Getting Started

MockServer is a single, self-hosted tool that mocks and proxies the services your application depends on, so you can develop and test against realistic, controllable behaviour instead of fragile real dependencies. It is free and open-source, runs anywhere, and needs no SaaS account.

To get started see the guide for mocking, proxying, connecting an AI assistant via MCP, or the code examples. The fastest way to try it:

docker run -d --rm -p 1080:1080 mockserver/mockserver

 

What is MockServer

For any system you integrate with via HTTP or HTTPS MockServer can be used as:

• a mock configured to return specific responses for different requests
• a proxy recording and optionally modifying requests and responses
• both a proxy for some requests and a mock for other requests at the same time
• an MCP server that lets AI coding assistants drive the mock and proxy in natural language

Beyond mocking and proxying, the same MockServer instance also lets you:

• verify that expected requests were (or were not) made — as test assertions
• record and replay real traffic to reproduce how a system behaves
• pause and modify requests or responses using breakpoints intercept a matched or proxied request in the dashboard to inspect and modify it (or its response) live, then continue, step, or fail it
• inject chaos and faults introduce chaos as latency, errors, dropped connections & malformed responses — HTTP, gRPC and TCP fault injection, plus Kubernetes and service-mesh chaos
• template dynamic responses with Velocity, Mustache or JavaScript so a mock can react to the incoming request
• custom matching and response logic via WASM in any language that compiles to WebAssembly
• detect mock drift be warned when a mock no longer matches the real API
• mock LLM and AI-provider APIs including OpenAI, Anthropic, Bedrock & more with realistic token-by-token streaming

It mocks far more than REST, and can build mocks from the contracts you already have:

• mock gRPC services, AsyncAPI message brokers (Kafka, MQTT, AMQP), OAuth2 / OIDC providers, and AI protocols (MCP, A2A, SSE, WebSocket)
• generate mocks and validate traffic directly from an OpenAPI / Swagger specification
• bootstrap mocks by importing recorded traffic from a browser HAR or a Postman collection
• serve everything on one port over HTTP, HTTPS / TLS, SOCKS and experimental HTTP/3 (QUIC)

And it is built to inspect, operate and scale:

• a built-in web dashboard to watch live logs, active expectations and recorded traffic, and to drive breakpoints and chaos
• Prometheus metrics and OpenTelemetry tracing for visibility in CI and shared environments
• run via Docker, an executable JAR, Helm / Kubernetes, Testcontainers, or a JVM-less binary — or scale to a shared, clustered centralised deployment for whole teams and CI pipelines
• drive it from clients for Java, JavaScript, Python, Ruby, Go, .NET, Rust and PHP, the command line, or a plain REST API

MockServer is also AI-native: every instance ships a built-in Model Context Protocol (MCP) server at /mockserver/mcp with no extra configuration, and the documentation is published in machine-readable form for LLMs. In practice this means:

• AI assistants (Claude Code, Cursor, Windsurf, Cline, OpenCode) can connect over MCP to create expectations, verify requests, retrieve recorded traffic, and debug mismatches — see MCP tools
• Tools that don't yet speak MCP can fall back to MockServer's OpenAPI spec
• LLMs can retrieve and cite the docs via llms.txt, llms-full.txt, and ai.txt

See AI & MCP Integration below for the full list of AI capabilities.

When MockServer receives a request it matches the request against active expectations that have been configured. Then, if no matches are found, it proxies the request if appropriate; otherwise a 404 is returned.

For each request received the following steps happen:

1. find matching expectation and perform action
2. if no matching expectation proxy request
3. if not a proxy request return 404

An expectation defines the action that is taken, for example, a response could be returned.

MockServer supports the follow actions:

• return a "mock" response when a request matches an expectation

  

• forward a request when the request matches an expectation (i.e. a dynamic port forwarding proxy)

  

• execute a callback when a request matches an expectation, allowing the response to be created dynamically

  

• return an invalid response or close the connection when a request matches an expectation

  

• verify requests have been sent (i.e. as a test assertion)

  

• retrieve logs, requests or expectations to help debug

  

 

Proxying with MockServer

MockServer can:

• proxy all requests using any of the following proxying methods:
  • Port Forwarding
  • Web Proxying (i.e. HTTP proxy)
  • HTTPS Tunneling Proxying (using HTTP CONNECT)
  • SOCKS Proxying (i.e. dynamic port forwarding)
• verify proxied requests have been sent (i.e. in a test assertion)
• record proxied requests and responses to analyse how a system behaves
• pause proxied requests at breakpoints to inspect and modify the request or response in-flight, before it is forwarded upstream or returned to the client
• inject chaos and faults into proxied traffic — latency, errors, dropped connections — to test how your system copes with a misbehaving upstream

MockServer supports the following proxying techniques:

• Port Forwarding
  • all requests are forwarded to a single hostname or IP and port
  • to proxy requests the HTTP client should use the hostname and port of MockServer
• Web Proxying (i.e. HTTP proxy)
  • each request is forwarded dynamically using its Host header
  • to proxy requests the HTTP client should be configured to use an HTTP Proxy
• Secure Web Proxying (i.e. HTTPS tunneling proxying)
  • requests are forwarded using a CONNECT request that sets up an HTTP tunnel
  • an SSL certificate is auto-generated allowing encrypted HTTPS traffic to be recorded transparently
  • to proxy requests the HTTP client should be configured to use an HTTP Proxy
• SOCKS Proxying (i.e. dynamic port forwarding)
  • requests are forwarded using a SOCK CONNECT CMD request that established a socket tunnel
  • if the traffic is encrypted an SSL certificate is auto-generated allowing SSL traffic to be recorded transparently
  • to proxy requests the operating system (or JVM) should be configured to use an HTTP Proxy
• SSL & Certificates
  • all SSL traffic is handled transparently by auto-generating an appropriate SSL certificate
  • generated certificates use a single MockServer root CA certificate enabling the root certificate to be easily imported
•  Port Unification
  • to simplify configuration all protocols (i.e. HTTP, HTTPS / TLS, SOCKS, etc) are supported on the same port
  • the protocol is detected dynamically by MockServer
• Simultaneous Proxying & Mocking
  • if MockServer is being used as a proxy expectations can also be created
  • when a request is received it is first matched against active expectations that have been configured
  • if an expectation is matched its action will be performed instead of proxying the request

