py / klt_ransac.py with a single c1-internal
helper at components/c1_vio/_facade_spine.py. Closes cumulative
review batches 52-54 Finding F1. No behaviour change — all existing
AZ-332 / AZ-333 / AZ-334 AC tests pass unmodified (114 c1_vio tests
green, 237 with adjacent regression suite).
The helper exposes 5 stateless free functions (now_iso, bias_norm,
se3_from_4x4, frame_ts_ns, frame_image) and a FacadeSpine mixin
class providing _classify_state / _tick_lost / _emit_transition.
Concrete strategies inherit the mixin and set spine-required
instance attributes in __init__. Mirrors the AZ-527 precedent for
c2_vpr-side _assert_engine_output_dim consolidation.
New test file test_az528_facade_spine.py covers AC-1..AC-8 with 19
tests, including an AST regression guard that prevents future
re-introduction of the consolidated free functions in any strategy
module, plus a Risk-1 static check that every strategy's __init__
assigns every spine-required attribute.
Archive AZ-528 task spec to done/, bump autodev state to batch 56.
Co-authored-by: Cursor <cursoragent@cursor.com>
Implement KltRansacStrategy, the ADR-002 engine-rule mandatory
simple-baseline VioStrategy for E-C1. Pure-Python facade over
OpenCV's cv2.goodFeaturesToTrack / calcOpticalFlowPyrLK /
findEssentialMat / recoverPose pipeline — no C++/pybind11 binding
by design so a Tier-0 workstation runs the strategy with
`pip install opencv-python` and the BUILD_KLT_RANSAC=ON gate alone.
Constructor + state machine + FDR transition spine mirror
Okvis2Strategy + VinsMonoStrategy so the AZ-331 factory + IT-12
comparative harness treat all three as drop-in substitutable; the
duplication is the consolidation target now formally in scope for
the next cumulative review (batches 52-54).
AC coverage: AC-1..AC-11 + NFR-perf mapped to passing tests
(25 tests, 23 pass + 2 tier-2 skipped on dev/CI runners; all 25
pass under GPS_DENIED_TIER=2). Honest-covariance invariant (AC-9)
implemented as residual-scatter / (N_inliers - 5) with an inlier-
count penalty — no client-side floor or smoother; cov Frobenius
grows monotonically across DEGRADED. Camera-agnostic source
(AC-11) enforced by CI-grep gate that excludes docstring text.
Test-Run Cadence: focused suite tests/unit/c1_vio/ green (95 passed,
6 skipped); config-loader + compose-root suites green; full-suite
gate deferred to Step 16 per implement skill.
Co-authored-by: Cursor <cursoragent@cursor.com>
VinsMonoStrategy: Python facade conforming to AZ-331 Protocol; mirrors
the AZ-332 OKVIS2 facade so the AZ-331 factory + IT-12 comparative
harness can treat both as drop-in substitutable. Native binding is a
pybind11 skeleton compiled behind BUILD_VINS_MONO=ON (default OFF for
airborne / operator-tooling / replay-cli per module-layout.md
Build-Time Exclusion Map). Real vins_estimator wiring is the Tier-2
follow-up.
VinsMonoConfig added to c1_vio/config.py with sliding-window /
feature-tracker / marginalisation / opt-iteration knobs plus
__post_init__ validation; exported through the package __init__.
cpp/vins_mono/CMakeLists.txt replaces the AZ-263 placeholder with full
pybind11 wiring: Risk-1 mitigation forces VINS_MONO_USE_ROS=OFF;
Risk-2 mitigation links Eigen from the same cpp/_third_party/eigen pin
as OKVIS2; Risk-3 mitigation enforces BUILD_VINS_MONO=OFF in
deployment binaries via the gate at the top of the file.
Tests: 17 new in test_vins_mono_strategy.py (15 pass + 2 tier2 skip);
fake_vins_mono_binding fixture added to conftest.py mirroring the
fake_okvis2_binding pattern; test_protocol_conformance updated to drop
vins_mono from _STRATEGIES_WITHOUT_PY_MODULE so the existing
parametrised factory tests route through the new strategy.
Focused c1_vio suite: 72 passed, 4 skipped. Full suite: 1788 passed,
1 unrelated pre-existing flake (c12 cold-start perf, env-bound).
Co-authored-by: Cursor <cursoragent@cursor.com>
Closes cumulative review batches 49-51 Finding F1 (Medium /
Maintainability) -- the 7-way duplication of _assert_engine_output_dim
across c2_vpr secondary VPR strategy modules.
Add c2-internal helper assert_engine_output_dim(inference_runtime,
handle, preprocessor, descriptor_dim, *, output_key='embedding',
input_key='input') in src/gps_denied_onboard/components/c2_vpr/
_engine_dim_assertion.py. The helper runs a zero-init dry-run
inference at preprocessor.input_shape() and asserts the engine output
dict carries (1, descriptor_dim) under output_key. Raises
gps_denied_onboard.config.schema.ConfigError on mismatch (preserving
the prior error envelope and message wording byte-identically).
