Rasdaman MCP Server
Enables natural language interaction with rasdaman multidimensional databases by translating tool calls into WCS/WCPS queries. It allows users to list coverages, retrieve metadata, and execute complex queries on datacubes through an LLM.
README
Rasdaman MCP Server
This tool enables users to interact with rasdaman in a natural language context. By exposing rasdaman functionality as tools via the MCP protocol, an LLM can query the database to answer questions like:
- "What datacubes are available?"
- "What are the dimensions of the 'Sentinel2_10m' coverage?"
- "Create an NDVI image for June 12, 2025."
The MCP server translates these tool calls into actual WCS/WCPS queries that rasdaman can understand and then returns the results to the LLM.
Installation
pip install rasdaman-mcp
Usage
The entry point is rasdaman-mcp. It can be run in two primary modes controlled by the --transport command-line argument: stdio (default) and http.
Configuration
The connection from the MCP server to rasdaman can be configured in two ways.
- Command-line arguments:
--rasdaman-url: URL for the rasdaman server (defaultRASDAMAN_URLenvironment variable orhttp://localhost:8080/rasdaman/ows).--username: Username for authentication (defaultRASDAMAN_USERNAMEenvironment variable orrasguest).--password: Sets the password for authentication (defaultRASDAMAN_PASSWORDenvironment variable orrasguest).
- Environment variables:
RASDAMAN_URL: URL for the rasdaman serverRASDAMAN_USERNAME: Username for authenticationRASDAMAN_PASSWORD: Password for authentication
stdio Mode
Used for direct integration with clients that take over managing the server process. It uses standard input/output for communication. Generally in your client configuration you need to specify the command to run the MCP tool:
rasdaman-mcp --username rasguest --password rasguest
Keep in mind that all dependencies are installed, and the venv is activated if necessary.
Example for gemini-cli:
gemini mcp add rasdaman-mcp "rasdaman-mcp --username rasguest --password rasguest"
Benefits:
- Simplicity: No need to manage a separate server process or ports.
- Seamless Integration: Tools are transparently made available to the LLM within the client environment.
http Mode
This mode runs a standalone Web server.
-
Start the server:
rasdaman-mcp --transport http --host 127.0.0.1 --port 8000 --rasdaman-url "http://localhost:8080/rasdaman/ows" -
Configure your client to add an MCP server at
http://127.0.0.1:8000/mcp. For example, for Mistral Vibe extend the config.toml with a section like this:[[mcp_servers]] name = "rasdaman-mcp" transport = "streamable-http" url = "http://127.0.0.1:8000/mcp/"
Benefits:
- Scalability: The MCP server can be containerized (e.g., with Docker) and deployed as a separate microservice.
- Decoupling: Any client that can speak HTTP (e.g.,
curl, Python scripts, web apps, other LLM clients) can interact with the tools. - Testing: Allows for direct API testing and debugging, independent of an LLM client.
Development
Setup
-
Clone the git repository:
git clone https://github.com/rasdaman/rasdaman-mcp.git cd rasdaman-mcp/ -
Create a virtual environment (if you don't have one):
uv venv -
Activate the virtual environment:
source .venv/bin/activate -
Install from source:
uv pip install -e .
Core Components
- Main Application (
main.py): This script initializes the FastMCP application. It handles command-line arguments for transport selection, rasdaman URL, username, and password. It then instantiates theRasdamanActionsclass and decorates its methods to expose them as tools. RasdamanActionsClass (rasdaman_actions.py): Encapsulates all interaction with the rasdaman WCS/WCPS endpoints. It is initialized with the server URL and credentials, and its methods contain the logic for listing coverages, describing them, and executing queries.- WCPS crash course (
wcps_crash_course.py): A short summary of the syntax of WCPS, allowing LLMs to generate more accurate queries. - WCPS query validation (
query_validator.py): Throws aSyntaxErrorif a WCPS query has invalid syntax, allowing LLMs to locally validate query syntax.
Defined Tools
The following methods are exposed as tools:
list_coverages(): Lists all available datacubes.describe_coverage(coverage_id): Retrieves metadata for a specific datacube.wcps_query_crash_course(): Returns a crash course on WCPS syntax with examples and best practices.validate_wcps_query(wcps_query): Validates the syntax of a WCPS query without executing it.execute_wcps_query(wcps_query): Executes a raw WCPS query and returns a result either directly as a string (scalars or small json), or as a filepath.
Documentation
To build the documentation:
# install dependencies
uv pip install '.[docs]'
sphinx-build docs docs/_build
You can then open docs/_build/index.html in the browser.
Automated Tests
To run the tests:
# install dependencies
uv pip install '.[tests]'
pytest
Manual Testing
Interacting with the standalone HTTP server manually requires a specific 3-step process using curl.
The fastmcp protocol is stateful and requires a session to be explicitly initialized.
-
First, send an
initializerequest. This will return a200 OKresponse and, most importantly, a session ID in themcp-session-idresponse header (needed in the next steps).curl -i -X POST \ -H "Accept: text/event-stream, application/json" \ -H "Content-Type: application/json" \ -d '{ "jsonrpc": "2.0", "method": "initialize", "params": { "protocolVersion": "2024-11-05", "capabilities": {}, "clientInfo": { "name": "curl-client", "version": "1.0.0" } }, "id": 1 }' \ "http://127.0.0.1:8000/mcp" -
Next, send a notification to the server to confirm the session is ready. Use the session ID from Step 1 in the
mcp-session-idheader. This request will not produce a body in the response.SESSION_ID="<YOUR_SESSION_ID>" curl -X POST \ -H "Accept: text/event-stream, application/json" \ -H "Content-Type: application/json" \ -H "Mcp-Session-Id: $SESSION_ID" \ -d '{ "jsonrpc": "2.0", "method": "notifications/initialized" }' \ "http://127.0.0.1:8000/mcp" -
Finally, you can call a tool using the
tools/callmethod. Theparamsobject must contain thenameof the tool and anargumentsobject with the parameters for that tool. The server will respond with the result of the tool call in a JSON-RPC response.SESSION_ID="<YOUR_SESSION_ID>" # Example: Calling the 'list_coverages' tool curl -X POST \ -H "Accept: text/event-stream, application/json" \ -H "Content-Type: application/json" \ -H "Mcp-Session-Id: $SESSION_ID" \ -d '{ "jsonrpc": "2.0", "method": "tools/call", "params": { "name": "list_coverages", "arguments": {} }, "id": 2 }' \ "http://127.0.0.1:8000/mcp"
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