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6c84baf12c
Sixth family of the v0.5.7 NATS-and-categories campaign. RF family = native ducting calculator + three Central SWPC adapters (swpc_alerts, swpc_kindex, swpc_protons), all umbrella-subscribed under `central.space.>`.
Per the family-by-family pattern: cross-checked every prompt assumption against the Central v0.10.0 guide before implementing. The big surprise this phase: FIX 1 was already correct (no NATS-syntax bug to fix), and FIX 2 was a non-bug too (severity=0 already routes safely). The real work was FIX 3 -- four missing registry entries that meshai emits but the rule editor couldn't target.
FIX 1 -- SWPC subject pattern (already correct; pinned). Per Central v0.10.0 guide §swpc_alerts / §swpc_kindex / §swpc_protons, all three adapters publish under the `central.space.>` umbrella with no region in subject (space weather is planetary):
swpc_alerts: central.space.alert.<product_id> (4 tokens, product_id tail)
swpc_kindex: central.space.kindex (3 tokens, fixed)
swpc_protons: central.space.proton_flux (3 tokens, fixed)
`_subjects_for("swpc", region)` already returned `["central.space.>"]` ignoring region (v0.5.4 work got this right). Added an explanatory inline comment near the table entry calling out each adapter's concrete subject + the universal severity=0 contract (next fix), plus a test pinning the umbrella + region-ignored behavior + coverage of each per-adapter subject form. Future "let me add a region tail here" refactors will fail loudly.
FIX 2 -- swpc_protons severity=0 routing (non-bug; regression-guard pin). The prompt described a "severity=0 silently dropped" failure mode. Investigation: no such bug exists in current code.
- All three SWPC adapters publish severity=0 in the live guide samples.
- consumer.map_severity already maps 0 -> "routine" (the `if sev >= 3:`
immediate clamp doesn't hit; falls through to the default return).
- NotificationToggle.severity_channels is dict-keyed by severity STRING
(locked in by v0.5.7-seismic test_severity_channels_is_string_keyed_no_int_indexerror_risk);
"routine" is a valid key with no IndexError vector.
Three things tightened anyway: (a) inline comment near the swpc subject entry documenting "all three publish severity=0 -> routine per guide examples"; (b) end-to-end synthetic envelope test for swpc_protons injection (severity=0 in, ev.severity="routine" / ev.category="solar_radiation_storm" / ev.source="swpc" out, no exception); (c) parallel test for swpc_kindex confirming a second SWPC adapter wires identically.
FIX 3 -- ALERT_CATEGORIES rf_propagation audit. Pre-v0.5.7-rf registry had three entries under toggle="rf_propagation": hf_blackout, geomagnetic_storm, tropospheric_ducting. Audit:
Native ducting.py emits via _TIER_CATEGORY:
super_refraction -> rf_anomalous_propagation
duct -> rf_ducting_enhancement
surface_duct -> rf_ducting_enhancement
Central path via map_category:
space.alert.* -> rf_propagation_alert (swpc_alerts)
space.kindex -> geomagnetic_storm (swpc_kindex; already in registry)
space.proton_flux -> solar_radiation_storm (swpc_protons)
space.* catchall -> geomagnetic_storm
Four categories emitted but missing from the registry -- rule editor couldn't target them. Added all four under toggle="rf_propagation" with name + description + default_severity + example_message matching the guide-documented behavior:
rf_anomalous_propagation (routine, ducting super_refraction tier)
rf_ducting_enhancement (priority, ducting duct + surface_duct tiers)
rf_propagation_alert (priority, NOAA SWPC space-weather product)
solar_radiation_storm (priority, GOES proton flux S-scale)
composer.py emoji + label tables gained matching entries so live LoRa rendering shows the right glyphs (📡 for ducting forms, ⚠ for SWPC alerts, 🌐 for solar radiation, all labelled "RF").
Legacy entries kept (forward-compat / no current emitter): hf_blackout and tropospheric_ducting remain in the registry as selectable rule targets even though no current code path emits them. Reasoning:
- hf_blackout: HF-specific R-scale parsing of swpc_alerts.message could
re-introduce this emission in a future phase; removing the registry
entry would break any user rule currently configured to target it.
