Pelajaran ini menumpukan pada amalan terbaik lanjutan untuk membangunkan, menguji, dan menyebarkan pelayan dan ciri MCP dalam persekitaran pengeluaran. Apabila ekosistem MCP semakin kompleks dan penting, mengikuti corak yang telah ditetapkan memastikan kebolehpercayaan, kebolehselenggaraan, dan kebolehoperasian. Pelajaran ini menggabungkan kebijaksanaan praktikal yang diperoleh daripada pelaksanaan MCP dunia sebenar untuk membimbing anda dalam mencipta pelayan yang kukuh dan cekap dengan sumber, prompt, dan alat yang berkesan.
Pada akhir pelajaran ini, anda akan dapat:
- Mengaplikasikan amalan terbaik industri dalam reka bentuk pelayan dan ciri MCP
- Mewujudkan strategi ujian yang komprehensif untuk pelayan MCP
- Mereka bentuk corak aliran kerja yang cekap dan boleh digunakan semula untuk aplikasi MCP yang kompleks
- Melaksanakan pengendalian ralat, log, dan pemerhatian yang betul dalam pelayan MCP
- Mengoptimumkan pelaksanaan MCP untuk prestasi, keselamatan, dan kebolehselenggaraan
Untuk maklumat terkini mengenai amalan terbaik MCP, rujuk:
Setiap ciri MCP harus mempunyai tujuan yang jelas dan fokus. Daripada mencipta alat monolitik yang cuba menangani pelbagai kebimbangan, bangunkan alat khusus yang cemerlang dalam tugas tertentu.
Contoh Baik:
// A focused tool that does one thing well
public class WeatherForecastTool : ITool
{
private readonly IWeatherService _weatherService;
public WeatherForecastTool(IWeatherService weatherService)
{
_weatherService = weatherService;
}
public string Name => "weatherForecast";
public string Description => "Gets weather forecast for a specific location";
public ToolDefinition GetDefinition()
{
return new ToolDefinition
{
Name = Name,
Description = Description,
Parameters = new Dictionary<string, ParameterDefinition>
{
["location"] = new ParameterDefinition
{
Type = ParameterType.String,
Description = "City or location name"
},
["days"] = new ParameterDefinition
{
Type = ParameterType.Integer,
Description = "Number of forecast days",
Default = 3
}
},
Required = new[] { "location" }
};
}
public async Task<ToolResponse> ExecuteAsync(IDictionary<string, object> parameters)
{
var location = parameters["location"].ToString();
var days = parameters.ContainsKey("days")
? Convert.ToInt32(parameters["days"])
: 3;
var forecast = await _weatherService.GetForecastAsync(location, days);
return new ToolResponse
{
Content = new List<ContentItem>
{
new TextContent(JsonSerializer.Serialize(forecast))
}
};
}
}Contoh Buruk:
// A tool trying to do too many things
public class WeatherToolSuite : ITool
{
public string Name => "weather";
public string Description => "Weather-related functionality";
public ToolDefinition GetDefinition()
{
return new ToolDefinition
{
Name = Name,
Description = Description,
Parameters = new Dictionary<string, ParameterDefinition>
{
["action"] = new ParameterDefinition
{
Type = ParameterType.String,
Description = "Weather action to perform",
Enum = new[] { "forecast", "history", "alerts", "radar" }
},
["location"] = new ParameterDefinition
{
Type = ParameterType.String,
Description = "City or location name"
},
// Many more properties for different actions...
},
required = new[] { "action", "location" }
};
}
public async Task<ToolResponse> ExecuteAsync(ToolRequest request)
{
// Complex conditional logic to handle different actions
var action = request.Parameters.GetProperty("action").GetString();
var location = request.Parameters.GetProperty("location").GetString();
switch (action)
{
case "forecast":
// Forecast logic
break;
case "history":
// Historical data logic
break;
// More cases...
default:
throw new ToolExecutionException($"Unknown action: {action}");
}
// Result processing
// ...
}
}Reka alat untuk menerima ketergantungan mereka melalui suntikan konstruktor, menjadikannya boleh diuji dan boleh dikonfigurasi:
// Java example with dependency injection
public class CurrencyConversionTool implements Tool {
private final ExchangeRateService exchangeService;
private final CacheService cacheService;
private final Logger logger;
// Dependencies injected through constructor
public CurrencyConversionTool(
ExchangeRateService exchangeService,
CacheService cacheService,
Logger logger) {
this.exchangeService = exchangeService;
this.cacheService = cacheService;
this.logger = logger;
}
// Tool implementation
// ...
}Reka alat yang boleh digabungkan bersama untuk mencipta aliran kerja yang lebih kompleks:
# Python example showing composable tools
class DataFetchTool(Tool):
def get_name(self):
return "dataFetch"
# Implementation...
class DataAnalysisTool(Tool):
def get_name(self):
return "dataAnalysis"
# This tool can use results from the dataFetch tool
async def execute_async(self, request):
# Implementation...
pass
class DataVisualizationTool(Tool):
def get_name(self):
return "dataVisualize"
# This tool can use results from the dataAnalysis tool
async def execute_async(self, request):
# Implementation...
pass
# These tools can be used independently or as part of a workflowSkema adalah kontrak antara model dan alat anda. Skema yang direka dengan baik membawa kepada kebolehgunaan alat yang lebih baik.
Sentiasa sertakan maklumat deskriptif untuk setiap parameter:
public object GetSchema()
{
return new {
type = "object",
properties = new {
query = new {
type = "string",
description = "Search query text. Use precise keywords for better results."
