Add Earthdata token entry on the SAR tab with accurate Mode B status, expose optional FIRMS_MAP_KEY in API settings, and remove the frontend operator-unlock gate that blocked localhost saves. Run network-heavy layer-enable fetches on a background executor with frontend retry polling so FIRMS toggles no longer freeze the single API worker.
Add Telegram OSINT with hourly incremental t.me scraping, metro geocoding
separate from news centroids, threat-intercept popup UI with inline media,
and HTML markers above alert boxes so pins stay clickable. Expose GFW_API_TOKEN
in onboarding and Settings Maritime; harden GFW/CCTV/geo fetchers. Port Osiris-
derived recon, SCM, entity graph, malware/cyber feeds, sanctions, and submarine
cable layers with tests and documentation.
Co-authored-by: Cursor <cursoragent@cursor.com>
Reported by @tg12 in the external security/correctness audit.
Before this change, /api/live-data/{fast,slow} accepted s/w/n/e query
params but their Query() descriptions explicitly said "(ignored)". The
endpoints shipped the full in-memory world dataset on every poll:
/api/live-data/fast → 16.88 MB
/api/live-data/slow → 10.12 MB
── 27 MB per poll cycle, regardless of zoom
For a node with N operators each polling at the steady 15s/120s cadence,
this is hundreds of MB/minute of outbound traffic that never gets used —
the GPU just culls everything outside the viewport client-side. On a
Tor-bridged or LTE-backed node, that bandwidth bill is the actual cost.
This change makes the existing s/w/n/e params honored — when all four
bounds are supplied, the backend bbox-filters a curated set of heavy,
density-driven, time-sensitive collections to that viewport (with the
existing 20% padding from _bbox_filter):
/fast: commercial_flights, military_flights, private_flights,
private_jets, tracked_flights, ships, cctv, uavs, liveuamap,
gps_jamming, sigint, trains
/slow: gdelt, firms_fires, kiwisdr, scanners, psk_reporter
Static reference layers (satellites, datacenters, military_bases,
power_plants, satnogs, weather, news, stocks, etc.) deliberately STAY
world-scale so panning never reveals an "empty world" of infrastructure.
That preserves the no-hostile-UX feel of the existing dashboard.
Behavior contract:
* Without bbox params (or with a partial bbox), the response is
byte-for-byte identical to the pre-#288 implementation. No
behavior change for any existing caller that hasn't opted in.
* World-scale bbox (lng_span >= 300 or lat_span >= 120) short-circuits
filtering and shares the global ETag — zoomed-out operators all
hit the same 304 cache exactly like before.
* ETag now mixes a 1°-quantized bbox suffix when filtering engages,
so two viewports never poison each other's 304 cache. Sub-degree
pans land in the same ETag bucket (i.e. don't bust the cache on
every mouse drag).
Polling cadence, rate-limit windows, and the 304 short-circuit are all
unchanged. Only the SIZE of the responses changes, and only when the
caller opts in via bounds.
Frontend wiring: useViewportBounds reuses the same coarsened/
expanded bounds it already computes for the AIS /api/viewport POST and
pushes them into a new module-level liveDataViewport store.
useDataPolling reads from that store via appendLiveDataBoundsParams
when building each live-data URL.
Tests cover: no-bbox → world data; bbox → heavy layers filtered;
bbox → reference layers untouched; world-scale bbox → no filter;
partial bbox → treated as no bbox; ETag changes with bbox; sub-degree
pan → same ETag; 304 path works; antimeridian-crossing bbox handled.
Co-authored-by: BigBodyCobain <moatbc@gmail.com>
Gate messages now propagate via the Infonet hashchain as encrypted blobs — every node syncs them
through normal chain sync while only Gate members with MLS keys can decrypt. Added mesh reputation
system, peer push workers, voluntary Wormhole opt-in for node participation, fork recovery,
killwormhole scripts, obfuscated terminology, and hardened the self-updater to protect encryption
keys and chain state during updates.
New features: Shodan search, train tracking, Sentinel Hub imagery, 8 new intelligence layers,
CCTV expansion to 11,000+ cameras across 6 countries, Mesh Terminal CLI, prediction markets,
desktop-shell scaffold, and comprehensive mesh test suite (215 frontend + backend tests passing).
Community contributors: @wa1id, @AlborzNazari, @adust09, @Xpirix, @imqdcr, @csysp, @suranyami,
@chr0n1x, @johan-martensson, @singularfailure, @smithbh, @OrfeoTerkuci, @deuza, @tm-const,
@Elhard1, @ttulttul