mcp-hello-typescript-server
Click on "Install Server".
Wait a few minutes for the server to deploy. Once ready, it will show a "Started" state.
In the chat, type
@followed by the MCP server name and your instructions, e.g., "@mcp-hello-typescript-serverGreet me in Spanish."
That's it! The server will respond to your query, and you can continue using it as needed.
Here is a step-by-step guide with screenshots.
mcp-hello-typescript-server
A minimal MCP server built with TypeScript
and the official
@modelcontextprotocol/sdk
— a good starting point for a new server or a demo. It exposes just two tools:
server_info— a health/status check.greet— a friendly greeting in one of a handful of languages, defaulting to English. Ask it to "greet in French" and it repliesBonjour!.
Built with TypeScript, the TypeScript SDK,
and make. It is the TypeScript port of the sibling Python
mcp-hello-server, following the official MCP
Build a server (TypeScript)
reference. The Docker image compiles the TypeScript and runs it on a distroless
Chainguard/Wolfi Node base — no shell, no package manager, non-root.
Quick start — demo an MCP server in 2 minutes
New to MCP? This is a tiny, safe server for seeing how an MCP client discovers and calls tools. Every tool is a harmless in-memory lookup, so it's a good sandbox. All you need is Docker and an MCP client — the steps below use Claude Code and the published Docker image (nothing to build or install).
Already running one of the sibling hello servers? The Python
mcp-hello-server(aliashello), Gomcp-hello-go-server(aliashello-go), and Rustmcp-hello-rust-server(aliashello-rust) expose the sameserver_info/greettools, so it's easy to test the wrong one. Remove any you don't want registered so your client only talks tohello-ts:claude mcp list # see what's registered claude mcp remove hello # the Python server, if present claude mcp remove hello-go # the Go server, if present claude mcp remove hello-rust # the Rust server, if present
1. Add the server. Claude Code launches the container per session and talks to it over stdio:
claude mcp add hello-ts -- docker run -i --rm -e MCP_TRANSPORT=stdio ghcr.io/mitchallen/mcp-hello-typescript-server:latest2. Confirm it connected:
claude mcp list # "hello-ts" should report ✔ Connected3. Ask in plain language — Claude discovers the tools and picks one (the tool it calls is in parentheses):
"Is the hello server up? What version is it?" → (
server_info)"Greet me in French." → (
greet→ Bonjour!)"Say hello in Japanese to Alice." → (
greet→ こんにちは (Konnichiwa), Alice!)"What languages can you greet in?" → (
server_info, readslanguages)
That round trip — the client listing tools, then calling one with arguments and getting structured JSON back — is MCP.
4. Remove it when you're done:
claude mcp remove hello-tsPrefer HTTP? Run it as a long-lived server instead:
docker run --rm -p 8000:8000 ghcr.io/mitchallen/mcp-hello-typescript-server:latest claude mcp add --transport http hello-ts http://localhost:8000/mcp
Related MCP server: HelloWorld MCP Server
Tools
Tool | Purpose |
| Health/status: app name, version, uptime, supported languages |
| Greeting in |
greet
greet takes two optional arguments:
language— a language name, an alternate spelling, or an ISO code (case-insensitive). Omit it to default to English. Supported:english,spanish,french,german,italian,portuguese,japanese,hawaiian(e.g.french,Français, orfrall work).name— optional; personalizes the message (Bonjour, Alice!).
It returns { language, greeting, message }:
// greet(language="french")
{ "language": "french", "greeting": "Bonjour", "message": "Bonjour!" }
// greet(language="spanish", name="Alice")
{ "language": "spanish", "greeting": "Hola", "message": "Hola, Alice!" }
// greet() -> { "language": "english", "greeting": "Hello", "message": "Hello!" }An unknown language returns a tool error listing the supported set.
Add a language
Add a row to GREETINGS in src/greetings.ts (and, optionally, an alias / ISO
code to ALIASES). server_info reports the supported set automatically.
Quick start (from source)
Requires Node.js 20+.
make install # npm ci
make build # tsc -> ./build
make test # run the test suite
make run # run the server over stdiomake help lists every target.
