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import logging
from typing import List, Dict, Any
import json
import os
from contextlib import AsyncExitStack
import traceback
import requests
from mcp.types import TextContent, ImageContent
from aworld.core.common import ActionResult
from aworld.logs.util import logger
from aworld.mcp_client.server import MCPServer, MCPServerSse, MCPServerStdio
from aworld.tools import get_function_tools
from aworld.utils.common import find_file
MCP_SERVERS_CONFIG = {}
def get_function_tool(sever_name: str) -> List[Dict[str, Any]]:
openai_tools = []
try:
if not sever_name:
return []
tool_server = get_function_tools(sever_name)
if not tool_server:
return []
tools = tool_server.list_tools()
if not tools:
return []
for tool in tools:
required = []
properties = {}
if tool.inputSchema and tool.inputSchema.get("properties"):
required = tool.inputSchema.get("required", [])
_properties = tool.inputSchema["properties"]
for param_name, param_info in _properties.items():
param_type = (
param_info.get("type")
if param_info.get("type") != "str"
and param_info.get("type") is not None
else "string"
)
param_desc = param_info.get("description", "")
if param_type == "array":
# Handle array type parameters
items_info = param_info.get("items", {})
item_type = items_info.get("type", "string")
# Process nested array type parameters
if item_type == "array":
nested_items = items_info.get("items", {})
nested_type = nested_items.get("type", "string")
# If the nested type is an object
if nested_type == "object":
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {
"type": item_type,
"items": {
"type": nested_type,
"properties": nested_items.get(
"properties", {}
),
"required": nested_items.get(
"required", []
),
},
},
}
else:
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {
"type": item_type,
"items": {"type": nested_type},
},
}
# Process object type cases
elif item_type == "object":
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {
"type": item_type,
"properties": items_info.get("properties", {}),
"required": items_info.get("required", []),
},
}
# Process basic type cases
else:
if item_type == "str":
item_type = "string"
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {"type": item_type},
}
else:
# Handle non-array type parameters
properties[param_name] = {
"description": param_desc,
"type": param_type,
}
openai_function_schema = {
"name": f"mcp__{sever_name}__{tool.name}",
"description": tool.description,
"parameters": {
"type": "object",
"properties": properties,
"required": required,
},
}
openai_tools.append(
{
"type": "function",
"function": openai_function_schema,
}
)
logging.info(
f"✅ function_tool_server #({sever_name}) connected success,tools: {len(tools)}"
)
except Exception as e:
logging.warning(
f"server_name-get_function_tool:{sever_name} translate failed: {e}"
)
return []
finally:
return openai_tools
async def run(mcp_servers: list[MCPServer]) -> List[Dict[str, Any]]:
openai_tools = []
for i, server in enumerate(mcp_servers):
try:
tools = await server.list_tools()
for tool in tools:
required = []
properties = {}
if tool.inputSchema and tool.inputSchema.get("properties"):
required = tool.inputSchema.get("required", [])
_properties = tool.inputSchema["properties"]
for param_name, param_info in _properties.items():
param_type = (
param_info.get("type")
if param_info.get("type") != "str"
and param_info.get("type") is not None
else "string"
)
param_desc = param_info.get("description", "")
if param_type == "array":
# Handle array type parameters
items_info = param_info.get("items", {})
item_type = items_info.get("type", "string")
# Process nested array type parameters
if item_type == "array":
nested_items = items_info.get("items", {})
nested_type = nested_items.get("type", "string")
# If the nested type is an object
if nested_type == "object":
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {
"type": item_type,
"items": {
"type": nested_type,
"properties": nested_items.get(
"properties", {}
),
"required": nested_items.get(
"required", []
),
},
},
}
else:
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {
"type": item_type,
"items": {"type": nested_type},
},
}
# Process object type cases
elif item_type == "object":
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {
"type": item_type,
"properties": items_info.get("properties", {}),
"required": items_info.get("required", []),
},
}
# Process basic type cases
else:
if item_type == "str":
item_type = "string"
properties[param_name] = {
"description": param_desc,
"type": param_type,
"items": {"type": item_type},
}
else:
# Handle non-array type parameters
properties[param_name] = {
"description": param_desc,
"type": param_type,
}
openai_function_schema = {
"name": f"{server.name}__{tool.name}",
"description": tool.description,
"parameters": {
"type": "object",
"properties": properties,
"required": required,
},
}
openai_tools.append(
{
"type": "function",
"function": openai_function_schema,
}
)
logging.info(
f"✅ server #{i + 1} ({server.name}) connected success,tools: {len(tools)}"
)
except Exception as e:
logging.error(f"❌ server #{i + 1} ({server.name}) connect fail: {e}")
return []
return openai_tools
async def mcp_tool_desc_transform(
tools: List[str] = None, mcp_config: Dict[str, Any] = None
) -> List[Dict[str, Any]]:
"""Default implement transform framework standard protocol to openai protocol of tool description."""
