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meshai/tests/test_nws_handler.py
K7ZVX de35f9c748 feat(v0.5.10): nws + usgs_quake + swpc handlers 
Three more per-adapter handlers landing in the same v0.5.9-incident-pipeline pattern: nws_handler.py with severity-floor gate (Warning+ broadcasts only, Moderate/Minor/Unknown skipped to event_log handled=0), event-type emoji map, CAP-id-based first-sight dedup via nws_alerts table; quake_handler.py with magnitude-floor gate (M3.0 globally + M2.5 within 250mi of Idaho centroid + tsunami at any M) using Haversine for the distance check, USGS data.place curated string preferred for the place anchor, leading emoji escalation (🌐 routine / ⚠️ M5+ / 🚨 tsunami), Magnitude spelled out per Matts call; swpc_handler.py with aggressive G3+/R3+/S1+ gate, plain-English wire headlines with (NOAA scale / underlying scalar) tail tag per Matts option C (e.g. "Strong geomagnetic storm (G3/Kp7) -- HF degraded, aurora possible"), routine Kp + protons persisted to swpc_events.payload_json for trending but never broadcast. All three share the v0.5.9 universal freshness gate and the no-Update first-sight-only pattern. Persistence uses the existing v0.5.8b nws_alerts, quake_events, swpc_events tables -- no migrations needed. Tests: was 634 (v0.5.9 baseline), now 686 (+52 net new; over-delivered because parametrized emoji map adds 14 rows). Synthetic probe over the 4 nws + 1 quake + 16,217 swpc captured envelopes from the batched investigation: Phase 1 = 0/0/0 broadcasts (all real captures correctly filtered by their respective gates); Phase 2 = 5/5 synthesized fresh test events broadcast correctly (Severe T-Storm warning, M4.1 Garden Valley quake, G3 geomagnetic storm, X1.2 flare, S1 proton). WFIGS handler unchanged. usgs_nwis deferred to v0.5.12 (threshold-curation work). Master OFF in prod.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-06-05 07:27:01 +00:00

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"""Tests for v0.5.10 NWS handler."""
import pytest
from meshai.central.nws_handler import handle_nws, _emoji_for_event
from meshai.persistence import close_thread_connection, init_db
from meshai.persistence import db as persistence_db
@pytest.fixture
def mem_db(monkeypatch, tmp_path):
db_path = str(tmp_path / "nws-test.sqlite")
monkeypatch.setenv("MESHAI_DB_PATH", db_path)
persistence_db._initialised.clear()
close_thread_connection()
conn = init_db()
yield conn
close_thread_connection()
persistence_db._initialised.discard(db_path)
def _nws_env(*, cap_id="urn:oid:test.001",
event="Severe Thunderstorm Warning",
severity_str="Severe",
area_desc="Twin Falls County",
county="Twin Falls", state="ID",
expires="2026-06-05T03:00:00Z",
msg_type=None,
lat=42.500, lon=-114.460,
geocoder_city=None,
category="wx.alert.severe_thunderstorm_warning"):
return {
"id": cap_id, "subject": "central.wx.alert.us.id",
"data": {
"id": cap_id, "adapter": "nws", "category": category,
"severity": 2,
"geo": {"centroid": [lon, lat], "primary_region": "US-ID"},
"data": {
"id": cap_id, "@type": "wx:Alert",
"event": event, "severity": severity_str,
"areaDesc": area_desc, "msgType": msg_type or "Alert",
"headline": f"{event} for {area_desc}",
"description": "Storm details.",
"expires": expires,
"_enriched": {"geocoder": {"city": geocoder_city,
"county": county, "state": state}},
},
},
}
def _commit(data, t):
data["_on_broadcast_committed"](float(t))
# ---- severity gate ----
def test_severe_thunderstorm_warning_broadcasts(mem_db):
env = _nws_env(severity_str="Severe", event="Severe Thunderstorm Warning")
data = {}
wire = handle_nws(env, env["subject"], data=data, now=1_000_000)
assert wire is not None
assert wire.startswith("🌩️")
assert "Severe Thunderstorm Warning" in wire
def test_extreme_emergency_broadcasts(mem_db):
env = _nws_env(severity_str="Extreme", event="Tornado Warning",
category="wx.alert.tornado_warning")
data = {}
wire = handle_nws(env, env["subject"], data=data, now=1_000_000)