Running the server
stdio (default — for MCP clients that launch the server)
npm run dev # runs src/index.ts via tsx
# or, after `make build`:
node build/index.js
# or
make runStreamable HTTP (for networked clients / containers)
make run-http # PORT defaults to 8000
PORT=9000 make run-httpThe MCP endpoint is served at /mcp.
Configuration
All configuration is via environment variables:
Variable | Default | Purpose |
|
| Name reported by |
|
|
|
|
| Bind address for |
|
| Bind port for |
Using with an MCP client — local development (from source)
Point a stdio-based client (e.g. Claude Desktop, Claude Code) at the built entry point. With Claude Code, from the project directory:
make build
claude mcp add hello-ts -- node "$PWD/build/index.js"Confirm it's connected with claude mcp list (or /mcp inside a session).
Example prompts (Claude Code)
Once the server is added, just ask in plain language — Claude picks the right tool. The tool it invokes is shown in parentheses.
"Is the hello server up? What version is it?" → (
server_info)"Greet me." → (
greet, defaults to English → "Hello!")"Greet in French." → (
greetwithlanguage="french"→ "Bonjour!")"Say hello in Japanese to Alice." → (
greetwithlanguage="japanese",name="Alice")"What languages can you greet in?" → (
server_info, then readlanguages)
Using a published image
The image is published to two registries:
GitHub Container Registry:
ghcr.io/mitchallen/mcp-hello-typescript-serverDocker Hub:
mitchallen/mcp-hello-typescript-server
Option A — Docker image, client launches it (stdio)
This is the simplest setup: there's nothing to build or install — just the published image. Pull it up front once so the first session doesn't block on the download (which can race an MCP client's connect/startup timeout):
docker pull ghcr.io/mitchallen/mcp-hello-typescript-server:latestThe client starts a fresh container per session and talks to it over stdio. Use
-i (keep stdin open) and force the stdio transport, since the image defaults to
HTTP:
{
"mcpServers": {
"hello-ts": {
"command": "docker",
"args": [
"run",
"-i",
"--rm",
"-e",
"MCP_TRANSPORT=stdio",
"ghcr.io/mitchallen/mcp-hello-typescript-server:latest",
],
},
},
}Claude Code equivalent:
claude mcp add hello-ts -- docker run -i --rm -e MCP_TRANSPORT=stdio ghcr.io/mitchallen/mcp-hello-typescript-server:latest(Pin a version like :0.1.0 in place of :latest for a reproducible setup.)
Option B — Long-running container over HTTP
The image serves HTTP by default. Start it once, then point an HTTP-capable client at it:
docker run -d --rm -p 8000:8000 --name mcp-hello-ts ghcr.io/mitchallen/mcp-hello-typescript-server:latest
claude mcp add --transport http hello-ts http://localhost:8000/mcpFor clients that only speak stdio, bridge to the HTTP endpoint with
mcp-remote:
{
"mcpServers": {
"hello-ts": {
"command": "npx",
"args": ["-y", "mcp-remote", "http://localhost:8000/mcp"],
},
},
}Notes for remote use:
Prefer HTTPS so traffic is encrypted in transit.
This server ships no authentication. If you expose it beyond localhost, put it behind a reverse proxy, gateway, or network policy.
The endpoint path is
/mcp.
Docker
Published multi-platform (linux/amd64, linux/arm64) images run the server
over streamable HTTP by default (MCP_TRANSPORT=http, HOST=0.0.0.0,
PORT=8000) so they're reachable on a published port.
A multi-stage build compiles the TypeScript on
cgr.dev/chainguard/node:latest-dev, prunes to production dependencies, and
copies build/ + node_modules onto a distroless
Chainguard/Wolfi node base — no shell, no
package manager, runs as the non-root node user. Unlike the Go/Rust siblings
(which ship a single static binary at ~10–17 MB), this image carries the Node
runtime and node_modules, so it's larger (~275 MB) — that's inherent to
shipping a runtime rather than a compiled binary. Every build is gated by a Trivy
scan (fails on fixable CRITICAL/HIGH); the dependency tree is separately scanned
with npm audit, and the published :latest is re-scanned daily — see
Security scanning.
