Connected Vehicle Health
FreeNot checkedExposes a connected-vehicle OBD-II/telematics platform to AI agents, enabling vehicle health scoring, live data queries, DTC decoding, maintenance prediction, a
About
Exposes a connected-vehicle OBD-II/telematics platform to AI agents, enabling vehicle health scoring, live data queries, DTC decoding, maintenance prediction, and gated remote commands via a pluggable data layer.
README
An MCP server that exposes a connected-vehicle OBD-II / telematics platform to AI agents. It maps raw OBD-II PIDs and CAN signals into a rolled-up vehicle health score and provides tools for querying live data, decoding diagnostic trouble codes (DTCs), forecasting maintenance, and issuing gated remote commands.
The data layer is pluggable (src/provider.ts). Two backends ship:
salesforce(default) — live data from a Salesforce org's standardAssetobject (the vehicle; VIN inSerialNumber) joined to the customVehicle_Telemetry__cobject (VIN__c == Asset.SerialNumber).simulator— an in-memory mixed fleet (ICE, diesel, EV) with deterministic signals and injectable faults; zero external dependencies.
Select with VEHICLE_DATA_SOURCE=salesforce|simulator. The tool/resource layer is
identical for both.
Full reference: see DOCUMENTATION.md for architecture, the complete tool/resource/type schema, the Salesforce field mapping, the scoring model, and extension points.
What it exposes
Tools
| Tool | Type | Purpose |
|---|---|---|
list_vehicles |
read | Enumerate the fleet with profile + last-seen |
get_vehicle_health |
read | Overall + per-domain health score (0–100) |
read_live_pids |
read | Snapshot of selected live PID / CAN values |
get_dtcs |
read | Active stored / pending / permanent codes |
get_parameter_history |
read | Reproducible time-series for one PID |
decode_dtc |
read | Explain a code: causes, symptoms, fixes |
predict_maintenance |
compute | Ranked component failure risks |
clear_dtcs |
action | Reset codes / MIL (requires confirm=true) |
send_command |
action | Remote lock/climate/immobilize (requires confirm=true) |
Resources
| URI | Content |
|---|---|
vehicle://{vin}/profile |
Make, model, year, powertrain, odometer |
vehicle://{vin}/health |
Latest health snapshot |
vehicle://{vin}/trips |
Recent trips + behavior events |
fleet://summary |
Fleet-wide health roll-up |
dtc://catalog |
DTC knowledge base |
Health model
Seven domains, each scored 0–100 and weighted into the overall score. EVs drop
emissions and fuel; the remaining weights are renormalized to 100%.
| Domain | Weight | Driven by |
|---|---|---|
| Powertrain | 25% | Misfires, timing, load |
| Emissions | 15% | Lambda, catalyst temp, EGR |
| Fuel | 12% | Short/long fuel trims |
| Battery | 18% | 12V voltage/SoH, HV SoH, cell delta |
| Thermal | 12% | Coolant, oil, HV pack temp |
| Driveline | 10% | Trans temp, tire pressures |
| DTC | 8% | Active code count + severity |
Overall status: good (≥80), attention (≥60), critical (<60).
Sparse sources score honestly. A domain is only scored when its signals are
present; domains with no data are omitted and the weights are renormalized over the
domains that were scored. So a Salesforce vehicle that reports only coolant temp,
battery %, tire pressure, and DTC codes is scored on thermal, battery, driveline,
and dtc — powertrain/emissions/fuel are simply not fabricated.
Salesforce integration
The salesforce backend reads the org directly with jsforce:
| Canonical field | Salesforce source | Notes |
|---|---|---|
| VIN | Asset.SerialNumber |
Drives vehicle identity |
| Make / model / year | parsed from Asset.Name |
e.g. 2019 Honda Accord |
| Powertrain | inferred | EV if make is EV-only or Engine_Temp_F__c ≈ 0 |
| Odometer | Vehicle_Telemetry__c.Odometer_Miles__c |
miles → km |
| Coolant temp | Engine_Temp_F__c |
°F → °C (omitted for EVs) |
| Tire pressure | Tire_Pressure_PSI__c |
PSI → kPa (applied to all four) |
| Battery | Battery_Percent__c |
HV SoC for EVs; 12V proxy for ICE |
| DTCs | DTC_Codes__c |
comma/space-separated; decoded via the catalog |
The fleet is driven by the VINs present in Vehicle_Telemetry__c, so only vehicles
that actually report telemetry appear — unrelated Asset records are ignored.
