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Kotlin Multiplatform implementation of the Model Context Protocol (MCP), providing both client and server capabilities for integrating with LLM surfaces across various platforms.
The Model Context Protocol allows applications to provide context for LLMs in a standardized way, separating the concerns of providing context from the actual LLM interaction. This SDK implements the MCP specification for Kotlin, enabling you to build applications that can communicate using MCP on the JVM, WebAssembly and iOS.
- Build MCP clients that can connect to any MCP server
- Create MCP servers that expose resources, prompts and tools
- Use standard transports like stdio, SSE, and WebSocket
- Handle all MCP protocol messages and lifecycle events
- kotlin-mcp-server: demonstrates a multiplatform (JVM, Wasm) MCP server setup with various features and transports.
- weather-stdio-server: shows how to build a Kotlin MCP server providing weather forecast and alerts using STDIO transport.
- kotlin-mcp-client: demonstrates building an interactive Kotlin MCP client that connects to an MCP server via STDIO and integrates with Anthropic’s API.
Add the new repository to your build file:
repositories {
mavenCentral()
}Add the dependency:
dependencies {
// Use the badge above for the latest version
implementation("io.modelcontextprotocol:kotlin-sdk:$mcpVersion")
}import io.modelcontextprotocol.kotlin.sdk.client.Client
import io.modelcontextprotocol.kotlin.sdk.client.StdioClientTransport
import io.modelcontextprotocol.kotlin.sdk.Implementation
val client = Client(
clientInfo = Implementation(
name = "example-client",
version = "1.0.0"
)
)
val transport = StdioClientTransport(
inputStream = processInputStream,
outputStream = processOutputStream
)
// Connect to server
client.connect(transport)
// List available resources
val resources = client.listResources()
// Read a specific resource
val resourceContent = client.readResource(
ReadResourceRequest(uri = "file:///example.txt")
)import io.modelcontextprotocol.kotlin.sdk.server.Server
import io.modelcontextprotocol.kotlin.sdk.server.ServerOptions
import io.modelcontextprotocol.kotlin.sdk.server.StdioServerTransport
import io.modelcontextprotocol.kotlin.sdk.ServerCapabilities
val server = Server(
serverInfo = Implementation(
name = "example-server",
version = "1.0.0"
),
options = ServerOptions(
capabilities = ServerCapabilities(
resources = ServerCapabilities.Resources(
subscribe = true,
listChanged = true
)
)
)
)
// Add a resource
server.addResource(
uri = "file:///example.txt",
name = "Example Resource",
description = "An example text file",
mimeType = "text/plain"
) { request ->
ReadResourceResult(
contents = listOf(
TextResourceContents(
text = "This is the content of the example resource.",
uri = request.uri,
mimeType = "text/plain"
)
)
)
}
// Start server with stdio transport
val transport = StdioServerTransport()
server.connect(transport)Directly in Ktor's Application:
import io.ktor.server.application.*
import io.modelcontextprotocol.kotlin.sdk.server.mcp
fun Application.module() {
mcp {
Server(
serverInfo = Implementation(
name = "example-sse-server",
version = "1.0.0"
),
options = ServerOptions(
capabilities = ServerCapabilities(
prompts = ServerCapabilities.Prompts(listChanged = null),
resources = ServerCapabilities.Resources(subscribe = null, listChanged = null)
)
)
)
}
}Inside a custom Ktor's Route:
import io.ktor.server.application.*
import io.ktor.server.sse.SSE
import io.modelcontextprotocol.kotlin.sdk.server.mcp
fun Application.module() {
install(SSE)
routing {
route("myRoute") {
mcp {
Server(
serverInfo = Implementation(
name = "example-sse-server",
version = "1.0.0"
),
options = ServerOptions(
capabilities = ServerCapabilities(
prompts = ServerCapabilities.Prompts(listChanged = null),
resources = ServerCapabilities.Resources(subscribe = null, listChanged = null)
)
)
)
}
}
}
}Please see the contribution guide and the Code of conduct before contributing.
This project is licensed under the MIT License—see the LICENSE file for details.