assert wire is not None
assert wire.startswith("🌪️")
def test_special_weather_statement_skipped(mem_db):
env = _nws_env(severity_str="Minor", event="Special Weather Statement",
category="wx.alert.special_weather_statement")
data = {}
wire = handle_nws(env, env["subject"], data=data, now=1_000_000)
assert wire is None
n_rows = mem_db.execute("SELECT COUNT(*) AS n FROM nws_alerts").fetchone()["n"]
assert n_rows == 0
n_log = mem_db.execute(
"SELECT COUNT(*) AS n FROM event_log WHERE source='nws' AND handled=0"
).fetchone()["n"]
assert n_log == 1
def test_watch_severity_moderate_skipped(mem_db):
env = _nws_env(severity_str="Moderate", event="Severe Thunderstorm Watch",
category="wx.alert.severe_thunderstorm_watch")
data = {}
wire = handle_nws(env, env["subject"], data=data, now=1_000_000)
assert wire is None
# ---- emoji map ----
@pytest.mark.parametrize("event_type, expected_emoji", [
("Severe Thunderstorm Warning", "🌩️"),
("Tornado Warning", "🌪️"),
("Flash Flood Warning", "🌊"),
("Flood Warning", "🌊"),
("Winter Storm Warning", "❄️"),
("Blizzard Warning", "❄️"),
("Excessive Heat Warning", "🌡️"),
("High Wind Warning", "🌬️"),
("Red Flag Warning", "🔥"),
("Fire Weather Watch", "🔥"),
("Air Quality Alert", "😷"),
("Freeze Warning", "🥶"),
("Coastal Flood Warning", "🌊"),
("(some other warning)", "⚠️"),
])
def test_emoji_map(event_type, expected_emoji):
assert _emoji_for_event(event_type) == expected_emoji
# ---- tombstone ----
def test_cancel_msgType_tombstone_skipped(mem_db):
env = _nws_env(severity_str="Severe", event="Severe Thunderstorm Warning",
msg_type="Cancel")
data = {}
wire = handle_nws(env, env["subject"], data=data, now=1_000_000)
assert wire is None
n_log = mem_db.execute(
"SELECT COUNT(*) AS n FROM event_log WHERE source='nws' AND handled=0"
).fetchone()["n"]
assert n_log == 1
def test_expire_msgType_tombstone_skipped(mem_db):
env = _nws_env(severity_str="Severe", event="Tornado Warning",
msg_type="Expire")
wire = handle_nws(env, env["subject"], data={}, now=1_000_000)
assert wire is None
# ---- per-CAP-id dedup ----
def test_per_cap_id_dedup_no_reissue(mem_db):
env = _nws_env(severity_str="Severe")
data1 = {}
wire1 = handle_nws(env, env["subject"], data=data1, now=1_000_000)
assert wire1 is not None
_commit(data1, 1_000_001)
# Same CAP id republishes (e.g. headline update). Should NOT re-broadcast.
data2 = {}
wire2 = handle_nws(env, env["subject"], data=data2, now=1_000_300)
assert wire2 is None
# ---- area_desc fallback ----
def test_area_desc_used_when_geocoder_city_missing(mem_db):
env = _nws_env(severity_str="Severe", area_desc="Twin Falls County",
geocoder_city=None)
wire = handle_nws(env, env["subject"], data={}, now=1_000_000)
assert "Twin Falls" in wire
def test_geocoder_city_preferred_over_area_desc(mem_db):
env = _nws_env(severity_str="Severe", area_desc="Twin Falls County",
geocoder_city="Twin Falls")
wire = handle_nws(env, env["subject"], data={}, now=1_000_000)
assert "Twin Falls" in wire # either source serves the same anchor
# ---- commit callback ----
def test_commit_callback_updates_last_broadcast(mem_db):
env = _nws_env(severity_str="Severe")
data = {}
handle_nws(env, env["subject"], data=data, now=1_000_000)
fr_pre = mem_db.execute(
"SELECT last_broadcast_at FROM nws_alerts").fetchone()
assert fr_pre["last_broadcast_at"] is None
_commit(data, 1_000_001)
fr_post = mem_db.execute(
"SELECT last_broadcast_at FROM nws_alerts").fetchone()
assert fr_post["last_broadcast_at"] == 1_000_001
# event_log row flipped to handled=1.
el = mem_db.execute(
"SELECT handled FROM event_log WHERE source='nws' ORDER BY id DESC LIMIT 1"
).fetchone()
assert el["handled"] == 1
def test_wire_includes_coords_and_expires(mem_db):
env = _nws_env(severity_str="Severe", lat=42.500, lon=-114.460)
wire = handle_nws(env, env["subject"], data={}, now=1_000_000)
assert "@ 42.500,-114.460" in wire
assert "until" in wire.lower()
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