- tropospheric_ducting: legacy name superseded by rf_ducting_enhancement
in native ducting.py; same forward-compat concern -- a future phase
may emit a "tropospheric" specialization separate from generic ducts.
If either remains un-emitted by v0.6, file a follow-up cleanup phase to remove. Test_alert_categories_rf_complete uses a SUBSET assertion (emit set ⊆ registry) rather than equality so legacy entries are allowed.
Audit table after v0.5.7-rf:
Registry rf_propagation (7):
hf_blackout (legacy, no current emitter)
geomagnetic_storm (central swpc_kindex + catchall)
tropospheric_ducting (legacy, no current emitter)
rf_anomalous_propagation [v0.5.7-rf NEW] (native ducting super_refraction)
rf_ducting_enhancement [v0.5.7-rf NEW] (native ducting duct + surface_duct)
rf_propagation_alert [v0.5.7-rf NEW] (central swpc_alerts)
solar_radiation_storm [v0.5.7-rf NEW] (central swpc_protons)
Emit set ⊆ Registry: TRUE (no orphan emissions).
Tests
-----
PYTHONPATH=. pytest -q: 431 passed (was 413; +18 net).
- tests/test_rf_v057.py (new): umbrella subject is `central.space.>` for all regions; per-adapter published subjects all match; map_severity(0) -> "routine"; NotificationToggle.severity_channels dict-keyed (no IndexError); synthetic swpc_protons + swpc_kindex envelopes route cleanly with severity=0; four new rf_propagation entries all registry-present with required fields; geomagnetic_storm still mapped from space.kindex; map_category routing pinned for each SWPC adapter; native ducting + central SWPC emit sets are subsets of registry rf entries.
Safe-mode preserved (master off, all family toggles off, all adapters native, central disabled). No live toggle flipped. Not tagging yet -- v0.5.7 tag waits until all families ship.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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| meshai | ||
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| LICENSE | ||
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MeshAI
LLM-powered mesh intelligence assistant for Meshtastic networks. MeshAI connects to your mesh as a physical node, monitors network health in real-time, and answers questions about your infrastructure over LoRa.
What It Does
MeshAI runs on your Meshtastic node and provides:
- Mesh Intelligence — 5-pillar health scoring, per-region breakdowns, infrastructure monitoring, coverage gap analysis, and environmental sensing
- Conversational Queries — ask "how's the mesh?" or "tell me about MHR" and get data-driven answers over LoRa
- Node Distance — GPS-based distance calculations between any two nodes on the mesh
- Multi-Source Awareness — aggregates data from multiple Meshview instances and MeshMonitor with staggered polling
- Feeder Gateway Tracking — identifies which physical MQTT gateways hear each node and signal quality
- Subscriptions — scheduled daily/weekly health reports and instant alerts delivered via DM
- LLM Chat — general conversation, knowledge base lookups, and weather queries
- Multi-Backend — supports Google Gemini, OpenAI, Anthropic Claude, and local LLMs via LiteLLM
Quick Start
# Clone
git clone https://github.com/zvx-echo6/meshai.git
cd meshai
# Install
pip install -e .
# Configure (interactive TUI)
meshai --config
# Run
meshai
Or with Docker:
mkdir -p meshai/data && cd meshai
curl -O https://raw.githubusercontent.com/zvx-echo6/meshai/main/docker-compose.yml
curl -o data/config.yaml https://raw.githubusercontent.com/zvx-echo6/meshai/main/config.example.yaml
# Edit data/config.yaml
docker compose up -d
Commands
| Command | Description |
|---|---|
!health |
Mesh health overview with colored status dots |
!region |
List all regions with health status |
!region [name] |
Detailed region breakdown |
!neighbors [node] |
Top infrastructure neighbors with signal quality |
!sub daily 6pm |
Subscribe to daily health reports |
!sub weekly 8am sun |
Subscribe to weekly digest |
!sub alerts |
Subscribe to instant alerts on issues |
!unsub [type] |
Remove a subscription |
!mysubs |
List your active subscriptions |
!clear |
Clear conversation history |
!help |
Show available commands |
!help [cmd] |
Detailed help for a command |
!quakes |
Recent earthquakes in monitored area |
!fires |
Active wildfires from NIFC |
!hotspots |
NASA FIRMS satellite fire detections |
!hotspots --new |
Only hotspots not matching known fires |
!traffic |
Traffic incidents from TomTom |
!space |
Space weather conditions (solar/geomagnetic) |
!water |
USGS stream gauge readings |
!air |
Air quality index |
Commands can be disabled in config if another service (like MeshMonitor) handles them.
