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Notion MCP Server

by punkpeye
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API-get-block-children

Retrieve child blocks from a Notion page or database using a block ID. Specify pagination with start cursor and page size to manage large datasets efficiently.

Instructions

Notion | Retrieve block children

Input Schema

TableJSON Schema
NameRequiredDescriptionDefault
block_idYesIdentifier for a [block](ref:block)
page_sizeNoThe number of items from the full list desired in the response. Maximum: 100
start_cursorNoIf supplied, this endpoint will return a page of results starting after the cursor provided. If not supplied, this endpoint will return the first page of results.

Implementation Reference

  • src/openapi-mcp-server/mcp/proxy.ts:78-119 (handler)
    Generic handler for all MCP tools including 'API-get-block-children'. Finds the corresponding OpenAPI operation by tool name (e.g., 'API-get-block-children' maps to operationId 'get-block-children'), executes it via HTTP client, and returns JSON response as text content.
    this.server.setRequestHandler(CallToolRequestSchema, async (request) => {
  const { name, arguments: params } = request.params

  // Find the operation in OpenAPI spec
  const operation = this.findOperation(name)
  if (!operation) {
    throw new Error(`Method ${name} not found`)
  }

  try {
    // Execute the operation
    const response = await this.httpClient.executeOperation(operation, params)

    // Convert response to MCP format
    return {
      content: [
        {
          type: 'text', // currently this is the only type that seems to be used by mcp server
          text: JSON.stringify(response.data), // TODO: pass through the http status code text?
        },
      ],
    }
  } catch (error) {
    console.error('Error in tool call', error)
    if (error instanceof HttpClientError) {
      console.error('HttpClientError encountered, returning structured error', error)
      const data = error.data?.response?.data ?? error.data ?? {}
      return {
        content: [
          {
            type: 'text',
            text: JSON.stringify({
              status: 'error', // TODO: get this from http status code?
              ...(typeof data === 'object' ? data : { data: data }),
            }),
          },
        ],
      }
    }
    throw error
  }
})
  • src/openapi-mcp-server/mcp/proxy.ts:58-75 (registration)
    Registers all tools dynamically by converting OpenAPI operations to MCP tools list. Tool names are formatted as 'API-{operationId}' (e.g., 'API-get-block-children'), with schemas and descriptions from OpenAPI spec.
    this.server.setRequestHandler(ListToolsRequestSchema, async () => {
  const tools: Tool[] = []

  // Add methods as separate tools to match the MCP format
  Object.entries(this.tools).forEach(([toolName, def]) => {
    def.methods.forEach(method => {
      const toolNameWithMethod = `${toolName}-${method.name}`;
      const truncatedToolName = this.truncateToolName(toolNameWithMethod);
      tools.push({
        name: truncatedToolName,
        description: method.description,
        inputSchema: method.inputSchema as Tool['inputSchema'],
      })
    })
  })

  return { tools }
})
  • src/openapi-mcp-server/openapi/parser.ts:362-475 (schema)
    Generates the inputSchema for each tool (including 'API-get-block-children') by converting OpenAPI operation parameters and requestBody to JSON Schema. Also generates description and optional returnSchema.
    private convertOperationToMCPMethod(operation: OpenAPIV3.OperationObject, method: string, path: string): NewToolMethod | null {
  if (!operation.operationId) {
    console.warn(`Operation without operationId at ${method} ${path}`)
    return null
  }

  const methodName = operation.operationId

  const inputSchema: IJsonSchema & { type: 'object' } = {
    $defs: this.convertComponentsToJsonSchema(),
    type: 'object',
    properties: {},
    required: [],
  }

  // Handle parameters (path, query, header, cookie)
  if (operation.parameters) {
    for (const param of operation.parameters) {
      const paramObj = this.resolveParameter(param)
      if (paramObj && paramObj.schema) {
        const schema = this.convertOpenApiSchemaToJsonSchema(paramObj.schema, new Set(), false)
        // Merge parameter-level description if available
        if (paramObj.description) {
          schema.description = paramObj.description
        }
        inputSchema.properties![paramObj.name] = schema
        if (paramObj.required) {
          inputSchema.required!.push(paramObj.name)
        }
      }
    }
  }