Migrate 7 strategy modules (ultra_vpr, net_vlad, mega_loc, mix_vpr,
sela_vpr, eigen_places, salad) to import the helper and delete the
local _assert_engine_output_dim definitions + their inline
'AZ-527 (planned)' comments. NetVLAD is the only call site that
overrides output_key='vlad_descriptor'; the other 6 explicitly pass
output_key=_OUTPUT_KEY + input_key=_ENGINE_INPUT_KEY (matching helper
defaults but documenting strategy contract at the call site).
Add tests/unit/c2_vpr/test_az527_engine_dim_assertion.py (14 tests,
AAA pattern, Protocol-conforming fakes) covering AC-1..AC-4: helper
signature; wrong shape raises ConfigError naming both dims; missing
output key raises ConfigError naming the missing key; AST-walk
regression guard for stray definitions outside the helper module
(modeled on AZ-526's test_ac4_az526_no_module_level_iso_ts_from_clock_outside_helper);
import-grep regression guard verifying all 7 strategy modules import
the helper.
AC-5 (existing AZ-337/338/339/340 AC-6 sub-tests pass unmodified) is
exercised transitively: c2_vpr/ full directory 230/230 PASS, no test
file modified outside the new test_az527_*. AC-6 (AZ-270 + AZ-507
layer lints) verified by tests/unit/test_az270_compose_root.py
8/8 PASS.
Code-review verdict: PASS (zero findings). Ruff clean.
Co-authored-by: Cursor <cursoragent@cursor.com>
Three new VprStrategy implementations for IT-12 comparative-study
(research binary only, gated OFF for airborne / operator-tooling per
ADR-002). All run via the C7 TensorRT runtime (or ONNX-RT fallback)
with their own concrete BackbonePreprocessor, single-stage L2
normalisation, and FaissBridge-delegated retrieval — same pattern as
AZ-339 (MegaLoc + MixVPR), parametrised in tests for compactness.
* SelaVprStrategy — D=512, input 224x224
* EigenPlacesStrategy — D=2048, input 480x480
* SaladStrategy — D=8448, input 322x322 (DINOv2-Large backbone;
heaviest in the C2 family — NFR-perf budget
relaxed to 120 ms p95 / 1200 MB GPU per task
spec)
The composition-root factory tables and KNOWN_STRATEGIES set were
already pre-wired at AZ-336 land time; module-layout.md already names
all three Internal entries and BUILD_VPR_* rows. No CMake change
required (env-flag gating).
54 unit tests (3 strategies * 18 cases) cover AC-1..AC-11 plus extras
(single-stage L2, NCHW FP16, constructor validation, FDR emission).
All pass; sibling c2_vpr suite + composition-root regression + AZ-526
iso-ts regression all green.
Code review verdict: PASS_WITH_WARNINGS. Two Low findings logged in
batch_51_review.md: F1 escalates `_assert_engine_output_dim`
duplication from 4-way to 7-way (already tracked by AZ-527 hygiene
PBI; will surface in cumulative review batches 49-51); F2 mirrors the
AZ-337 / 338 / 339 AC-10 spec-drift precedent (literal
ConfigurationError vs implemented ConfigError / StrategyNotAvailable).
Co-authored-by: Cursor <cursoragent@cursor.com>
Adds two research-only VprStrategy implementations for the IT-12
comparative-study matrix. MegaLocStrategy (D=2048, 322x322) and
MixVprStrategy (D=4096, 320x320), both via C7 TensorRT FP16 with
their own concrete BackbonePreprocessor. Single-stage global L2
normalisation; retrieval delegated to FaissBridge; FDR records +
structured logs identical to UltraVPR. BUILD_VPR_MEGALOC and
BUILD_VPR_MIXVPR ON for research/replay-cli only, OFF for airborne
and operator-tooling (fail-fast at composition root via existing
AZ-336 factory). Uses helpers.iso_ts_from_clock from day 1 — no
new timestamp helper duplicates introduced.
36 parametrised AC tests + 25 protocol-conformance + 18 helper
regression tests pass; 1690 / 1690 unit tests pass (excluding 1
pre-existing flaky cold-start subprocess test in c12). Verdict:
PASS_WITH_WARNINGS — one Medium follow-on (AZ-527 to consolidate
4-way _assert_engine_output_dim) + one Low AC wording drift.