},
filters = new {
type = "object",
description = "Optional filters to narrow down search results",
properties = new {
dateRange = new {
type = "string",
description = "Date range in format YYYY-MM-DD:YYYY-MM-DD"
},
category = new {
type = "string",
description = "Category name to filter by"
}
}
},
limit = new {
type = "integer",
description = "Maximum number of results to return (1-50)",
default = 10
}
},
required = new[] { "query" }
};
}Sertakan kekangan pengesahan untuk mengelakkan input yang tidak sah:
Map<String, Object> getSchema() {
Map<String, Object> schema = new HashMap<>();
schema.put("type", "object");
Map<String, Object> properties = new HashMap<>();
// Email property with format validation
Map<String, Object> email = new HashMap<>();
email.put("type", "string");
email.put("format", "email");
email.put("description", "User email address");
// Age property with numeric constraints
Map<String, Object> age = new HashMap<>();
age.put("type", "integer");
age.put("minimum", 13);
age.put("maximum", 120);
age.put("description", "User age in years");
// Enumerated property
Map<String, Object> subscription = new HashMap<>();
subscription.put("type", "string");
subscription.put("enum", Arrays.asList("free", "basic", "premium"));
subscription.put("default", "free");
subscription.put("description", "Subscription tier");
properties.put("email", email);
properties.put("age", age);
properties.put("subscription", subscription);
schema.put("properties", properties);
schema.put("required", Arrays.asList("email"));
return schema;
}Kekalkan konsistensi dalam struktur respons anda untuk memudahkan model mentafsir hasil:
async def execute_async(self, request):
try:
# Process request
results = await self._search_database(request.parameters["query"])
# Always return a consistent structure
return ToolResponse(
result={
"matches": [self._format_item(item) for item in results],
"totalCount": len(results),
"queryTime": calculation_time_ms,
"status": "success"
}
)
except Exception as e:
return ToolResponse(
result={
"matches": [],
"totalCount": 0,
"queryTime": 0,
"status": "error",
"error": str(e)
}
)
def _format_item(self, item):
"""Ensures each item has a consistent structure"""
return {
"id": item.id,
"title": item.title,
"summary": item.summary[:100] + "..." if len(item.summary) > 100 else item.summary,
"url": item.url,
"relevance": item.score
}Pengendalian ralat yang kukuh adalah penting untuk alat MCP untuk mengekalkan kebolehpercayaan.
Tangani ralat pada tahap yang sesuai dan berikan mesej yang bermaklumat:
public async Task<ToolResponse> ExecuteAsync(ToolRequest request)
{
try
{
string fileId = request.Parameters.GetProperty("fileId").GetString();
try
{
var fileData = await _fileService.GetFileAsync(fileId);
return new ToolResponse {
Result = JsonSerializer.SerializeToElement(fileData)
};
}
catch (FileNotFoundException)
{
throw new ToolExecutionException($"File not found: {fileId}");
}
catch (UnauthorizedAccessException)
{
throw new ToolExecutionException("You don't have permission to access this file");
}
catch (Exception ex) when (ex is IOException || ex is TimeoutException)
{
_logger.LogError(ex, "Error accessing file {FileId}", fileId);
throw new ToolExecutionException("Error accessing file: The service is temporarily unavailable");
}
}
catch (JsonException)
{
throw new ToolExecutionException("Invalid file ID format");
}
catch (Exception ex)
{
_logger.LogError(ex, "Unexpected error in FileAccessTool");
throw new ToolExecutionException("An unexpected error occurred");
}
}Kembalikan maklumat ralat berstruktur apabila mungkin:
@Override
public ToolResponse execute(ToolRequest request) {
try {
// Implementation
} catch (Exception ex) {
Map<String, Object> errorResult = new HashMap<>();
errorResult.put("success", false);
if (ex instanceof ValidationException) {
ValidationException validationEx = (ValidationException) ex;
errorResult.put("errorType", "validation");
errorResult.put("errorMessage", validationEx.getMessage());
errorResult.put("validationErrors", validationEx.getErrors());
return new ToolResponse.Builder()
.setResult(errorResult)
.build();
}
// Re-throw other exceptions as ToolExecutionException
throw new ToolExecutionException("Tool execution failed: " + ex.getMessage(), ex);
}
}Laksanakan logik ulang yang sesuai untuk kegagalan sementara:
async def execute_async(self, request):
max_retries = 3
retry_count = 0
base_delay = 1 # seconds
while retry_count < max_retries:
try:
# Call external API
return await self._call_api(request.parameters)
except TransientError as e:
retry_count += 1
if retry_count >= max_retries:
raise ToolExecutionException(f"Operation failed after {max_retries} attempts: {str(e)}")
# Exponential backoff
delay = base_delay * (2 ** (retry_count - 1))
logging.warning(f"Transient error, retrying in {delay}s: {str(e)}")
await asyncio.sleep(delay)
except Exception as e:
# Non-transient error, don't retry
raise ToolExecutionException(f"Operation failed: {str(e)}")Laksanakan caching untuk operasi yang mahal:
public class CachedDataTool : IMcpTool
{
private readonly IDatabase _database;
private readonly IMemoryCache _cache;
public CachedDataTool(IDatabase database, IMemoryCache cache)
{
_database = database;
_cache = cache;
}
public async Task<ToolResponse> ExecuteAsync(ToolRequest request)
{
var query = request.Parameters.GetProperty("query").GetString();
// Create cache key based on parameters
var cacheKey = $"data_query_{ComputeHash(query)}";
// Try to get from cache first
if (_cache.TryGetValue(cacheKey, out var cachedResult))
{
return new ToolResponse { Result = cachedResult };
}
// Cache miss - perform actual query
var result = await _database.QueryAsync(query);
// Store in cache with expiration
var cacheOptions = new MemoryCacheEntryOptions()
.SetAbsoluteExpiration(TimeSpan.FromMinutes(15));
_cache.Set(cacheKey, JsonSerializer.SerializeToElement(result), cacheOptions);
return new ToolResponse { Result = JsonSerializer.SerializeToElement(result) };
}
private string ComputeHash(string input)
{
// Implementation to generate stable hash for cache key
}
}Gunakan corak pengaturcaraan asinkron untuk operasi berasaskan I/O:
public class AsyncDocumentProcessingTool implements Tool {
private final DocumentService documentService;
private final ExecutorService executorService;
@Override
public ToolResponse execute(ToolRequest request) {
String documentId = request.getParameters().get("documentId").asText();
// For long-running operations, return a processing ID immediately
String processId = UUID.randomUUID().toString();
// Start async processing
CompletableFuture.runAsync(() -> {
try {
// Perform long-running operation
documentService.processDocument(documentId);
// Update status (would typically be stored in a database)
processStatusRepository.updateStatus(processId, "completed");
} catch (Exception ex) {
processStatusRepository.updateStatus(processId, "failed", ex.getMessage());
}
}, executorService);
// Return immediate response with process ID
Map<String, Object> result = new HashMap<>();
result.put("processId", processId);
result.put("status", "processing");
result.put("estimatedCompletionTime", ZonedDateTime.now().plusMinutes(5));
return new ToolResponse.Builder().setResult(result).build();
}
// Companion status check tool
public class ProcessStatusTool implements Tool {
@Override
public ToolResponse execute(ToolRequest request) {
String processId = request.getParameters().get("processId").asText();
ProcessStatus status = processStatusRepository.getStatus(processId);
return new ToolResponse.Builder().setResult(status).build();
}
}
}Laksanakan throttling sumber untuk mengelakkan beban berlebihan:
class ThrottledApiTool(Tool):
def __init__(self):
self.rate_limiter = TokenBucketRateLimiter(
tokens_per_second=5, # Allow 5 requests per second
bucket_size=10 # Allow bursts up to 10 requests
)
async def execute_async(self, request):
# Check if we can proceed or need to wait
delay = self.rate_limiter.get_delay_time()
if delay > 0:
if delay > 2.0: # If wait is too long
raise ToolExecutionException(
f"Rate limit exceeded. Please try again in {delay:.1f} seconds."