Authentication (first match wins)
SF_ACCESS_TOKEN+SF_INSTANCE_URLSF_USERNAME+SF_PASSWORD(+SF_SECURITY_TOKEN,SF_LOGIN_URL)- Salesforce CLI —
sf org display --target-org $SF_TARGET_ORG(default aliasvehicleHealth). Easiest for local dev; just be logged in viasf org login web.
See .env.example. An expired CLI session is refreshed automatically on the next query.
Actions on the Salesforce backend
Per-capability flags gate the two action tools:
| Action | Salesforce | Behavior |
|---|---|---|
clear_dtcs |
enabled (supportsClearDtcs) |
Inserts a new Vehicle_Telemetry__c snapshot carrying the latest readings with DTC_Codes__c emptied and a current timestamp. This becomes the newest reading, so subsequent reads report no active codes — a scan-tool-style clear that never mutates history. Requires confirm=true. |
send_command |
disabled (supportsRemoteCommands) |
This org has no telematics command channel, so remote commands return a clear message and are not dispatched. |
Both actions are fully functional under the simulator backend.
Setup
Requires Node.js 18+.
cd connected-vehicle-mcp
npm install
npm run build # compile TypeScript to dist/
Run directly during development (no build step):
npm run dev
Inspect interactively with the MCP Inspector:
npm run inspect
Register with an MCP client
The server speaks stdio. Add it to your client config. For Cursor
(.cursor/mcp.json or the workspace .mcp.json):
{
"mcpServers": {
"connected-vehicle-health": {
"type": "stdio",
"command": "node",
"args": ["/Users/sarfaraz.nawaz/Dev/PruJap/connected-vehicle-mcp/dist/index.js"],
"env": {
"VEHICLE_DATA_SOURCE": "salesforce",
"SF_TARGET_ORG": "vehicleHealth"
}
}
}
}
For Claude Desktop, add the same block to claude_desktop_config.json. To run
disconnected from an org, set "VEHICLE_DATA_SOURCE": "simulator".
Try it
Once connected to the org, ask the agent things like:
- "List the fleet and show any vehicle with health under 80." (Camry is critical)
- "Why is the check-engine light on for the 2018 Toyota Camry?" (reads + decodes DTCs)
- "Show the coolant temperature history for the Accord." (
get_parameter_history) - "Predict upcoming maintenance for the Camry." (overheat + misfire + low tires)
- "Is the Model 3's battery degrading?" (surfaces
P0A80— replace hybrid battery pack)
Safety & security notes
This simulator is for development. Before pointing it at real vehicles:
- Gate all actions.
clear_dtcsandsend_commandrequireconfirm=trueand are annotateddestructiveHint. Drive-affecting commands (immobilize/mobilize) should additionally require a second human approval and are always logged. - Scope auth per VIN with short-lived tokens; never grant fleet-wide actuation by default.
- Rate-limit and audit every action; the simulator keeps an in-memory command log as a stand-in.
- Treat VIN, GPS, and driver identity as PII. Do not log to stdout (reserved for the MCP stream).
Project layout
src/
index.ts MCP server: tool + resource registration, stdio transport
provider.ts DataProvider interface + factory (salesforce | simulator)
salesforceProvider.ts Live org backend: Asset + Vehicle_Telemetry__c via jsforce
simulatorProvider.ts In-memory simulator backend
fleet.ts Deterministic signal simulator + fault injection
health.ts Domain scoring + predictive-maintenance rules
pids.ts OBD-II PID catalog (PID → unit → reader)
dtcCatalog.ts DTC knowledge base + classifier for decode_dtc
audit.ts In-memory action/command audit log
types.ts Shared domain types
Installing Connected Vehicle Health
This server has no published package — it is built from source. Open the repository and follow its README.
▸ github.com/imsnawaz/connected-vehicle-mcpFAQ
Is Connected Vehicle Health MCP free?
Yes, Connected Vehicle Health MCP is free — one-click install via Unyly at no cost.
Does Connected Vehicle Health need an API key?
No, Connected Vehicle Health runs without API keys or environment variables.
Is Connected Vehicle Health hosted or self-hosted?
Self-hosted: the server runs locally on your machine via the install command above.
How do I install Connected Vehicle Health in Claude Desktop, Claude Code or Cursor?
Open Connected Vehicle Health on unyly.org, pick your client tab (Claude Desktop, Claude Code, Cursor) and press Install — the config is generated automatically, no JSON editing.
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