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## M2: Airtime + Channel Quality + Battery Charts Implements M2 of #600 — server-side delta computation and three new charts in the RF Health detail view. ### Backend Changes **Delta computation** for cumulative counters (`tx_air_secs`, `rx_air_secs`, `recv_errors`): - Computes per-interval deltas between consecutive samples - **Reboot handling:** detects counter reset (current < previous), skips that delta, records reboot timestamp - **Gap handling:** if time between samples > 2× interval, inserts null (no interpolation) - Returns `tx_airtime_pct` and `rx_airtime_pct` as percentages (delta_secs / interval_secs × 100) - Returns `recv_error_rate` as delta_errors / (delta_recv + delta_errors) × 100 **`resolution` query param** on `/api/observers/{id}/metrics`: - `5m` (default) — raw samples - `1h` — hourly aggregates (GROUP BY hour with AVG/MAX) - `1d` — daily aggregates **Schema additions:** - `packets_sent` and `packets_recv` columns added to `observer_metrics` (migration) - Ingestor parses these fields from MQTT stats messages **API response** now includes: - `tx_airtime_pct`, `rx_airtime_pct`, `recv_error_rate` (computed deltas) - `reboots` array with timestamps of detected reboots - `is_reboot_sample` flag on affected samples ### Frontend Changes Three new charts in the RF Health detail view, stacked vertically below noise floor: 1. **Airtime chart** — TX (red) + RX (blue) as separate SVG lines, Y-axis 0-100%, direct labels at endpoints 2. **Error Rate chart** — `recv_error_rate` line, shown only when data exists 3. **Battery chart** — voltage line with 3.3V low reference, shown only when battery_mv > 0 All charts: - Share X-axis and time range (aligned vertically) - Reboot markers as vertical hairlines spanning all charts - Direct labels on data (no legends) - Resolution auto-selected: `1h` for 7d/30d ranges - Charts hidden when no data exists ### Tests - `TestComputeDeltas`: normal deltas, reboot detection, gap detection - `TestGetObserverMetricsResolution`: 5m/1h/1d downsampling verification - Updated `TestGetObserverMetrics` for new API signature --------- Co-authored-by: you <you@example.com>
MeshCore MQTT Ingestor (Go)
Standalone MQTT ingestion service for CoreScope. Connects to MQTT brokers, decodes raw MeshCore packets, and writes to the same SQLite database used by the Node.js web server.
This is the first step of a larger Go rewrite — separating MQTT ingestion from the web server.
Architecture
MQTT Broker(s) → Go Ingestor → SQLite DB ← Node.js Web Server
(this binary) (shared)
- Single static binary — no runtime dependencies, no CGO
- SQLite via
modernc.org/sqlite(pure Go) - MQTT via
github.com/eclipse/paho.mqtt.golang - Runs alongside the Node.js server — they share the DB file
- Does NOT serve HTTP/WebSocket — that stays in Node.js
Build
Requires Go 1.22+.
cd cmd/ingestor
go build -o corescope-ingestor .
Cross-compile for Linux (e.g., for the production VM):
GOOS=linux GOARCH=amd64 go build -o corescope-ingestor .
Run
./corescope-ingestor -config /path/to/config.json
The config file uses the same format as the Node.js config.json. The ingestor reads the mqttSources array (or legacy mqtt object) and dbPath fields.
Environment Variables
| Variable | Description | Default |
|---|---|---|
DB_PATH |
SQLite database path | data/meshcore.db |
MQTT_BROKER |
Single MQTT broker URL (overrides config) | — |
MQTT_TOPIC |
MQTT topic (used with MQTT_BROKER) |
meshcore/# |
Minimal Config
{
"dbPath": "data/meshcore.db",
"mqttSources": [
{
"name": "local",
"broker": "mqtt://localhost:1883",
"topics": ["meshcore/#"]
}
]
}
Full Config (same as Node.js)
The ingestor reads these fields from the existing config.json:
mqttSources[]— array of MQTT broker connectionsname— display name for loggingbroker— MQTT URL (mqtt://,mqtts://)username/password— auth credentialstopics— array of topic patterns to subscribeiataFilter— optional regional filter
mqtt— legacy single-broker config (auto-converted tomqttSources)dbPath— SQLite DB path (default:data/meshcore.db)
Test
cd cmd/ingestor
go test -v ./...
What It Does
- Connects to configured MQTT brokers with auto-reconnect
- Subscribes to mesh packet topics (e.g.,
meshcore/+/+/packets) - Receives raw hex packets via JSON messages (
{ "raw": "...", "SNR": ..., "RSSI": ... }) - Decodes MeshCore packet headers, paths, and payloads (ported from
decoder.js) - Computes content hashes (path-independent, SHA-256-based)
- Writes to SQLite:
transmissions+observationstables - Upserts
nodesfrom decoded ADVERT packets (with validation) - Upserts
observersfrom MQTT topic metadata
Schema Compatibility
The Go ingestor creates the same v3 schema as the Node.js server:
transmissions— deduplicated by content hashobservations— per-observer sightings withobserver_idx(rowid reference)nodes— mesh nodes discovered from advertsobservers— MQTT feed sources
Both processes can write to the same DB concurrently (SQLite WAL mode).
What's Not Ported (Yet)
- Companion bridge format (Format 2 —
meshcore/advertisement, channel messages, etc.) - Channel key decryption (GRP_TXT encrypted payload decryption)
- WebSocket broadcast to browsers
- In-memory packet store
- Cache invalidation
These stay in the Node.js server for now.
Files
cmd/ingestor/
main.go — entry point, MQTT connect, message handler
decoder.go — MeshCore packet decoder (ported from decoder.js)
decoder_test.go — decoder tests (25 tests, golden fixtures)
db.go — SQLite writer (schema-compatible with db.js)
db_test.go — DB tests (schema validation, insert/upsert, E2E)
config.go — config struct + loader
util.go — shared utilities
go.mod / go.sum — Go module definition