)
else:
# Wait for the appropriate delay time
await asyncio.sleep(delay)
# Consume a token and proceed with the request
self.rate_limiter.consume()
# Call API
result = await self._call_api(request.parameters)
return ToolResponse(result=result)
class TokenBucketRateLimiter:
def __init__(self, tokens_per_second, bucket_size):
self.tokens_per_second = tokens_per_second
self.bucket_size = bucket_size
self.tokens = bucket_size
self.last_refill = time.time()
self.lock = asyncio.Lock()
async def get_delay_time(self):
async with self.lock:
self._refill()
if self.tokens >= 1:
return 0
# Calculate time until next token available
return (1 - self.tokens) / self.tokens_per_second
async def consume(self):
async with self.lock:
self._refill()
self.tokens -= 1
def _refill(self):
now = time.time()
elapsed = now - self.last_refill
# Add new tokens based on elapsed time
new_tokens = elapsed * self.tokens_per_second
self.tokens = min(self.bucket_size, self.tokens + new_tokens)
self.last_refill = nowSentiasa sahkan parameter input dengan teliti:
public async Task<ToolResponse> ExecuteAsync(ToolRequest request)
{
// Validate parameters exist
if (!request.Parameters.TryGetProperty("query", out var queryProp))
{
throw new ToolExecutionException("Missing required parameter: query");
}
// Validate correct type
if (queryProp.ValueKind != JsonValueKind.String)
{
throw new ToolExecutionException("Query parameter must be a string");
}
var query = queryProp.GetString();
// Validate string content
if (string.IsNullOrWhiteSpace(query))
{
throw new ToolExecutionException("Query parameter cannot be empty");
}
if (query.Length > 500)
{
throw new ToolExecutionException("Query parameter exceeds maximum length of 500 characters");
}
// Check for SQL injection attacks if applicable
if (ContainsSqlInjection(query))
{
throw new ToolExecutionException("Invalid query: contains potentially unsafe SQL");
}
// Proceed with execution
// ...
}Laksanakan semakan kebenaran yang betul:
@Override
public ToolResponse execute(ToolRequest request) {
// Get user context from request
UserContext user = request.getContext().getUserContext();
// Check if user has required permissions
if (!authorizationService.hasPermission(user, "documents:read")) {
throw new ToolExecutionException("User does not have permission to access documents");
}
// For specific resources, check access to that resource
String documentId = request.getParameters().get("documentId").asText();
if (!documentService.canUserAccess(user.getId(), documentId)) {
throw new ToolExecutionException("Access denied to the requested document");
}
// Proceed with tool execution
// ...
}Tangani data sensitif dengan berhati-hati:
class SecureDataTool(Tool):
def get_schema(self):
return {
"type": "object",
"properties": {
"userId": {"type": "string"},
"includeSensitiveData": {"type": "boolean", "default": False}
},
"required": ["userId"]
}
async def execute_async(self, request):
user_id = request.parameters["userId"]
include_sensitive = request.parameters.get("includeSensitiveData", False)
# Get user data
user_data = await self.user_service.get_user_data(user_id)
# Filter sensitive fields unless explicitly requested AND authorized
if not include_sensitive or not self._is_authorized_for_sensitive_data(request):
user_data = self._redact_sensitive_fields(user_data)
return ToolResponse(result=user_data)
def _is_authorized_for_sensitive_data(self, request):
# Check authorization level in request context
auth_level = request.context.get("authorizationLevel")
return auth_level == "admin"
def _redact_sensitive_fields(self, user_data):
# Create a copy to avoid modifying the original
redacted = user_data.copy()
# Redact specific sensitive fields
sensitive_fields = ["ssn", "creditCardNumber", "password"]
for field in sensitive_fields:
if field in redacted:
redacted[field] = "REDACTED"
# Redact nested sensitive data
if "financialInfo" in redacted:
redacted["financialInfo"] = {"available": True, "accessRestricted": True}
return redactedPengujian yang komprehensif memastikan alat MCP berfungsi dengan betul, menangani kes tepi, dan berintegrasi dengan betul dengan sistem lain.
Cipta ujian fokus untuk setiap fungsi alat:
[Fact]
public async Task WeatherTool_ValidLocation_ReturnsCorrectForecast()
{
// Arrange
var mockWeatherService = new Mock<IWeatherService>();
mockWeatherService
.Setup(s => s.GetForecastAsync("Seattle", 3))
.ReturnsAsync(new WeatherForecast(/* test data */));
var tool = new WeatherForecastTool(mockWeatherService.Object);
var request = new ToolRequest(
toolName: "weatherForecast",
parameters: JsonSerializer.SerializeToElement(new {
location = "Seattle",
days = 3
})
);
// Act
var response = await tool.ExecuteAsync(request);
// Assert
Assert.NotNull(response);
var result = JsonSerializer.Deserialize<WeatherForecast>(response.Result);
Assert.Equal("Seattle", result.Location);
Assert.Equal(3, result.DailyForecasts.Count);
}
[Fact]
public async Task WeatherTool_InvalidLocation_ThrowsToolExecutionException()
{
// Arrange
var mockWeatherService = new Mock<IWeatherService>();
mockWeatherService
.Setup(s => s.GetForecastAsync("InvalidLocation", It.IsAny<int>()))
.ThrowsAsync(new LocationNotFoundException("Location not found"));
var tool = new WeatherForecastTool(mockWeatherService.Object);
var request = new ToolRequest(
toolName: "weatherForecast",
parameters: JsonSerializer.SerializeToElement(new {
location = "InvalidLocation",
days = 3
})
);
// Act & Assert
var exception = await Assert.ThrowsAsync<ToolExecutionException>(
() => tool.ExecuteAsync(request)
);
Assert.Contains("Location not found", exception.Message);
}Uji bahawa skema adalah sah dan menguatkuasakan kekangan dengan betul:
@Test
public void testSchemaValidation() {
// Create tool instance
SearchTool searchTool = new SearchTool();
// Get schema
Object schema = searchTool.getSchema();
// Convert schema to JSON for validation
String schemaJson = objectMapper.writeValueAsString(schema);
// Validate schema is valid JSONSchema
JsonSchemaFactory factory = JsonSchemaFactory.byDefault();
JsonSchema jsonSchema = factory.getJsonSchema(schemaJson);
// Test valid parameters
JsonNode validParams = objectMapper.createObjectNode()
.put("query", "test query")
.put("limit", 5);
ProcessingReport validReport = jsonSchema.validate(validParams);
assertTrue(validReport.isSuccess());
// Test missing required parameter
JsonNode missingRequired = objectMapper.createObjectNode()
.put("limit", 5);
ProcessingReport missingReport = jsonSchema.validate(missingRequired);
assertFalse(missingReport.isSuccess());
// Test invalid parameter type
JsonNode invalidType = objectMapper.createObjectNode()
.put("query", "test")
.put("limit", "not-a-number");