Mesh Intelligence
MeshAI continuously polls mesh data sources and computes a 5-pillar health score:
| Pillar | Weight | What It Measures |
|---|---|---|
| Infrastructure | 30% | Router uptime — how many infra nodes are online |
| Utilization | 25% | Channel busyness — RF congestion across the mesh |
| Coverage | 20% | Gateway reach — how many monitoring sources see each node |
| Behavior | 15% | Traffic patterns — detecting noisy or misconfigured nodes |
| Power | 10% | Battery health — infrastructure nodes only |
Health Display
!health shows a compact overview with personality:
📡 Mesh 🟢 healthy
🏗️ 15/16 routers up
❌ Down: TVM Tablerock Relay
📶 152 full coverage, 94 on thin ice
🔥 Hayden Peak Router at 21% util
🔋 All infra powered ✅
🌡️ 29-34°C across 2 sensors
Treasure Valley 🟢 | Magic Valley 🟢
Status dots: 🔵 perfect (100) · 🟢 healthy (75+) · 🟠 warning (50+) · 🔴 critical (<50)
Monitoring Rules
Infrastructure nodes (routers, repeaters) are monitored individually with full detail — battery, offline alerts, coverage, neighbors, hardware. Client nodes dying is normal and not tracked. Channel utilization and environmental sensors are monitored for all nodes.
Conversational Queries
Ask questions naturally over LoRa:
- "how's the mesh?" → health overview with top issues
- "tell me about MHR" → full node detail with neighbors, coverage, feeders
- "where do we need more coverage?" → named gaps with specific nodes
- "how far is MHR from AIDA?" → GPS distance calculation
- "which nodes only reach one gateway?" → named nodes with their gateway
- "which gateway has the best signal?" → feeder comparison
Geographic Regions
Regions are configurable with local names, descriptions, aliases, and cities — all manageable through the TUI. No hardcoded geography in the code.
mesh_intelligence:
regions:
- name: "South Central ID"
local_name: "Magic Valley"
description: "Twin Falls area"
aliases: ["southern Idaho", "magic valley"]
cities: ["Twin Falls", "Burley", "Jerome"]
lat: 42.5
lon: -114.5
radius_km: 80
Environmental Feeds
MeshAI integrates real-time environmental data for situational awareness beyond mesh network health.
USGS Earthquake Monitoring
env:
usgs:
enabled: true
min_magnitude: 2.5
radius_km: 500
center_lat: 43.6150
center_lon: -116.2023
No API key required. Data from USGS Earthquake Hazards Program.
NWS Weather Alerts
env:
nws:
enabled: true
zone: IDZ025 # NWS zone ID
point: "43.6150,-116.2023"
No API key required. Find your zone at NWS Zone Lookup.
NOAA Space Weather
env:
noaa_space:
enabled: true
No API key required. Data from NOAA SWPC.
NIFC Wildfire Perimeters
env:
nifc:
enabled: true
radius_km: 200
center_lat: 43.6150
center_lon: -116.2023
No API key required. Data from NIFC Open Data.
NASA FIRMS Satellite Fire Detection
env:
firms:
enabled: true
map_key: "your-map-key" # Required
radius_km: 200
center_lat: 43.6150
center_lon: -116.2023
source: VIIRS_SNPP # VIIRS_SNPP, VIIRS_NOAA20, MODIS_NRT
day_range: 1 # 1, 2, or 10 days
API Key Required: Register at NASA FIRMS. Free MAP_KEY provides access to near real-time satellite fire detections. Hotspots are cross-referenced against NIFC perimeters to identify potential new ignitions.
TomTom Traffic
env:
tomtom:
enabled: true
api_key: "your-api-key" # Required
bbox: "-117.5,42.5,-115.0,44.5" # lon1,lat1,lon2,lat2
API Key Required: Register at TomTom Developer Portal. Free tier includes 2,500 requests/day.
