Local KMS MCP Server
Local-first, lightweight MCP server for per-agent key management.
Documentation
local-kms-mcp-server
Local-first, lightweight MCP server for per-agent key management.
Give every agent its own signing identity - without relying on external KMS or exposing private keys.
local-kms-mcp-server generates, stores, rotates, and uses signing keypairs entirely on the local machine. Keys never
leave the process, never touch the network, and stay under control.
Itβs built for MCP clients and agent runtimes that need isolated, composable identities for tasks such as DID/SSI flows, auth handshakes, challenge signing, and any workflow where agents must prove something cryptographically
What It Does
- Generates signing keypairs scoped to a keyId (one identity per agent or task)
- Stores keys locally using a simple file-based keystore
- Rotates keys safely while preserving algorithm consistency
- Signs base64 payloads without ever exposing private key material
- Optionally encrypts keys at rest using AES-256-GCM
- Runs over MCP via stdio (default) or HTTP when needed
Supported Algorithms
| Algorithm | Tool value | Notes |
|---|---|---|
| Ed25519 | ed25519 | Good default for general signing and DID-style use cases |
| ECDSA secp256k1 | ecdsa-secp256k1 | Common for Ethereum, Bitcoin, and other Web3 flows |
| ECDSA P-256 | ecdsa-prime256v1 | ES256, WebAuthn, and common cloud KMS compatibility |
| ECDSA P-384 | ecdsa-secp384r1 | Higher-security NIST P-384 environments |
Requirements
- Node.js
>=24.0.0 - An MCP client that supports stdio or HTTP MCP servers
Quick Start
Stdio transport
Use stdio when running from Claude Desktop, Cursor, or another local MCP client.
{
"mcpServers": {
"local-kms": {
"command": "npx",
"args": ["-y", "local-kms-mcp-server"],
"env": {
"STORE_PATH": "/Users/yourname/.local-kms",
"ENCRYPT_STORE": "true",
"STORE_ENCRYPTION_KEY": "<base64-32-byte-key>"
}
}
}
}
HTTP transport
Use HTTP only when you explicitly want a local network endpoint.
TRANSPORT=http PORT=8080 npx local-kms-mcp-server
Endpoint:
POST http://localhost:8080/mcp
Installation
Run directly with npx:
npx -y local-kms-mcp-server
Or install globally:
npm install -g local-kms-mcp-server
local-kms-mcp-server
Configuration
| Environment variable | Default | Description |
|---|---|---|
STORE_PATH | ./keys | Directory used for persisted key files |
TRANSPORT | stdio | MCP transport: stdio or http |
PORT | 8080 | HTTP port used only when TRANSPORT=http |
ENCRYPT_STORE | false | Set to true or 1 to encrypt key files at rest |
STORE_ENCRYPTION_KEY | none | Base64-encoded 32-byte key required when encryption is enabled |
For local development there is an example file at .env.example, but for actual MCP client usage it is better to pass
values through the client's env configuration so startup is deterministic.
Generate an encryption key:
node -e "console.log(require('node:crypto').randomBytes(32).toString('base64'))"
Tool Reference
All tool inputs are validated with Zod. Public keys and signatures are returned as base64 strings.
| Tool | Purpose | Input | Output |
|---|---|---|---|
check_keypair | Check whether a key exists | { "keyId": "agent-1" } | { "exists": true } |
list_keys | List all stored key IDs | {} | { "keys": ["agent-1", "agent-2"] } |
generate_key | Create and persist a new keypair | { "keyId": "agent-1", "algo": "ed25519" } | { "publicKey": "..." } |
get_key_info | Return the stored public key for a key ID | { "keyId": "agent-1" } | { "publicKey": "..." } |
rotate_key | Rotate an existing keypair using its stored algorithm | { "keyId": "agent-1" } | { "newPublicKey": "..." } |
sign_message | Sign a base64-encoded payload | { "keyId": "agent-1", "message": "aGVsbG8=" } | { "signature": "..." } |
Notes:
generate_keyfails if thekeyIdalready existsrotate_keyincrements the storedversionsign_messageexpectsmessageto already be base64-encodedsign_messageaccepts an optionalalgooverride, but in normal usage the stored algorithm is usually what you want
Typical Usage Flow
- Call
generate_keyfor a newkeyId - Call
get_key_infoto retrieve the public key for registration or distribution - Call
sign_messagewhenever the agent needs to sign a challenge or payload - Call
rotate_keywhen you need new key material for the samekeyId - Call
check_keypairorlist_keysfor inventory and existence checks
Example sign_message payload:
{
"keyId": "key-1",
"message": "eyJub25jZSI6IjEyMyJ9"
}
Storage Model
Unencrypted keys are stored as one file per key under ${STORE_PATH}:
${STORE_PATH}/${keyId}.json
Stored records contain:
{
"keyId": "key-1",
"algo": "ed25519",
"publicKey": "...",
"privateKey": "...",
"version": 1,
"createdAt": "2026-04-18T12:34:56.000Z"
}
When ENCRYPT_STORE=true, the file contents are encrypted and persisted as base64 ciphertext instead of plaintext JSON.
Security Notes
- Private keys never leave the server through MCP responses
- Key files are written with
0600permissions - At-rest encryption is optional but recommended for anything beyond throwaway local development
- HTTP mode does not add authentication or TLS by itself; keep it behind a trusted local boundary or your own reverse proxy
keyIdvalues become filenames, so use stable, filesystem-safe IDs
Development
pnpm install
pnpm build
pnpm test
pnpm lint
pnpm format:check
Run locally after building:
pnpm start
Watch the built output during development:
pnpm start:dev
Extending With New Algorithms
- Implement a new adapter by extending
KeyAlgorithmAdapter - Register it in
src/keystore/index.ts - Expose the adapter name through the relevant tool schema if users should be able to select it
import { KeyAlgorithmAdapter } from '../adapter.js';
import type { KeyPair } from '../types.js';
export class MyAdapter extends KeyAlgorithmAdapter {
readonly name = 'my-algo';
generate(): KeyPair {
/* ... */
}
sign(privateKey: string, data: Buffer): string {
/* ... */
}
verify(publicKey: string, data: Buffer, signature: string): boolean {
/* ... */
}
rotate(_currentKeyPair: KeyPair): KeyPair {
return this.generate();
}
}
Project Layout
src/
config/ environment parsing and validation
keystore/ adapters, registry, and file-based storage
tools/ MCP tool registration and handlers
utils/ crypto helpers, errors, serializers
server.ts MCP server construction
main.ts stdio and HTTP entry point
test/ unit tests
License
MIT