ProcessingReport invalidReport = jsonSchema.validate(invalidType);
assertFalse(invalidReport.isSuccess());
}Cipta ujian khusus untuk keadaan ralat:
@pytest.mark.asyncio
async def test_api_tool_handles_timeout():
# Arrange
tool = ApiTool(timeout=0.1) # Very short timeout
# Mock a request that will time out
with aioresponses() as mocked:
mocked.get(
"https://api.example.com/data",
callback=lambda *args, **kwargs: asyncio.sleep(0.5) # Longer than timeout
)
request = ToolRequest(
tool_name="apiTool",
parameters={"url": "https://api.example.com/data"}
)
# Act & Assert
with pytest.raises(ToolExecutionException) as exc_info:
await tool.execute_async(request)
# Verify exception message
assert "timed out" in str(exc_info.value).lower()
@pytest.mark.asyncio
async def test_api_tool_handles_rate_limiting():
# Arrange
tool = ApiTool()
# Mock a rate-limited response
with aioresponses() as mocked:
mocked.get(
"https://api.example.com/data",
status=429,
headers={"Retry-After": "2"},
body=json.dumps({"error": "Rate limit exceeded"})
)
request = ToolRequest(
tool_name="apiTool",
parameters={"url": "https://api.example.com/data"}
)
# Act & Assert
with pytest.raises(ToolExecutionException) as exc_info:
await tool.execute_async(request)
# Verify exception contains rate limit information
error_msg = str(exc_info.value).lower()
assert "rate limit" in error_msg
assert "try again" in error_msgUji alat berfungsi bersama dalam kombinasi yang dijangka:
[Fact]
public async Task DataProcessingWorkflow_CompletesSuccessfully()
{
// Arrange
var dataFetchTool = new DataFetchTool(mockDataService.Object);
var analysisTools = new DataAnalysisTool(mockAnalysisService.Object);
var visualizationTool = new DataVisualizationTool(mockVisualizationService.Object);
var toolRegistry = new ToolRegistry();
toolRegistry.RegisterTool(dataFetchTool);
toolRegistry.RegisterTool(analysisTools);
toolRegistry.RegisterTool(visualizationTool);
var workflowExecutor = new WorkflowExecutor(toolRegistry);
// Act
var result = await workflowExecutor.ExecuteWorkflowAsync(new[] {
new ToolCall("dataFetch", new { source = "sales2023" }),
new ToolCall("dataAnalysis", ctx => new {
data = ctx.GetResult("dataFetch"),
analysis = "trend"
}),
new ToolCall("dataVisualize", ctx => new {
analysisResult = ctx.GetResult("dataAnalysis"),
type = "line-chart"
})
});
// Assert
Assert.NotNull(result);
Assert.True(result.Success);
Assert.NotNull(result.GetResult("dataVisualize"));
Assert.Contains("chartUrl", result.GetResult("dataVisualize").ToString());
}Uji pelayan MCP dengan pendaftaran dan pelaksanaan alat penuh:
@SpringBootTest
@AutoConfigureMockMvc
public class McpServerIntegrationTest {
@Autowired
private MockMvc mockMvc;
@Autowired
private ObjectMapper objectMapper;
@Test
public void testToolDiscovery() throws Exception {
// Test the discovery endpoint
mockMvc.perform(get("/mcp/tools"))
.andExpect(status().isOk())
.andExpect(jsonPath("$.tools").isArray())
.andExpect(jsonPath("$.tools[*].name").value(hasItems(
"weatherForecast", "calculator", "documentSearch"
)));
}
@Test
public void testToolExecution() throws Exception {
// Create tool request
Map<String, Object> request = new HashMap<>();
request.put("toolName", "calculator");
Map<String, Object> parameters = new HashMap<>();
parameters.put("operation", "add");
parameters.put("a", 5);
parameters.put("b", 7);
request.put("parameters", parameters);
// Send request and verify response
mockMvc.perform(post("/mcp/execute")
.contentType(MediaType.APPLICATION_JSON)
.content(objectMapper.writeValueAsString(request)))
.andExpect(status().isOk())
.andExpect(jsonPath("$.result.value").value(12));
}
@Test
public void testToolValidation() throws Exception {
// Create invalid tool request
Map<String, Object> request = new HashMap<>();
request.put("toolName", "calculator");
Map<String, Object> parameters = new HashMap<>();
parameters.put("operation", "divide");
parameters.put("a", 10);
// Missing parameter "b"
request.put("parameters", parameters);
// Send request and verify error response
mockMvc.perform(post("/mcp/execute")
.contentType(MediaType.APPLICATION_JSON)
.content(objectMapper.writeValueAsString(request)))
.andExpect(status().isBadRequest())
.andExpect(jsonPath("$.error").exists());
}
}Uji aliran kerja lengkap dari prompt model ke pelaksanaan alat:
@pytest.mark.asyncio
async def test_model_interaction_with_tool():
# Arrange - Set up MCP client and mock model
mcp_client = McpClient(server_url="http://localhost:5000")
# Mock model responses
mock_model = MockLanguageModel([
MockResponse(
"What's the weather in Seattle?",
tool_calls=[{
"tool_name": "weatherForecast",
"parameters": {"location": "Seattle", "days": 3}
}]
),
MockResponse(
"Here's the weather forecast for Seattle:\n- Today: 65°F, Partly Cloudy\n- Tomorrow: 68°F, Sunny\n- Day after: 62°F, Rain",
tool_calls=[]
)
])
# Mock weather tool response
with aioresponses() as mocked:
mocked.post(
"http://localhost:5000/mcp/execute",
payload={
"result": {
"location": "Seattle",
"forecast": [
{"date": "2023-06-01", "temperature": 65, "conditions": "Partly Cloudy"},
{"date": "2023-06-02", "temperature": 68, "conditions": "Sunny"},
{"date": "2023-06-03", "temperature": 62, "conditions": "Rain"}
]
}
}
)
# Act
response = await mcp_client.send_prompt(
"What's the weather in Seattle?",
model=mock_model,
allowed_tools=["weatherForecast"]
)
# Assert
assert "Seattle" in response.generated_text
assert "65" in response.generated_text
assert "Sunny" in response.generated_text
assert "Rain" in response.generated_text
assert len(response.tool_calls) == 1
assert response.tool_calls[0].tool_name == "weatherForecast"Uji berapa banyak permintaan serentak yang boleh ditangani oleh pelayan MCP anda:
[Fact]
public async Task McpServer_HandlesHighConcurrency()
{
// Arrange
var server = new McpServer(
name: "TestServer",
version: "1.0",
maxConcurrentRequests: 100
);
server.RegisterTool(new FastExecutingTool());
await server.StartAsync();
var client = new McpClient("http://localhost:5000");
// Act
var tasks = new List<Task<McpResponse>>();
for (int i = 0; i < 1000; i++)
{
tasks.Add(client.ExecuteToolAsync("fastTool", new { iteration = i }));
}
var results = await Task.WhenAll(tasks);
// Assert
Assert.Equal(1000, results.Length);
Assert.All(results, r => Assert.NotNull(r));
}Uji sistem di bawah beban yang melampau:
@Test
public void testServerUnderStress() {
int maxUsers = 1000;
int rampUpTimeSeconds = 60;
int testDurationSeconds = 300;
// Set up JMeter for stress testing
StandardJMeterEngine jmeter = new StandardJMeterEngine();
// Configure JMeter test plan
HashTree testPlanTree = new HashTree();
// Create test plan, thread group, samplers, etc.