 

AI & MCP Integration

MockServer is built to be AI-native. A built-in Model Context Protocol (MCP) server lets AI coding assistants drive the mock server in natural language, and an OpenAPI spec provides a fallback for tools that don't yet speak MCP. All documentation, including llms.txt, llms-full.txt, and ai.txt, is structured for retrieval and citation by LLMs.

• MCP Setup — connect Claude Code, Cursor, Windsurf, Cline, or OpenCode to a running MockServer at http://localhost:1080/mockserver/mcp over the MCP Streamable HTTP transport
• MCP Tools Reference — every tool the AI assistant can invoke: create_expectation, verify_request, retrieve_recorded_requests, retrieve_logs, retrieve_request_responses, debug_request_mismatch, and more
• AI-Assisted Debugging — diagnose request mismatches and inspect recorded request/response pairs through an AI assistant
• AI-Assisted Verification — build test assertions using natural language
• AI Traffic Inspection — record outbound traffic and let an AI assistant explain what happened
• LLM Response Mocking — mock OpenAI, Anthropic, Bedrock and other LLM provider APIs, with realistic token-by-token streaming, for fast and deterministic AI-app tests
• AI Protocol Mocking — mock MCP, A2A, SSE and WebSocket AI-protocol servers
• OpenAPI Fallback for AI — use MockServer's OpenAPI spec with AI tools that don't yet support MCP

The MCP endpoint requires no extra configuration — start MockServer and the AI surface is on the same port:

docker run -d --rm -p 1080:1080 mockserver/mockserver
# MCP endpoint immediately available at http://localhost:1080/mockserver/mcp

 

Why use MockServer

MockServer allows you to mock any server or service via HTTP or HTTPS, such as a REST or RPC service.

This is useful in the following scenarios:

• testing
  • easily recreate all types of responses for HTTP dependencies such as REST or RPC services to test applications easily and effectively
  • isolate the system-under-test to ensure tests run reliably and only fail when there is a genuine bug. It is important only the system-under-test is tested and not its dependencies to avoid tests failing due to irrelevant external changes such as network failure or a server being rebooted / redeployed.
  • easily set up mock responses independently for each test to ensure test data is encapsulated with each test. Avoid sharing data between tests that is difficult to manage and maintain and risks tests infecting each other
  • create test assertions that verify the requests the system-under-test has sent
• de-coupling development
  • start working against a service API before the service is available. If an API or service is not yet fully developed MockServer can mock the API allowing any team who is using the service to start work without being delayed
  • isolate development teams during the initial development phases when the APIs / services may be extremely unstable and volatile. Using MockServer allows development work to continue even when an external service fails
• resilience & chaos testing
  • verify your system copes when its dependencies misbehave by injecting chaos and faults — latency, errors, dropped connections and malformed responses (HTTP, gRPC and TCP) — so failure modes are tested deliberately rather than discovered in production
• interactive debugging
  • set interactive breakpoints to pause a matched or proxied request in the dashboard, inspect and modify the request or response live, then continue — useful for reproducing edge cases and stepping through how the system-under-test reacts
• isolate single service
  • during deployment and debugging it is helpful to run a single application or service, or handle a sub-set of requests, on a local machine in debug mode. Using MockServer it is easy to selectively forward requests to a local process running in debug mode, while all other requests are forwarded to the real services, for example running in a QA or UAT environment

Mocking Dependencies & Verifying Request

Given a system with service dependencies, as follows:

MockServer could be used to mock the service dependencies, as follows:

Isolating Single Service / Application

A single page application may load static resources such as HTML, CSS and JavaScript from a web server and also make AJAX calls to one or more separate services, as follows:

To isolate a single AJAX service, for development or debugging, the MockServer can selectively forward specific requests to local instance of the service:

Using MockServer as a content routing load balancer is described in more detail in the section called Isolate Single Service.

Why use MockServer as a proxy

MockServer allows you to record requests from the system-under-test, or to analyse an existing system by recording its outbound requests.

This is useful in the following scenarios:

• testing
  • create test assertions that verify the requests the system-under-test has been sent, without needing to mock any requests
• analyse existing system
  • record all outbound requests so it is possible to analyse and understand what outbound requests an existing system is making
• debug HTTP interactions
  • log all outbound requests so it is possible to visualise all interactions (for example from a browser) to external services. This is particularly important as network analysis tools in browsers such as Chrome do not accurately show all network interactions, such as, favicon.ico requests. In addition, many proxies do not handle encrypted HTTPS traffic, however, MockServer auto-generates certificates using a single MockServer root CA certificate enabling the root certificate to be easily imported
• record & replay
  • all recorded requests can be converted into Java code or JSON expectations to simplify the creation of mocks for complex test scenarios

Recording Requests & Analysing Behaviour

MockServer can record all proxied requests, as follows:

Verifying Request

MockServer can verify proxied service requests, as follows:

 

Developer Documentation

For detailed information about MockServer's internal architecture, infrastructure, build system, and operations, see the Contributing page, which links to comprehensive technical documentation on GitHub.