What is MCP Weather Server?
MCP Weather Server is a sample project that demonstrates how to create a weather service using the Spring AI MCP Server Boot Starter with WebMVC transport, allowing users to retrieve weather information via the National Weather Service API.
How to use MCP Weather Server?
To use the MCP Weather Server, you can run the server using either WebMVC SSE mode or STDIO mode, and then connect to it using appropriate client implementations.
Key features of MCP Weather Server?
- Integration with Spring AI MCP Server Boot Starter.
- Supports both SSE (Server-Sent Events) and STDIO transports.
- Automatic tool registration using Spring AI's @Tool annotation.
- Provides tools for getting weather forecasts and alerts.
Use cases of MCP Weather Server?
- Retrieving weather forecasts based on geographical coordinates.
- Getting weather alerts for specific US states.
- Integrating weather data into applications using Spring AI.
FAQ from MCP Weather Server?
- What transport modes does the server support?
The server supports WebMVC SSE mode and STDIO mode for communication.
- How can I configure the server?
You can configure the server using the application.properties file to set various parameters like server name, version, and transport configurations.
- Is there a client implementation available?
Yes, the project includes example client implementations for both SSE and STDIO transports.
Spring AI MCP Weather Server Sample with WebMVC Starter
This sample project demonstrates how to create an MCP server using the Spring AI MCP Server Boot Starter with WebMVC transport. It implements a weather service that exposes tools for retrieving weather information using the National Weather Service API.
For more information, see the MCP Server Boot Starter reference documentation.
Overview
The sample showcases:
- Integration with
spring-ai-mcp-server-webmvc-spring-boot-starter - Support for both SSE (Server-Sent Events) and STDIO transports
- Automatic tool registration using Spring AI's
@Toolannotation - Two weather-related tools:
- Get weather forecast by location (latitude/longitude)
- Get weather alerts by US state
Dependencies
The project requires the Spring AI MCP Server WebMVC Boot Starter:
<dependency>
<groupId>org.springframework.ai</groupId>
<artifactId>spring-ai-mcp-server-webmvc-spring-boot-starter</artifactId>
</dependency>
This starter provides:
- HTTP-based transport using Spring MVC (
WebMvcSseServerTransport) - Auto-configured SSE endpoints
- Optional STDIO transport
- Included
spring-boot-starter-webandmcp-spring-webmvcdependencies
Building the Project
Build the project using Maven:
./mvnw clean install -DskipTests
Running the Server
The server supports two transport modes:
WebMVC SSE Mode (Default)
java -jar target/mcp-weather-starter-webmvc-server-0.0.1-SNAPSHOT.jar
STDIO Mode
To enable STDIO transport, set the appropriate properties:
java -Dspring.ai.mcp.server.stdio=true -Dspring.main.web-application-type=none -jar target/mcp-weather-starter-webmvc-server-0.0.1-SNAPSHOT.jar
Configuration
Configure the server through application.properties:
# Server identification
spring.ai.mcp.server.name=my-weather-server
spring.ai.mcp.server.version=0.0.1
# Server type (SYNC/ASYNC)
spring.ai.mcp.server.type=SYNC
# Transport configuration
spring.ai.mcp.server.stdio=false
spring.ai.mcp.server.sse-message-endpoint=/mcp/message
# Change notifications
spring.ai.mcp.server.resource-change-notification=true
spring.ai.mcp.server.tool-change-notification=true
spring.ai.mcp.server.prompt-change-notification=true
# Logging (required for STDIO transport)
spring.main.banner-mode=off
logging.file.name=./target/starter-webmvc-server.log
Available Tools
Weather Forecast Tool
- Name:
getWeatherForecastByLocation - Description: Get weather forecast for a specific latitude/longitude
- Parameters:
latitude: double - Latitude coordinatelongitude: double - Longitude coordinate
Weather Alerts Tool
- Name:
getAlerts - Description: Get weather alerts for a US state
- Parameters:
state: String - Two-letter US state code (e.g., CA, NY)
Server Implementation
The server uses Spring Boot and Spring AI's tool annotations for automatic tool registration:
@SpringBootApplication
public class McpServerApplication {
public static void main(String[] args) {
SpringApplication.run(McpServerApplication.class, args);
}
@Bean
public ToolCallbackProvider weatherTools(WeatherService weatherService){
return MethodToolCallbackProvider.builder().toolObjects(weatherService).build();
}
}
The WeatherService implements the weather tools using the @Tool annotation:
@Service
public class WeatherService {
@Tool(description = "Get weather forecast for a specific latitude/longitude")
public String getWeatherForecastByLocation(double latitude, double longitude) {
// Implementation using weather.gov API
}
@Tool(description = "Get weather alerts for a US state. Input is Two-letter US state code (e.g., CA, NY)")
public String getAlerts(String state) {
// Implementation using weather.gov API
}
}
MCP Clients
You can connect to the weather server using either STDIO or SSE transport:
Manual Clients
WebMVC SSE Client
For servers using SSE transport:
var transport = new HttpClientSseClientTransport("http://localhost:8080");
var client = McpClient.sync(transport).build();
STDIO Client
For servers using STDIO transport:
var stdioParams = ServerParameters.builder("java")
.args("-Dspring.ai.mcp.server.stdio=true",
"-Dspring.main.web-application-type=none",
"-Dspring.main.banner-mode=off",
"-Dlogging.pattern.console=",
"-jar",
"target/mcp-weather-starter-webmvc-server-0.0.1-SNAPSHOT.jar")
.build();
var transport = new StdioClientTransport(stdioParams);
var client = McpClient.sync(transport).build();
The sample project includes example client implementations:
- SampleClient.java: Manual MCP client implementation
- ClientStdio.java: STDIO transport connection
- ClientSse.java: SSE transport connection
For a better development experience, consider using the MCP Client Boot Starters. These starters enable auto-configuration of multiple STDIO and/or SSE connections to MCP servers. See the starter-default-client project for examples.
Boot Starter Clients
Let's use the starter-default-client client to connect to our weather starter-webmvc-server.
Follow the starter-default-client readme instruction to build a mcp-starter-default-client-0.0.1-SNAPSHOT.jar client application.
STDIO Transport
- Create a
mcp-servers-config.jsonconfiguration file with this content:
{
"mcpServers": {
"weather-starter-webmvc-server": {
"command": "java",
"args": [
"-Dspring.ai.mcp.server.stdio=true",
"-Dspring.main.web-application-type=none",
"-Dlogging.pattern.console=",
"-jar",
"/absolute/path/to/mcp-weather-starter-webmvc-server-0.0.1-SNAPSHOT.jar"
]
}
}
}
- Run the client using the configuration file:
java -Dspring.ai.mcp.client.stdio.servers-configuration=file:mcp-servers-config.json \
-Dai.user.input='What is the weather in NY?' \
-Dlogging.pattern.console= \
-jar mcp-starter-default-client-0.0.1-SNAPSHOT.jar
SSE (WebMVC) Transport
- Start the
mcp-weather-starter-webmvc-server:
java -jar mcp-weather-starter-webmvc-server-0.0.1-SNAPSHOT.jar
starts the MCP server on port 8080.
- In another console start the client configured with SSE transport:
java -Dspring.ai.mcp.client.sse.connections.weather-server.url=http://localhost:8080 \
-Dlogging.pattern.console= \
-Dai.user.input='What is the weather in NY?' \
-jar mcp-starter-default-client-0.0.1-SNAPSHOT.jar