TestPlan testPlan = new TestPlan("MCP Server Stress Test");
testPlanTree.add(testPlan);
ThreadGroup threadGroup = new ThreadGroup();
threadGroup.setNumThreads(maxUsers);
threadGroup.setRampUp(rampUpTimeSeconds);
threadGroup.setScheduler(true);
threadGroup.setDuration(testDurationSeconds);
testPlanTree.add(threadGroup);
// Add HTTP sampler for tool execution
HTTPSampler toolExecutionSampler = new HTTPSampler();
toolExecutionSampler.setDomain("localhost");
toolExecutionSampler.setPort(5000);
toolExecutionSampler.setPath("/mcp/execute");
toolExecutionSampler.setMethod("POST");
toolExecutionSampler.addArgument("toolName", "calculator");
toolExecutionSampler.addArgument("parameters", "{\"operation\":\"add\",\"a\":5,\"b\":7}");
threadGroup.add(toolExecutionSampler);
// Add listeners
SummaryReport summaryReport = new SummaryReport();
threadGroup.add(summaryReport);
// Run test
jmeter.configure(testPlanTree);
jmeter.run();
// Validate results
assertEquals(0, summaryReport.getErrorCount());
assertTrue(summaryReport.getAverage() < 200); // Average response time < 200ms
assertTrue(summaryReport.getPercentile(90.0) < 500); // 90th percentile < 500ms
}Tetapkan pemantauan untuk analisis prestasi jangka panjang:
# Configure monitoring for an MCP server
def configure_monitoring(server):
# Set up Prometheus metrics
prometheus_metrics = {
"request_count": Counter("mcp_requests_total", "Total MCP requests"),
"request_latency": Histogram(
"mcp_request_duration_seconds",
"Request duration in seconds",
buckets=[0.01, 0.05, 0.1, 0.5, 1.0, 2.5, 5.0, 10.0]
),
"tool_execution_count": Counter(
"mcp_tool_executions_total",
"Tool execution count",
labelnames=["tool_name"]
),
"tool_execution_latency": Histogram(
"mcp_tool_duration_seconds",
"Tool execution duration in seconds",
labelnames=["tool_name"],
buckets=[0.01, 0.05, 0.1, 0.5, 1.0, 2.5, 5.0, 10.0]
),
"tool_errors": Counter(
"mcp_tool_errors_total",
"Tool execution errors",
labelnames=["tool_name", "error_type"]
)
}
# Add middleware for timing and recording metrics
server.add_middleware(PrometheusMiddleware(prometheus_metrics))
# Expose metrics endpoint
@server.router.get("/metrics")
async def metrics():
return generate_latest()
return serverAliran kerja MCP yang direka dengan baik meningkatkan kecekapan, kebolehpercayaan, dan kebolehselenggaraan. Berikut adalah corak utama yang perlu diikuti:
Sambungkan pelbagai alat dalam satu urutan di mana keluaran setiap alat menjadi input untuk alat seterusnya:
# Python Chain of Tools implementation
class ChainWorkflow:
def __init__(self, tools_chain):
self.tools_chain = tools_chain # List of tool names to execute in sequence
async def execute(self, mcp_client, initial_input):
current_result = initial_input
all_results = {"input": initial_input}
for tool_name in self.tools_chain:
# Execute each tool in the chain, passing previous result
response = await mcp_client.execute_tool(tool_name, current_result)
# Store result and use as input for next tool
all_results[tool_name] = response.result
current_result = response.result
return {
"final_result": current_result,
"all_results": all_results
}
# Example usage
data_processing_chain = ChainWorkflow([
"dataFetch",
"dataCleaner",
"dataAnalyzer",
"dataVisualizer"
])
result = await data_processing_chain.execute(
mcp_client,
{"source": "sales_database", "table": "transactions"}
)Gunakan alat pusat yang mengarahkan kepada alat khusus berdasarkan input:
public class ContentDispatcherTool : IMcpTool
{
private readonly IMcpClient _mcpClient;
public ContentDispatcherTool(IMcpClient mcpClient)
{
_mcpClient = mcpClient;
}
public string Name => "contentProcessor";
public string Description => "Processes content of various types";
public object GetSchema()
{
return new {
type = "object",
properties = new {
content = new { type = "string" },
contentType = new {
type = "string",
enum = new[] { "text", "html", "markdown", "csv", "code" }
},
operation = new {
type = "string",
enum = new[] { "summarize", "analyze", "extract", "convert" }
}
},
required = new[] { "content", "contentType", "operation" }
};
}
public async Task<ToolResponse> ExecuteAsync(ToolRequest request)
{
var content = request.Parameters.GetProperty("content").GetString();
var contentType = request.Parameters.GetProperty("contentType").GetString();
var operation = request.Parameters.GetProperty("operation").GetString();
// Determine which specialized tool to use
string targetTool = DetermineTargetTool(contentType, operation);
// Forward to the specialized tool
var specializedResponse = await _mcpClient.ExecuteToolAsync(
targetTool,
new { content, options = GetOptionsForTool(targetTool, operation) }
);
return new ToolResponse { Result = specializedResponse.Result };
}
private string DetermineTargetTool(string contentType, string operation)
{
return (contentType, operation) switch
{
("text", "summarize") => "textSummarizer",
("text", "analyze") => "textAnalyzer",
("html", _) => "htmlProcessor",
("markdown", _) => "markdownProcessor",
("csv", _) => "csvProcessor",
("code", _) => "codeAnalyzer",
_ => throw new ToolExecutionException($"No tool available for {contentType}/{operation}")
};
}
private object GetOptionsForTool(string toolName, string operation)
{
// Return appropriate options for each specialized tool
return toolName switch
{
"textSummarizer" => new { length = "medium" },
"htmlProcessor" => new { cleanUp = true, operation },
// Options for other tools...