511 Road Conditions
env:
fiveonone:
enabled: true
state: ID # State code
api_key: "your-api-key" # If required by state
bbox: [-117.5, 42.5, -115.0, 44.5]
API key requirements vary by state. Check your state's 511 developer portal.
USGS Water Services
env:
usgs_water:
enabled: true
sites: ["13206000", "13202000"] # USGS site numbers
No API key required. Find sites at USGS Water Services.
AirNow Air Quality
env:
airnow:
enabled: true
api_key: "your-api-key" # Required
zipcode: "83702"
API Key Required: Register at AirNow API.
Dashboard Configuration
dashboard:
enabled: true
host: 0.0.0.0
port: 8080
The web dashboard provides real-time visualization of mesh nodes, environmental conditions, and alerts with WebSocket push notifications.
Data Sources
MeshAI aggregates from multiple sources using staggered tick-based polling (one API call per 30-second tick):
Meshview
Unauthenticated REST API. Supports multiple instances.
| Endpoint | Interval | Data |
|---|---|---|
/api/packets |
30s | Near real-time packet feed |
/api/nodes |
2 min | Node list with metadata |
/api/stats |
3 min | Traffic statistics |
/api/edges |
3 min | Node-to-node connections |
/api/traceroutes |
5 min | Route data |
/api/packets_seen |
10 min | Per-gateway RSSI/SNR (sampled) |
MeshMonitor
Authenticated (Bearer token). Single instance.
| Endpoint | Interval | Data |
|---|---|---|
/api/v1/packets |
60s | Packet feed |
/api/v1/nodes |
2 min | Nodes with battery, utilization, hardware |
/api/v1/telemetry |
2 min | Environmental sensors, device metrics |
/api/v1/traceroutes |
5 min | Route data |
/api/v1/channels |
5 min | Channel configuration |
/api/v1/network |
5 min | Network statistics |
/api/v1/solar |
10 min | Solar estimates |
Rate Limiting
Built-in protection for all sources: HTTP 429 backoff with Retry-After, exponential backoff on consecutive errors, slow response warnings, and optional polite mode for shared instances.
Source Configuration
mesh_sources:
- name: "local-meshview"
type: meshview
url: "http://192.168.1.100:8080"
enabled: true
- name: "meshmonitor"
type: meshmonitor
url: "http://192.168.1.100:3333"
api_token: "your-bearer-token"
enabled: true
Knowledge Base (RAG)
MeshAI uses a hybrid knowledge retrieval system with two backends:
Primary: RECON Qdrant Backend
Queries RECON's knowledge extraction pipeline — 2.8M+ vectors covering survival skills, communications, medical, technical documentation, Meshtastic docs, and more. Uses the same embedding infrastructure as RECON:
- Dense embeddings: TEI service with BAAI/bge-m3 (1024-dim)
- Sparse embeddings: bge-m3-sparse with IDF modifier
- Search: Qdrant hybrid with Reciprocal Rank Fusion (dense + sparse)
No data is copied — MeshAI queries RECON's Qdrant and TEI services over the network.
knowledge:
enabled: true
backend: auto # "qdrant", "sqlite", or "auto" (try qdrant, fall back)
qdrant_host: "192.168.1.150"
qdrant_port: 6333
qdrant_collection: "recon_knowledge_hybrid"
tei_host: "192.168.1.150"
tei_port: 8090
sparse_host: "192.168.1.150"
sparse_port: 8091
use_sparse: true
top_k: 5
Fallback: Local SQLite
If the Qdrant backend is unreachable, MeshAI falls back to a local SQLite knowledge base using FTS5 keyword search and bge-small-en-v1.5 vector embeddings (384-dim).
# Build from Meshtastic ZIM file
python scripts/zim_to_knowledge.py meshtastic.zim --output knowledge.db
knowledge:
enabled: true
backend: sqlite
db_path: /data/meshai_knowledge.db
top_k: 5
Requires sqlite-vec and fastembed for the SQLite backend.
