starlink-blade-mcp
Local-first Starlink dish monitoring and control via the Model Context Protocol. Talks directly to your dish over the local gRPC interface with no cloud dependency.
README
starlink-blade-mcp
Local-first Starlink dish monitoring and control via the Model Context Protocol.
Talks directly to your dish over the local gRPC interface (192.168.100.1:9200) — no cloud API, no enterprise credentials, no internet dependency. Built on starlink-grpc-core, the same library that powers the Home Assistant Starlink integration.
Why this MCP?
| starlink-blade-mcp | starlink-enterprise-mcp | mcp-spacex | |
|---|---|---|---|
| Interface | Local gRPC (dish hardware) | Enterprise cloud API | Public SpaceX API |
| Auth required | None (LAN access only) | OAuth2 enterprise credentials | None |
| Works offline | Yes | No | No |
| Residential dish | Yes | Enterprise fleet only | N/A (satellite tracking) |
| Dish control | Reboot, stow, unstow | Read-only telemetry | None |
| Obstruction map | 12-wedge directional data | Aggregate only | None |
| Alert detail | 22 flags with descriptions | Basic status | None |
| Token efficiency | Statistical summaries | Raw JSON | Raw JSON |
Tools
Read (no authentication required)
| Tool | Description |
|---|---|
starlink_status |
Dish identity, state, connectivity, throughput, SNR, orientation |
starlink_alerts |
Active alert flags (22 types) with human-readable descriptions |
starlink_obstruction |
Obstruction fraction, 12-wedge directional map, timing |
starlink_history |
Throughput/latency/power as min/avg/max summary (configurable window) |
starlink_location |
GPS coordinates (requires opt-in in Starlink app) |
starlink_diagnostics |
Hardware version, firmware, GPS satellites, alert count |
Write (gated)
| Tool | Description |
|---|---|
starlink_reboot |
Restart the dish (2-5 min downtime) |
starlink_stow |
Stow dish face-down for storage/transport |
starlink_unstow |
Resume normal satellite tracking |
Write operations require dual gating:
STARLINK_WRITE_ENABLED=trueenvironment variableconfirm=trueparameter on each call
Quick Start
# Install
uv pip install starlink-blade-mcp
# Run (dish must be reachable at 192.168.100.1)
starlink-blade-mcp
# Or with uv
uvx starlink-blade-mcp
Claude Code
{
"mcpServers": {
"starlink": {
"command": "uvx",
"args": ["starlink-blade-mcp"],
"env": {
"STARLINK_WRITE_ENABLED": "false"
}
}
}
}
Claude Desktop
{
"mcpServers": {
"starlink": {
"command": "uvx",
"args": ["starlink-blade-mcp"],
"env": {
"STARLINK_DISH_ADDRESS": "192.168.100.1:9200",
"STARLINK_WRITE_ENABLED": "false"
}
}
}
}
Configuration
| Variable | Default | Description |
|---|---|---|
STARLINK_DISH_ADDRESS |
192.168.100.1:9200 |
Dish gRPC endpoint |
STARLINK_TIMEOUT |
10 |
gRPC timeout in seconds |
STARLINK_WRITE_ENABLED |
false |
Enable reboot/stow/unstow |
STARLINK_MCP_TRANSPORT |
stdio |
stdio or http |
STARLINK_MCP_HOST |
127.0.0.1 |
HTTP transport bind address |
STARLINK_MCP_PORT |
8770 |
HTTP transport port |
Network Requirements
The Starlink dish exposes an unauthenticated gRPC server at 192.168.100.1:9200 on the local network. Requirements:
- Device running the MCP must be on the Starlink LAN (or have a route to
192.168.100.1) - No credentials or API keys needed
- GPS location requires opt-in: Starlink app > Settings > Advanced > Debug Data
- The dish's 192.168.100.1 address is not configurable
Starlink router (default)
Works out of the box. The dish, router, and your devices are all on the same network.
Third-party router in bypass mode (UniFi, pfSense, etc.)
In bypass mode, the Starlink router hands its CGNAT WAN IP to your router's WAN interface. The dish management interface (192.168.100.1) sits on a separate /24 subnet on the WAN side — your router won't know how to reach it without a static route.