_ => new { }
};
}
}Laksanakan pelbagai alat serentak untuk kecekapan:
public class ParallelDataProcessingWorkflow {
private final McpClient mcpClient;
public ParallelDataProcessingWorkflow(McpClient mcpClient) {
this.mcpClient = mcpClient;
}
public WorkflowResult execute(String datasetId) {
// Step 1: Fetch dataset metadata (synchronous)
ToolResponse metadataResponse = mcpClient.executeTool("datasetMetadata",
Map.of("datasetId", datasetId));
// Step 2: Launch multiple analyses in parallel
CompletableFuture<ToolResponse> statisticalAnalysis = CompletableFuture.supplyAsync(() ->
mcpClient.executeTool("statisticalAnalysis", Map.of(
"datasetId", datasetId,
"type", "comprehensive"
))
);
CompletableFuture<ToolResponse> correlationAnalysis = CompletableFuture.supplyAsync(() ->
mcpClient.executeTool("correlationAnalysis", Map.of(
"datasetId", datasetId,
"method", "pearson"
))
);
CompletableFuture<ToolResponse> outlierDetection = CompletableFuture.supplyAsync(() ->
mcpClient.executeTool("outlierDetection", Map.of(
"datasetId", datasetId,
"sensitivity", "medium"
))
);
// Wait for all parallel tasks to complete
CompletableFuture<Void> allAnalyses = CompletableFuture.allOf(
statisticalAnalysis, correlationAnalysis, outlierDetection
);
allAnalyses.join(); // Wait for completion
// Step 3: Combine results
Map<String, Object> combinedResults = new HashMap<>();
combinedResults.put("metadata", metadataResponse.getResult());
combinedResults.put("statistics", statisticalAnalysis.join().getResult());
combinedResults.put("correlations", correlationAnalysis.join().getResult());
combinedResults.put("outliers", outlierDetection.join().getResult());
// Step 4: Generate summary report
ToolResponse summaryResponse = mcpClient.executeTool("reportGenerator",
Map.of("analysisResults", combinedResults));
// Return complete workflow result
WorkflowResult result = new WorkflowResult();
result.setDatasetId(datasetId);
result.setAnalysisResults(combinedResults);
result.setSummaryReport(summaryResponse.getResult());
return result;
}
}Laksanakan langkah pemulihan yang berhemah untuk kegagalan alat:
class ResilientWorkflow:
def __init__(self, mcp_client):
self.client = mcp_client
async def execute_with_fallback(self, primary_tool, fallback_tool, parameters):
try:
# Try primary tool first
response = await self.client.execute_tool(primary_tool, parameters)
return {
"result": response.result,
"source": "primary",
"tool": primary_tool
}
except ToolExecutionException as e:
# Log the failure
logging.warning(f"Primary tool '{primary_tool}' failed: {str(e)}")
# Fall back to secondary tool
try:
# Might need to transform parameters for fallback tool
fallback_params = self._adapt_parameters(parameters, primary_tool, fallback_tool)
response = await self.client.execute_tool(fallback_tool, fallback_params)
return {
"result": response.result,
"source": "fallback",
"tool": fallback_tool,
"primaryError": str(e)
}
except ToolExecutionException as fallback_error:
# Both tools failed
logging.error(f"Both primary and fallback tools failed. Fallback error: {str(fallback_error)}")
raise WorkflowExecutionException(
f"Workflow failed: primary error: {str(e)}; fallback error: {str(fallback_error)}"
)
def _adapt_parameters(self, params, from_tool, to_tool):
"""Adapt parameters between different tools if needed"""
# This implementation would depend on the specific tools
# For this example, we'll just return the original parameters
return params
# Example usage
async def get_weather(workflow, location):
return await workflow.execute_with_fallback(
"premiumWeatherService", # Primary (paid) weather API
"basicWeatherService", # Fallback (free) weather API
{"location": location}
)Bina aliran kerja yang kompleks dengan menggabungkan yang lebih mudah:
public class CompositeWorkflow : IWorkflow
{
private readonly List<IWorkflow> _workflows;
public CompositeWorkflow(IEnumerable<IWorkflow> workflows)
{
_workflows = new List<IWorkflow>(workflows);
}
public async Task<WorkflowResult> ExecuteAsync(WorkflowContext context)
{
var results = new Dictionary<string, object>();
foreach (var workflow in _workflows)
{
var workflowResult = await workflow.ExecuteAsync(context);
// Store each workflow's result
results[workflow.Name] = workflowResult;
// Update context with the result for the next workflow
context = context.WithResult(workflow.Name, workflowResult);
}
return new WorkflowResult(results);
}
public string Name => "CompositeWorkflow";
public string Description => "Executes multiple workflows in sequence";
}
// Example usage
var documentWorkflow = new CompositeWorkflow(new IWorkflow[] {
new DocumentFetchWorkflow(),
new DocumentProcessingWorkflow(),
new InsightGenerationWorkflow(),
new ReportGenerationWorkflow()
});
var result = await documentWorkflow.ExecuteAsync(new WorkflowContext {
Parameters = new { documentId = "12345" }
});Pengujian adalah aspek kritikal dalam membangunkan pelayan MCP yang boleh dipercayai dan berkualiti tinggi. Panduan ini menyediakan amalan terbaik dan petua komprehensif untuk menguji pelayan MCP anda sepanjang kitaran pembangunan, dari ujian unit hingga ujian integrasi dan pengesahan hujung-ke-hujung.
Pelayan MCP berfungsi sebagai perantara penting antara model AI dan aplikasi pelanggan. Pengujian yang menyeluruh memastikan:
- Kebolehpercayaan dalam persekitaran pengeluaran
- Pengendalian permintaan dan respons yang tepat
- Pelaksanaan spesifikasi MCP yang betul
- Ketahanan terhadap kegagalan dan kes tepi
- Prestasi yang konsisten di bawah pelbagai beban
Ujian unit mengesahkan komponen individu pelayan MCP anda secara terasing.