Architecture
┌──────────────────────────────────────────────────────────────────────┐
│ MeshAI │
├──────────────────────────────────────────────────────────────────────┤
│ │
│ DATA SOURCES INTELLIGENCE DELIVERY │
│ ┌─────────────┐ ┌──────────────┐ ┌────────────┐ │
│ │ Meshview ×N │─────┐ │ Health Engine │────────▶│ Reporter │ │
│ │ (staggered) │ │ │ 5-pillar │ │ Tier 1/2 │ │
│ └─────────────┘ ▼ │ scoring │ └─────┬──────┘ │
│ ┌─────────────┐ ┌──────┴──┐ │ │ │
│ │ MeshMonitor │─▶│ Data │─┘ │ ┌─────▼──────┐ │
│ │ (staggered) │ │ Store │ │ │ Router │ │
│ └─────────────┘ │ SQLite │ │ │ scope/dist │ │
│ └─────────┘ │ └─────┬──────┘ │
│ │ │ │ │
│ ┌────▼────┐ ┌─────▼──────┐ ┌────▼────┐ │
│ │ Feeder │ │ LLM │ │ Chunker │ │
│ │ Sampling│ │ Backend │ │LoRa-fit │ │
│ └─────────┘ └────────────┘ └────┬────┘ │
│ │ │
│ KNOWLEDGE ALERTS DELIVERY │ │
│ ┌─────────────┐ ┌─────────────┐ ┌──────────────┐ │ │
│ │ RECON/Qdrant│ │ Alert │ │ Subscription │ │ │
│ │ 2.8M vectors│ │ Engine │ │ Manager │ │ │
│ │ (network) │ │ 17 triggers │ │ daily/weekly │ │ │
│ ├─────────────┤ │ scaling │ │ alerts │ │ │
│ │ SQLite FTS5 │ │ cooldown │ └──────┬───────┘ │ │
│ │ (fallback) │ └──────┬──────┘ │ │ │
│ └─────────────┘ │ ┌─────▼────────┐ │ │
│ └─────────▶│ Responder │◀──┘ │
│ ┌─────────────┐ │ ACK-paced DM │ │
│ │ Conversation│ │ Channel alert│ │
│ │ History │ └──────────────┘ │
│ └─────────────┘ │
│ │
└───────────────────────────────────────────────────────────────────┘
│ │
┌────▼────┐ ┌────▼────┐
│ TEI │ │ Qdrant │
│ bge-m3 │ │ hybrid │
│ cortex │ │ cortex │
└─────────┘ └─────────┘
Dashboard API Reference
The dashboard exposes a REST API (default port 8080):
Core Endpoints
| Endpoint | Method | Description |
|---|---|---|
/api/health |
GET | System health check |
/api/status |
GET | Full system status with health scores |
/api/nodes |
GET | Connected mesh nodes |
/api/messages |
GET | Recent mesh messages |
Environmental Data
| Endpoint | Method | Description |
|---|---|---|
/api/env/earthquakes |
GET | Recent earthquakes |
/api/env/weather |
GET | Weather conditions and alerts |
/api/env/fires |
GET | Active wildfires from NIFC |
/api/env/hotspots |
GET | NASA FIRMS satellite detections |
/api/env/traffic |
GET | Traffic incidents |
/api/env/water |
GET | Stream gauge readings |
/api/env/space |
GET | Space weather data |
/api/env/air |
GET | Air quality readings |
Alerts
| Endpoint | Method | Description |
|---|---|---|
/api/alerts/active |
GET | Currently active alerts |
/api/alerts/history |
GET | Historical alerts (?severity=, ?source=, ?limit=, ?offset=) |
/api/alerts/{id}/ack |
POST | Acknowledge an alert |
/api/subscriptions |
GET | Alert subscriptions |
WebSocket
Connect to /ws for real-time updates:
const ws = new WebSocket('ws://localhost:8080/ws');
ws.onmessage = (event) => {
const data = JSON.parse(event.data);
// data.type: 'message', 'alert', 'node_update', 'health_update'
};
Message Chunking
Long responses are split into mesh-friendly chunks with sentence-aware splitting, configurable limits, and continuation prompts. Command output (like !health) packs multiple lines into 2-3 messages using newlines within each message to minimize airtime usage.
response:
max_length: 200 # Max chars per message
max_messages: 3 # Messages before continuation prompt
Alerting
Real-time alerts when mesh conditions change, with scaling cooldowns to prevent spam.