Co-authored-by: Cursor <cursoragent@cursor.com>
Closes cumulative review 46-48 F1 (Medium) + F3 (Low). Adds
iso_ts_from_clock(clock) alongside iso_ts_now() in the Layer-1
helper; migrates four duplicate definitions in c2_vpr (net_vlad,
ultra_vpr, _faiss_bridge) and c12_operator_orchestrator
(operator_reloc_service). Output format flipped +00:00 -> Z to
align with iso_ts_now() and the canonical FDR _TS fixture (FDR
schema test passes unmodified).
18 helper AC tests + 186 sibling tests pass; ruff clean.
Co-authored-by: Cursor <cursoragent@cursor.com>
Batch 48 / Cycle 1 (greenfield Step 7). Closes cumulative review
batches 31-33 F2 and 28-30 F3 by replacing the duplicated private
_iso_ts_now() one-liners with a single Layer-1 helper:
src/gps_denied_onboard/helpers/iso_timestamps.py
iso_ts_now() -> str
Output format matches the canonical FDR _TS fixture
(YYYY-MM-DDTHH:MM:SS.ffffffZ); no FDR schema change.
Migrated call-sites (3): c7_inference/onnx_trt_ep_runtime,
c7_inference/thermal_publisher, plus the 3 c6_tile_cache callers
that previously imported from the local c6_tile_cache/_timestamp
shim (now deleted, superseded by the Layer-1 helper).
Spec drift resolved (Choose A, user-approved): spec listed 5 call
sites + +00:00 regex; on-disk reality at batch start is 3 sites +
Z-suffix matching every existing helper and the FDR _TS fixture.
Spec preamble + AC-2 regex updated in the task file; documented in
batch_48_cycle1_report.md.
Tests: 9 new AC tests (AC-1..AC-7 + Layer-1 invariant +
public-surface defensive); 216 focused tests pass including the
unmodified AZ-272 FDR schema suite and AZ-270 / AZ-507 layering
lints. Verdict: PASS (no findings).
Co-authored-by: Cursor <cursoragent@cursor.com>
UltraVPR is the Documentary Lead's PRIMARY backbone per
description.md § 1 and is wired by default
(config.c2_vpr.strategy = "ultra_vpr"). Runs on the C7 TensorRT
runtime (AZ-298) or ONNX-Runtime fallback (AZ-299); explicitly NOT
on the PyTorch FP16 runtime so a TRT engine compile bug can fall
back to NetVLAD without simultaneously breaking both strategies.
Production changes:
- c2_vpr/ultra_vpr.py - UltraVprStrategy + module-level create()
factory. embed_query pipeline: preprocess -> runtime.infer ->
single-stage L2 -> VprQuery. retrieve_topk delegates one-line to
FaissBridge. Engine load + output-shape assertion happen at
create() time (AC-6) so misconfiguration surfaces at startup,
not 17 minutes into a flight. UltraVPR has D=512 fixed (NOT a
config knob; AC-5 / AC-6 / AC-7 all assume 512). Single-stage L2
(no intra-cluster step like NetVLAD; spy-test enforces this so a
future refactor cannot silently regress recall).
- c2_vpr/_preprocessor_ultra_vpr.py - centre-crop using the camera
calibration's principal point (cx, cy from intrinsics_3x3),
falling back to geometric centre + WARN log when calibration is
absent (AC-9). Resize -> (384, 384) -> ImageNet mean/std ->
FP16 NCHW.
- No composition-root changes: UltraVPR consumes a pre-compiled
.trt engine (no PyTorch nn.Module), so the strategy module does
NOT expose MODEL_NAME / architecture_factory. The composition-
root _register_strategy_architecture helper no-ops cleanly for
this case (verified by test_create_does_not_register_pytorch_architecture).
Tests:
- tests/unit/c2_vpr/test_ultra_vpr.py - 29 tests covering all 12
ACs + preprocessor contract + constructor validation + FDR
record emission + single-stage L2 enforcement.
Full unit suite: 1637 passed / 80 env-skipped (+29 new tests).
Per-batch code review (batch_47_review.md): PASS_WITH_WARNINGS
(3 Low-severity findings; no Critical / High / Medium):
- F1: _iso_ts_from_clock is now the 7th copy (AZ-508 will close).
- F2: AZ-337 spec uses outdated C7 API names; affects upcoming
AZ-339 / AZ-340. Spec-hygiene PBI recommended.
- F3: principal-point fallback uses (0, 0) zero-detection for
missing calibration; safe but tightens when intrinsics become
Optional.
Architectural notes:
- AZ-507 layering clean. Imports only InferenceRuntimeCut,
DescriptorIndexCut, c2_vpr internals, _types, helpers,
clock, fdr_client. Architecture lint test passes.
- Pattern parity with NetVLAD (B46) where semantics permit;
UltraVPR-specific paths (single-stage L2, 'embedding' output
key, TRT runtime, no architecture registry, principal-point
crop) are clearly localised.
Co-authored-by: Cursor <cursoragent@cursor.com>
Oleksandr Bezdieniezhnykh