- Pengendali Sumber: Uji logik setiap pengendali sumber secara bebas
- Pelaksanaan Alat: Sahkan tingkah laku alat dengan pelbagai input
- Templat Prompt: Pastikan templat prompt dipaparkan dengan betul
- Pengesahan Skema: Uji logik pengesahan parameter
- Pengendalian Ralat: Sahkan respons ralat untuk input yang tidak sah
// Example unit test for a calculator tool in C#
[Fact]
public async Task CalculatorTool_Add_ReturnsCorrectSum()
{
// Arrange
var calculator = new CalculatorTool();
var parameters = new Dictionary<string, object>
{
["operation"] = "add",
["a"] = 5,
["b"] = 7
};
// Act
var response = await calculator.ExecuteAsync(parameters);
var result = JsonSerializer.Deserialize<CalculationResult>(response.Content[0].ToString());
// Assert
Assert.Equal(12, result.Value);
}# Example unit test for a calculator tool in Python
def test_calculator_tool_add():
# Arrange
calculator = CalculatorTool()
parameters = {
"operation": "add",
"a": 5,
"b": 7
}
# Act
response = calculator.execute(parameters)
result = json.loads(response.content[0].text)
# Assert
assert result["value"] == 12Ujian integrasi mengesahkan interaksi antara komponen pelayan MCP anda.
- Permulaan Pelayan: Uji permulaan pelayan dengan pelbagai konfigurasi
- Pendaftaran Laluan: Sahkan semua titik akhir didaftarkan dengan betul
- Pemprosesan Permintaan: Uji kitaran permintaan-respons penuh
- Penyebaran Ralat: Pastikan ralat ditangani dengan betul di seluruh komponen
- Pengesahan & Kebenaran: Uji mekanisme keselamatan
// Example integration test for MCP server in C#
[Fact]
public async Task Server_ProcessToolRequest_ReturnsValidResponse()
{
// Arrange
var server = new McpServer();
server.RegisterTool(new CalculatorTool());
await server.StartAsync();
var request = new McpRequest
{
Tool = "calculator",
Parameters = new Dictionary<string, object>
{
["operation"] = "multiply",
["a"] = 6,
["b"] = 7
}
};
// Act
var response = await server.ProcessRequestAsync(request);
// Assert
Assert.NotNull(response);
Assert.Equal(McpStatusCodes.Success, response.StatusCode);
// Additional assertions for response content
// Cleanup
await server.StopAsync();
}Ujian hujung-ke-hujung mengesahkan tingkah laku sistem lengkap dari pelanggan ke pelayan.
- Komunikasi Pelanggan-Pelayan: Uji kitaran permintaan-respons lengkap
- SDK Pelanggan Sebenar: Uji dengan pelaksanaan pelanggan sebenar
- Prestasi di Bawah Beban: Sahkan tingkah laku dengan pelbagai permintaan serentak
- Pemulihan Ralat: Uji pemulihan sistem daripada kegagalan
- Operasi Jangka Panjang: Sahkan pengendalian penstriman dan operasi panjang
// Example E2E test with a client in TypeScript
describe('MCP Server E2E Tests', () => {
let client: McpClient;
beforeAll(async () => {
// Start server in test environment
await startTestServer();
client = new McpClient('http://localhost:5000');
});
afterAll(async () => {
await stopTestServer();
});
test('Client can invoke calculator tool and get correct result', async () => {
// Act
const response = await client.invokeToolAsync('calculator', {
operation: 'divide',
a: 20,
b: 4
});
// Assert
expect(response.statusCode).toBe(200);
expect(response.content[0].text).toContain('5');
});
});Mocking adalah penting untuk mengasingkan komponen semasa pengujian.
- Model AI Luaran: Mock respons model untuk pengujian yang boleh diramal
- Perkhidmatan Luaran: Mock kebergantungan API (pangkalan data, perkhidmatan pihak ketiga)
- Perkhidmatan Pengesahan: Mock penyedia identiti
- Penyedia Sumber: Mock pengendali sumber yang mahal
// C# example with Moq
var mockModel = new Mock<ILanguageModel>();
mockModel
.Setup(m => m.GenerateResponseAsync(
It.IsAny<string>(),
It.IsAny<McpRequestContext>()))
.ReturnsAsync(new ModelResponse {
Text = "Mocked model response",
FinishReason = FinishReason.Completed
});
var server = new McpServer(modelClient: mockModel.Object);# Python example with unittest.mock
@patch('mcp_server.models.OpenAIModel')
def test_with_mock_model(mock_model):
# Configure mock
mock_model.return_value.generate_response.return_value = {
"text": "Mocked model response",
"finish_reason": "completed"
}
# Use mock in test
server = McpServer(model_client=mock_model)
# Continue with testPengujian prestasi adalah penting untuk pelayan MCP pengeluaran.
- Kelewatan: Masa respons untuk permintaan
- Keluaran: Permintaan yang ditangani setiap saat
- Penggunaan Sumber: Penggunaan CPU, memori, rangkaian
- Pengendalian Serentak: Tingkah laku di bawah permintaan selari
- Ciri-ciri Penskalaan: Prestasi apabila beban meningkat
- k6: Alat pengujian beban sumber terbuka
- JMeter: Pengujian prestasi yang komprehensif
- Locust: Pengujian beban berasaskan Python
- Azure Load Testing: Pengujian prestasi berasaskan awan
// k6 script for load testing MCP server
import http from 'k6/http';
import { check, sleep } from 'k6';
export const options = {
vus: 10, // 10 virtual users
duration: '30s',
};
export default function () {
const payload = JSON.stringify({
tool: 'calculator',
parameters: {
operation: 'add',
a: Math.floor(Math.random() * 100),
b: Math.floor(Math.random() * 100)
}
});
const params = {
headers: {
'Content-Type': 'application/json',
'Authorization': 'Bearer test-token'
},
};
const res = http.post('http://localhost:5000/api/tools/invoke', payload, params);
check(res, {
'status is 200': (r) => r.status === 200,
'response time < 500ms': (r) => r.timings.duration < 500,
});
sleep(1);
}Mengautomasi ujian anda memastikan kualiti yang konsisten dan pusingan maklum balas yang lebih pantas.