  // Handle requestBody
  if (operation.requestBody) {
    const bodyObj = this.resolveRequestBody(operation.requestBody)
    if (bodyObj?.content) {
      // Handle multipart/form-data for file uploads
      // We convert the multipart/form-data schema to a JSON schema and we require
      // that the user passes in a string for each file that points to the local file
      if (bodyObj.content['multipart/form-data']?.schema) {
        const formSchema = this.convertOpenApiSchemaToJsonSchema(bodyObj.content['multipart/form-data'].schema, new Set(), false)
        if (formSchema.type === 'object' && formSchema.properties) {
          for (const [name, propSchema] of Object.entries(formSchema.properties)) {
            inputSchema.properties![name] = propSchema
          }
          if (formSchema.required) {
            inputSchema.required!.push(...formSchema.required!)
          }
        }
      }
      // Handle application/json
      else if (bodyObj.content['application/json']?.schema) {
        const bodySchema = this.convertOpenApiSchemaToJsonSchema(bodyObj.content['application/json'].schema, new Set(), false)
        // Merge body schema into the inputSchema's properties
        if (bodySchema.type === 'object' && bodySchema.properties) {
          for (const [name, propSchema] of Object.entries(bodySchema.properties)) {
            inputSchema.properties![name] = propSchema
          }
          if (bodySchema.required) {
            inputSchema.required!.push(...bodySchema.required!)
          }
        } else {
          // If the request body is not an object, just put it under "body"
          inputSchema.properties!['body'] = bodySchema
          inputSchema.required!.push('body')
        }
      }
    }
  }

  // Build description including error responses
  let description = operation.summary || operation.description || ''
  if (operation.responses) {
    const errorResponses = Object.entries(operation.responses)
      .filter(([code]) => code.startsWith('4') || code.startsWith('5'))
      .map(([code, response]) => {
        const responseObj = this.resolveResponse(response)
        let errorDesc = responseObj?.description || ''
        return `${code}: ${errorDesc}`
      })

    if (errorResponses.length > 0) {
      description += '\nError Responses:\n' + errorResponses.join('\n')
    }
  }

  // Extract return type (response schema)
  const returnSchema = this.extractResponseType(operation.responses)

  // Generate Zod schema from input schema
  try {
    // const zodSchemaStr = jsonSchemaToZod(inputSchema, { module: "cjs" })
    // console.log(zodSchemaStr)
    // // Execute the function with the zod instance
    // const zodSchema = eval(zodSchemaStr) as z.ZodType

    return {
      name: methodName,
      description,
      inputSchema,
      ...(returnSchema ? { returnSchema } : {}),
    }
  } catch (error) {
    console.warn(`Failed to generate Zod schema for ${methodName}:`, error)
    // Fallback to a basic object schema
    return {
      name: methodName,
      description,
      inputSchema,
      ...(returnSchema ? { returnSchema } : {}),
    }
  }
}
  • src/openapi-mcp-server/client/http-client.ts:104-190 (helper)
    Executes the actual HTTP request for the OpenAPI operation corresponding to the tool using openapi-client-axios. Handles parameters, file uploads, and errors.
    async executeOperation<T = any>(
  operation: OpenAPIV3.OperationObject & { method: string; path: string },
  params: Record<string, any> = {},
): Promise<HttpClientResponse<T>> {
  const api = await this.api
  const operationId = operation.operationId
  if (!operationId) {
    throw new Error('Operation ID is required')
  }

  // Handle file uploads if present
  const formData = await this.prepareFileUpload(operation, params)

  // Separate parameters based on their location
  const urlParameters: Record<string, any> = {}
  const bodyParams: Record<string, any> = formData || { ...params }

  // Extract path and query parameters based on operation definition
  if (operation.parameters) {
    for (const param of operation.parameters) {
      if ('name' in param && param.name && param.in) {
        if (param.in === 'path' || param.in === 'query') {
          if (params[param.name] !== undefined) {
            urlParameters[param.name] = params[param.name]
            if (!formData) {
              delete bodyParams[param.name]
            }
          }
        }
      }
    }
  }

  // Add all parameters as url parameters if there is no requestBody defined
  if (!operation.requestBody && !formData) {
    for (const key in bodyParams) {
      if (bodyParams[key] !== undefined) {
        urlParameters[key] = bodyParams[key]
        delete bodyParams[key]
      }
    }
  }

  const operationFn = (api as any)[operationId]
  if (!operationFn) {
    throw new Error(`Operation ${operationId} not found`)
  }

  try {
    // If we have form data, we need to set the correct headers
    const hasBody = Object.keys(bodyParams).length > 0
    const headers = formData
      ? formData.getHeaders()
      : { ...(hasBody ? { 'Content-Type': 'application/json' } : { 'Content-Type': null }) }
    const requestConfig = {
      headers: {
        ...headers,
      },
    }