Pull and run
docker pull ghcr.io/mitchallen/mcp-hello-typescript-server:latest
docker run --rm -p 8000:8000 --name mcp-hello-ts ghcr.io/mitchallen/mcp-hello-typescript-server:latestThen connect an HTTP MCP client to http://localhost:8000/mcp.
Test a published release with make
make docker-test # up + smoke + down in one shot (exits non-zero on failure)
make docker-up # pull + run ghcr.io/mitchallen latest, detached
make docker-smoke # MCP `initialize` handshake — passes if the server responds
make docker-down # stop it
make docker-up TAG=0.1.0 # pin a version
make docker-up REGISTRY=docker.io/mitchallen # pull from Docker Hub instead
make docker-up HTTP_PORT=9000 # publish on a different host portBuild locally
make docker-build # docker build -t mcp-hello-typescript-server .
make docker-run # serves http on localhost:8000
make scan # Trivy scan of the local image (fixable CRITICAL/HIGH fail)Security scanning
Two complementary gates catch vulnerabilities, both reproducible locally:
image-scan(make scan) — Trivy scans the built container image and fails the build on fixable CRITICAL/HIGH vulnerabilities. It covers the OS layer of the runtime image and reads the JavaScript packages innode_modules.npm-audit(npm audit --omit=dev --audit-level=high) — scans the production dependency tree against the npm advisory database. Dev-only tooling advisories don't wedge the build.scan-scheduledre-scans the published:latestimage daily and uploads results to the GitHub Security tab, catching CVEs disclosed after build time.Dependabot opens weekly PRs for npm packages, the Docker base image, and GitHub Actions; low-risk updates auto-merge once CI passes.
CI / Publish
Workflows live in .github/workflows/:
ci— on every push/PR tomain: prettier format check,tsctype-check, andnode --test.npm-audit/image-scan/scan-scheduled— vulnerability scanning (see above).publish/publish-dockerhub— triggered by pushing av*tag. Build a multi-platform image, Trivy-scan it, push it to GHCR and Docker Hub, then runmake docker-testagainst the just-published image. The Docker Hub job needsDOCKERHUB_USERNAME/DOCKERHUB_TOKENrepository secrets.
To cut a release, use the release target — it bumps the version in
package.json, commits, tags, pushes, and creates the GitHub Release from the
CHANGELOG.md section, which triggers both publish workflows:
make release # patch bump (default)
make release BUMP=minor # or minor / majorThe target refuses to run unless the working tree is clean, you're on main, and
CHANGELOG.md already has a ## [X.Y.Z] section for the new version.
Docker Hub secrets (one-time setup)
Pushing to GHCR needs no setup — it uses the built-in GITHUB_TOKEN. The
publish-dockerhub job additionally needs two repository secrets and a
pre-created Docker Hub repo:
Create a Docker Hub access token (not your password) with Read & Write permissions, at hub.docker.com → Account Settings → Personal access tokens.
Create the Docker Hub repository
mitchallen/mcp-hello-typescript-server(Public).Add the two GitHub secrets —
DOCKERHUB_USERNAMEandDOCKERHUB_TOKEN:gh secret set DOCKERHUB_USERNAME --body "mitchallen" gh secret set DOCKERHUB_TOKEN # prompts for the value — paste the token
Without these, the GHCR publish job still succeeds; only publish-dockerhub
fails at the login step.
Development
Source:
src/greetings.ts— greeting data + language resolution (greet), unit-testedserver.ts—createServer()+ tools registered withserver.registerToolversion.ts— reads the version frompackage.jsonat runtimeindex.ts— the entry point; transport wiring (stdio / HTTP)
Tests:
tests/server.test.tsdrives the tools through an in-memory client (InMemoryTransport.createLinkedPair, no network/subprocess);tests/greetings.test.tsunit-tests the resolver/builder. Run everything withmake test, or the full CI gate withmake check(prettier + type-check + test).Dependencies:
package.json/package-lock.jsonare committed. Runnpm installafter changing dependencies to refresh the lockfile.
License
MIT © Mitch Allen
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