Static route configuration (UniFi example):
UniFi Network > Settings > Routing > Static Routes:
| Field | Value |
|---|---|
| Destination | 192.168.100.0/24 |
| Next Hop | WAN interface (Starlink-facing port) |
| Distance | 1 |
Some router firmware also requires a secondary IP on the WAN interface in the 192.168.100.0/24 range (e.g. 192.168.100.2/24) for traffic to egress on that subnet. This depends on whether your firmware handles interface-scoped routes correctly — UniFi has been inconsistent here across versions.
Once the route is in place, both 192.168.100.1:9200 (gRPC) and 192.168.100.1:80 (Starlink web UI) become reachable from your LAN.
Remote / headless sites
Run the MCP server on any host that can reach 192.168.100.1 — a local machine, a container on a NAS, or any device on the Starlink-connected network.
Security Model
- No credentials stored or transmitted — the dish gRPC endpoint is unauthenticated by design
- LAN-only access — the gRPC interface is not exposed to the internet
- Write operations double-gated — environment variable + per-call confirmation
- No telemetry or phone-home — all data stays local between the MCP server and the dish
- No cloud API dependency — works during internet outages (ideal for monitoring them)
Token Efficiency
The starlink_history tool returns statistical summaries (min/avg/max per metric) rather than raw per-second samples. A 900-second window produces ~8 lines of output vs ~5,400 lines of raw data.
History Summary (last 60 samples, 1s intervals)
metric min avg max unit
--------------------------------------------
ping_drop 0.0000 0.0021 0.0150
latency 22.1 34.5 89.2 ms
down 0.5 45.2 120.3 Mbps
up 0.1 8.4 25.1 Mbps
power 48.2 52.1 58.9 W
snr 7.8 9.2 10.1 dB
Development
git clone https://github.com/groupthink-dev/starlink-blade-mcp
cd starlink-blade-mcp
# Install with dev dependencies
make install-dev
# Run quality checks
make check
# Run tests (mocked — no dish required)
make test
# Run e2e tests (requires live dish on LAN)
make test-e2e
# Run with coverage
make test-cov
Sidereal Marketplace
This MCP is available as a certified plugin in the Sidereal Marketplace. Install directly from Settings > MCPs in the Sidereal app.
The plugin manifest provides:
- Credential-free setup (auto-discovers dish on LAN)
- Write operation toggle in Settings UI
- Connection test validation
- Custom dish address for non-standard networks
Roadmap
- [ ] Power save / sleep schedule control (read + set via
dish_power_saveproto) - [ ] Hardware self-test results (extended diagnostics from proto)
- [ ] Webhook triggers for alert state changes (Sidereal event dispatch)
- [ ] Firmware update tracking and notification
- [ ] Multi-dish support (mesh network with multiple terminals)
- [ ] Obstruction map visualization (SVG/image generation)
License
MIT
Recommended Servers
playwright-mcp
A Model Context Protocol server that enables LLMs to interact with web pages through structured accessibility snapshots without requiring vision models or screenshots.
Magic Component Platform (MCP)
An AI-powered tool that generates modern UI components from natural language descriptions, integrating with popular IDEs to streamline UI development workflow.
Audiense Insights MCP Server
Enables interaction with Audiense Insights accounts via the Model Context Protocol, facilitating the extraction and analysis of marketing insights and audience data including demographics, behavior, and influencer engagement.
VeyraX MCP
Single MCP tool to connect all your favorite tools: Gmail, Calendar and 40 more.
graphlit-mcp-server
The Model Context Protocol (MCP) Server enables integration between MCP clients and the Graphlit service. Ingest anything from Slack to Gmail to podcast feeds, in addition to web crawling, into a Graphlit project - and then retrieve relevant contents from the MCP client.
Kagi MCP Server
An MCP server that integrates Kagi search capabilities with Claude AI, enabling Claude to perform real-time web searches when answering questions that require up-to-date information.
E2B
Using MCP to run code via e2b.
Neon Database
MCP server for interacting with Neon Management API and databases
Exa Search
A Model Context Protocol (MCP) server lets AI assistants like Claude use the Exa AI Search API for web searches. This setup allows AI models to get real-time web information in a safe and controlled way.
Qdrant Server
This repository is an example of how to create a MCP server for Qdrant, a vector search engine.