- Jalankan Ujian Unit pada Permintaan Tarik: Pastikan perubahan kod tidak memecahkan fungsi sedia ada
- Ujian Integrasi dalam Pementasan: Jalankan ujian integrasi dalam persekitaran pra-pengeluaran
- Garis Dasar Prestasi: Kekalkan penanda aras prestasi untuk menangkap regresi
- Imbasan Keselamatan: Automasi pengujian keselamatan sebagai sebahagian daripada saluran paip
name: MCP Server Tests
on:
push:
branches: [ main ]
pull_request:
branches: [ main ]
jobs:
test:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Set up Runtime
uses: actions/setup-dotnet@v1
with:
dotnet-version: '8.0.x'
- name: Restore dependencies
run: dotnet restore
- name: Build
run: dotnet build --no-restore
- name: Unit Tests
run: dotnet test --no-build --filter Category=Unit
- name: Integration Tests
run: dotnet test --no-build --filter Category=Integration
- name: Performance Tests
run: dotnet run --project tests/PerformanceTests/PerformanceTests.csprojSahkan pelayan anda melaksanakan spesifikasi MCP dengan betul.
- Titik Akhir API: Uji titik akhir yang diperlukan (/resources, /tools, dll.)
- Format Permintaan/Respons: Sahkan pematuhan skema
- Kod Ralat: Sahkan kod status yang betul untuk pelbagai senario
- Jenis Kandungan: Uji pengendalian pelbagai jenis kandungan
- Aliran Pengesahan: Sahkan mekanisme auth yang mematuhi spesifikasi
[Fact]
public async Task Server_ResourceEndpoint_ReturnsCorrectSchema()
{
// Arrange
var client = new HttpClient();
client.DefaultRequestHeaders.Add("Authorization", "Bearer test-token");
// Act
var response = await client.GetAsync("http://localhost:5000/api/resources");
var content = await response.Content.ReadAsStringAsync();
var resources = JsonSerializer.Deserialize<ResourceList>(content);
// Assert
Assert.Equal(HttpStatusCode.OK, response.StatusCode);
Assert.NotNull(resources);
Assert.All(resources.Resources, resource =>
{
Assert.NotNull(resource.Id);
Assert.NotNull(resource.Type);
// Additional schema validation
});
}- Uji Definisi Alat Secara Berasingan: Sahkan definisi skema secara bebas daripada logik alat
- Gunakan Ujian Parameter: Uji alat dengan pelbagai input, termasuk kes tepi
- Semak Respons Ralat: Sahkan pengendalian ralat yang betul untuk semua keadaan ralat yang mungkin
- Uji Logik Kebenaran: Pastikan kawalan akses yang betul untuk peranan pengguna yang berbeza
- Pantau Liputan Ujian: Sasarkan liputan tinggi kod laluan kritikal
- Uji Respons Penstriman: Sahkan pengendalian kandungan penstriman yang betul
- Simulasikan Masalah Rangkaian: Uji tingkah laku di bawah keadaan rangkaian yang buruk
- Uji Had Sumber: Sahkan tingkah laku apabila mencapai kuota atau had kadar
- Automasi Ujian Regresi: Bina suite yang berjalan pada setiap perubahan kod
- Dokumentasikan Kes Ujian: Kekalkan dokumentasi yang jelas mengenai senario ujian
- Terlalu bergantung pada pengujian jalan bahagia: Pastikan untuk menguji kes ralat dengan teliti
- Mengabaikan pengujian prestasi: Kenal pasti kebuntuan sebelum ia menjejaskan pengeluaran
- Pengujian dalam pengasingan sahaja: Gabungkan ujian unit, integrasi, dan E2E
- Liputan API yang tidak lengkap: Pastikan semua titik akhir dan ciri diuji
- Persekitaran ujian yang tidak konsisten: Gunakan kontena untuk memastikan persekitaran ujian yang konsisten
Strategi pengujian yang komprehensif adalah penting untuk membangunkan pelayan MCP yang boleh dipercayai dan berkualiti tinggi. Dengan melaksanakan amalan terbaik dan petua yang digariskan dalam panduan ini, anda boleh memastikan pelaksanaan MCP anda memenuhi piawaian kualiti, kebolehpercayaan, dan prestasi yang tertinggi.
- Reka Bentuk Alat: Ikuti prinsip tanggungjawab tunggal, gunakan suntikan ketergantungan, dan reka untuk kebolehkomposan
- Reka Bentuk Skema: Cipta skema yang jelas dan didokumentasikan dengan baik dengan kekangan pengesahan yang betul
- Pengendalian Ralat: Laksanakan pengendalian ralat yang berhemah, respons ralat berstruktur, dan logik ulang
- Prestasi: Gunakan caching, pemprosesan asinkron, dan throttling sumber
- Keselamatan: Terapkan pengesahan input yang teliti, semakan kebenaran, dan pengendalian data sensitif
- Pengujian: Cipta ujian unit, integrasi, dan hujung-ke-hujung yang komprehensif
- Corak Aliran Kerja: Terapkan corak yang telah ditetapkan seperti rantai, dispatcher, dan pemprosesan selari
Reka alat dan aliran kerja MCP untuk sistem pemprosesan dokumen yang:
- Menerima dokumen dalam pelbagai format (PDF, DOCX, TXT)
- Mengekstrak teks dan maklumat utama dari dokumen
- Mengklasifikasikan dokumen mengikut jenis dan kandungan
- Menjana ringkasan setiap dokumen
Laksanakan skema alat, pengendalian ralat, dan corak aliran kerja yang paling sesuai dengan senario ini. Pertimbangkan bagaimana anda akan menguji pelaksanaan ini.
Tahniah kerana telah menyelesaikan kurikulum MCP! Untuk meneruskan perjalanan anda:
- Sertai komuniti MCP untuk kekal terkini dengan perkembangan terkini
- Sumbangkan kepada projek MCP sumber terbuka
- Terapkan prinsip MCP dalam inisiatif AI organisasi anda sendiri
- Terokai pelaksanaan MCP khusus untuk industri anda.
- Pertimbangkan untuk mengambil kursus lanjutan mengenai topik MCP tertentu, seperti integrasi multi-modal atau integrasi aplikasi perusahaan.
- Bereksperimen dengan membina alat dan aliran kerja MCP anda sendiri menggunakan prinsip yang dipelajari dalam kurikulum ini.
Penafian:
Dokumen ini telah diterjemahkan menggunakan perkhidmatan terjemahan AI Co-op Translator. Walaupun kami berusaha untuk ketepatan, sila ambil perhatian bahawa terjemahan automatik mungkin mengandungi kesilapan atau ketidaktepatan. Dokumen asal dalam bahasa asalnya harus dianggap sebagai sumber yang berwibawa. Untuk maklumat kritikal, terjemahan manusia profesional adalah disyorkan. Kami tidak bertanggungjawab atas sebarang salah faham atau salah tafsir yang timbul daripada penggunaan terjemahan ini.