Alert Conditions (17 total, each toggleable)
| Pillar | Condition | Default Threshold |
|---|---|---|
| Infrastructure | Router goes offline | — |
| Infrastructure | Router recovery | — |
| Infrastructure | New router appears | — |
| Power | Battery warning | <50% |
| Power | Battery critical | <25% |
| Power | Battery emergency | <10% |
| Power | 7-day declining trend | >10% drop with rate |
| Power | USB → battery (power outage) | — |
| Power | Solar not charging during day | — |
| Utilization | Sustained high utilization | >20% for 6h |
| Utilization | Packet flood | >500 pkts/24h |
| Coverage | Infra drops to single gateway | — |
| Coverage | Feeder gateway stops responding | — |
| Coverage | Region total blackout | All infra offline |
| Scores | Mesh health score drop | <70/100 |
| Scores | Region health score drop | <60/100 |
Scaling Cooldown
Alerts don't spam. When a condition triggers:
- Alert 1: fires immediately
- Alert 2: 12 hours later (if still in condition)
- Alert 3: 24 hours after that
- Alert 4: 48 hours after that
- Stops until condition resolves
When the condition clears, one recovery notification fires and the tracker resets.
Delivery
Alerts are delivered two ways:
- Channel broadcast: configurable channel index for mesh-wide visibility
- DM to subscribers: users who ran
!sub alertsreceive DMs matching their scope
Critical Nodes
Designate important infrastructure (e.g., MHR, HPR) as critical. When a critical node goes offline, alerts use priority formatting.
mesh_intelligence:
critical_nodes: ["MHR", "HPR"]
alert_channel: 0 # Channel for broadcast alerts (-1 = disabled)
All conditions and thresholds are configurable via the TUI under Mesh Intelligence → Alert Rules.
LLM Configuration
llm:
backend: "google" # openai, anthropic, google
api_key: "your-api-key"
model: "gemini-2.0-flash"
Local LLMs
MeshAI works with any OpenAI-compatible API:
- LiteLLM:
base_url: "http://localhost:4000/v1" - Open WebUI:
base_url: "http://localhost:3000/api" - Ollama:
base_url: "http://localhost:11434/v1"
Docker
TCP Connection (recommended)
connection:
type: "tcp"
tcp_host: "192.168.1.100"
tcp_port: 4403
Serial Connection
connection:
type: "serial"
serial_port: "/dev/ttyUSB0"
Edit docker-compose.serial.yml to match your device path.
Environment Variables
LLM_API_KEY=your-key-here docker compose up -d
Running Alongside Other Services
advBBS
MeshAI coexists with advBBS on the same node. BBS protocol messages (sync, RAP, mail notifications) are automatically filtered. No configuration needed.
bot:
filter_bbs_protocols: true
MeshMonitor
MeshAI integrates with MeshMonitor at two levels: it fetches MeshMonitor's auto-responder patterns to avoid duplicate responses, and it uses MeshMonitor's API as a data source for mesh intelligence (battery, telemetry, traceroutes, solar).
meshmonitor:
enabled: true
url: "http://192.168.1.100:8080"
inject_into_prompt: true
refresh_interval: 300
Running as a Service
# /etc/systemd/system/meshai.service
[Unit]
Description=MeshAI - Meshtastic Mesh Intelligence
After=network.target
[Service]
Type=simple
User=your-user
WorkingDirectory=/path/to/meshai
ExecStart=/usr/bin/python3 -m meshai
Restart=always
RestartSec=10
[Install]
WantedBy=multi-user.target
sudo systemctl daemon-reload
sudo systemctl enable meshai
sudo systemctl start meshai
Acknowledgments
- Meshtastic — the mesh networking platform
- MeshMonitor by Yeraze — monitoring integration and data source
- advBBS — BBS coexistence design
- sqlite-vec by Alex Garcia — vector search in SQLite
- fastembed by Qdrant — fast local embeddings
License
MIT License
Author
K7ZVX - matt@echo6.co