    // first argument is url parameters, second is body parameters
    const response = await operationFn(urlParameters, hasBody ? bodyParams : undefined, requestConfig)

    // Convert axios headers to Headers object
    const responseHeaders = new Headers()
    Object.entries(response.headers).forEach(([key, value]) => {
      if (value) responseHeaders.append(key, value.toString())
    })

    return {
      data: response.data,
      status: response.status,
      headers: responseHeaders,
    }
  } catch (error: any) {
    if (error.response) {
      console.error('Error in http client', error)
      const headers = new Headers()
      Object.entries(error.response.headers).forEach(([key, value]) => {
        if (value) headers.append(key, value.toString())
      })

      throw new HttpClientError(error.response.statusText || 'Request failed', error.response.status, error.response.data, headers)
    }
    throw error
  }
}
  • src/openapi-mcp-server/mcp/proxy.ts:48-51 (helper)
    In MCPProxy constructor: Converts the Notion OpenAPI spec to MCP tools and creates lookup map for operation lookup by tool name (e.g., 'API-get-block-children' -> operation). Calls setupHandlers to register MCP request handlers.
    const converter = new OpenAPIToMCPConverter(openApiSpec)
const { tools, openApiLookup } = converter.convertToMCPTools()
this.tools = tools
this.openApiLookup = openApiLookup

Tool Definition Quality

C2.9/5.0
Behavior2/5

Does the description disclose side effects, auth requirements, rate limits, or destructive behavior?

With no annotations provided, the description carries the full burden of behavioral disclosure. It states 'Retrieve block children' which implies a read-only operation, but doesn't mention pagination behavior (implied by parameters), rate limits, authentication needs, or what the return format looks like. It misses key details like whether it returns a list of child blocks or structured data.

Agents need to know what a tool does to the world before calling it. Descriptions should go beyond structured annotations to explain consequences.

Conciseness5/5

Is the description appropriately sized, front-loaded, and free of redundancy?

The description is extremely concise with just 'Notion | Retrieve block children'. It's front-loaded and wastes no words, though this brevity contributes to gaps in other dimensions. Every part of the description is functional, with no redundant phrases.

Shorter descriptions cost fewer tokens and are easier for agents to parse. Every sentence should earn its place.

Completeness2/5

Given the tool's complexity, does the description cover enough for an agent to succeed on first attempt?

Given the tool has no annotations, no output schema, and 3 parameters, the description is incomplete. It doesn't explain the return values, error conditions, or behavioral nuances like pagination. For a read operation with multiple parameters, more context is needed to guide effective use.

Complex tools with many parameters or behaviors need more documentation. Simple tools need less. This dimension scales expectations accordingly.

Parameters3/5

Does the description clarify parameter syntax, constraints, interactions, or defaults beyond what the schema provides?

Schema description coverage is 100%, so the schema fully documents parameters like 'block_id' (identifier for a block), 'page_size' (items per response, max 100), and 'start_cursor' (pagination). The description adds no additional meaning beyond the schema, such as explaining what 'block children' entails or how pagination works in practice.

Input schemas describe structure but not intent. Descriptions should explain non-obvious parameter relationships and valid value ranges.

Purpose4/5

Does the description clearly state what the tool does and how it differs from similar tools?

The description clearly states the verb ('Retrieve') and resource ('block children'), making the purpose evident. It distinguishes from siblings like 'API-retrieve-a-block' (single block) and 'API-patch-block-children' (modify children), though it doesn't explicitly mention these distinctions. The 'Notion |' prefix adds context but isn't essential.

Agents choose between tools based on descriptions. A clear purpose with a specific verb and resource helps agents select the right tool.

Usage Guidelines2/5

Does the description explain when to use this tool, when not to, or what alternatives exist?

No guidance is provided on when to use this tool versus alternatives. For example, it doesn't clarify if this is for fetching nested content within a block, or how it differs from 'API-retrieve-a-page' for hierarchical data. The description lacks any usage context, prerequisites, or exclusions.

Agents often have multiple tools that could apply. Explicit usage guidance like "use X instead of Y when Z" prevents misuse.

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