config = {}
global MCP_SERVERS_CONFIG
def _replace_env_variables(config):
if isinstance(config, dict):
for key, value in config.items():
if (
isinstance(value, str)
and value.startswith("${")
and value.endswith("}")
):
env_var_name = value[2:-1]
config[key] = os.getenv(env_var_name, value)
logging.info(f"Replaced {value} with {config[key]}")
elif isinstance(value, dict) or isinstance(value, list):
_replace_env_variables(value)
elif isinstance(config, list):
for index, item in enumerate(config):
if (
isinstance(item, str)
and item.startswith("${")
and item.endswith("}")
):
env_var_name = item[2:-1]
config[index] = os.getenv(env_var_name, item)
logging.info(f"Replaced {item} with {config[index]}")
elif isinstance(item, dict) or isinstance(item, list):
_replace_env_variables(item)
if mcp_config:
try:
config = mcp_config
MCP_SERVERS_CONFIG = config
except Exception as e:
logging.error(f"mcp_config error: {e}")
return []
else:
# Priority given to the running path.
config_path = find_file(filename="mcp.json")
if not os.path.exists(config_path):
current_dir = os.path.dirname(os.path.abspath(__file__))
config_path = os.path.normpath(
os.path.join(current_dir, "../config/mcp.json")
)
logger.info(f"mcp conf path: {config_path}")
if not os.path.exists(config_path):
logging.info(f"mcp config is not exist: {config_path}")
return []
try:
with open(config_path, "r") as f:
config = json.load(f)
except Exception as e:
logging.info(f"load config fail: {e}")
return []
_replace_env_variables(config)
MCP_SERVERS_CONFIG = config
mcp_servers_config = config.get("mcpServers", {})
server_configs = []
for server_name, server_config in mcp_servers_config.items():
# Skip disabled servers
if server_config.get("disabled", False):
continue
if tools is None or server_name in tools:
# Handle SSE server
if "url" in server_config:
server_configs.append(
{
"name": "mcp__" + server_name,
"type": "sse",
"params": {"url": server_config["url"]},
}
)
# Handle stdio server
elif "command" in server_config:
server_configs.append(
{
"name": "mcp__" + server_name,
"type": "stdio",
"params": {
"command": server_config["command"],
"args": server_config.get("args", []),
"env": server_config.get("env", {}),
"cwd": server_config.get("cwd"),
"encoding": server_config.get("encoding", "utf-8"),
"encoding_error_handler": server_config.get(
"encoding_error_handler", "strict"
),
},
}
)
if not server_configs:
return []
async with AsyncExitStack() as stack:
servers = []
for server_config in server_configs:
try:
if server_config["type"] == "sse":
server = MCPServerSse(
name=server_config["name"], params=server_config["params"]
)
elif server_config["type"] == "stdio":
from aworld.mcp_client.server import MCPServerStdio
server = MCPServerStdio(
name=server_config["name"], params=server_config["params"]
)
else:
logging.warning(
f"Unsupported MCP server type: {server_config['type']}"
)
continue
server = await stack.enter_async_context(server)
servers.append(server)
except BaseException as err:
# single
logging.error(
f"Failed to get tools for MCP server '{server_config['name']}'.\n"
f"Error: {err}\n"
f"Traceback:\n{traceback.format_exc()}"
)
openai_tools = await run(servers)
return openai_tools
async def sandbox_mcp_tool_desc_transform(
tools: List[str] = None, mcp_config: Dict[str, Any] = None
) -> List[Dict[str, Any]]:
# todo sandbox mcp_config get from registry
if not mcp_config:
return None
config = mcp_config
mcp_servers_config = config.get("mcpServers", {})
server_configs = []
openai_tools = []
mcp_openai_tools = []
for server_name, server_config in mcp_servers_config.items():
# Skip disabled servers
if server_config.get("disabled", False):
continue
if tools is None or server_name in tools:
# Handle SSE server
if "function_tool" == server_config.get("type", ""):
try:
tmp_function_tool = get_function_tool(server_name)
openai_tools.extend(tmp_function_tool)
except Exception as e:
logging.warning(f"server_name:{server_name} translate failed: {e}")
elif "api" == server_config.get("type", ""):
api_result = requests.get(server_config["url"] + "/list_tools")
try:
if not api_result or not api_result.text:
continue
# return None
data = json.loads(api_result.text)
if not data or not data.get("tools"):
continue
for item in data.get("tools"):
tmp_function = {
"type": "function",
"function": {
"name": "mcp__" + server_name + "__" + item["name"],
"description": item["description"],
"parameters": {
**item["parameters"],
"properties": {
k: v
for k, v in item["parameters"]
.get("properties", {})
.items()
if "default" not in v
},
},
},
}
openai_tools.append(tmp_function)
except Exception as e:
logging.warning(f"server_name:{server_name} translate failed: {e}")
elif "sse" == server_config.get("type", ""):
server_configs.append(
{
"name": "mcp__" + server_name,
"type": "sse",
"params": {
"url": server_config["url"],
"headers": server_config.get("headers"),
},
}
)
# Handle stdio server
else:
# elif "stdio" == server_config.get("type", ""):
server_configs.append(
{
"name": "mcp__" + server_name,
"type": "stdio",
"params": {
"command": server_config["command"],
"args": server_config.get("args", []),
"env": server_config.get("env", {}),
"cwd": server_config.get("cwd"),
"encoding": server_config.get("encoding", "utf-8"),
"encoding_error_handler": server_config.get(
"encoding_error_handler", "strict"
),
},
}
)
if not server_configs:
return openai_tools
async with AsyncExitStack() as stack:
servers = []
for server_config in server_configs:
try:
if server_config["type"] == "sse":
server = MCPServerSse(
name=server_config["name"], params=server_config["params"]
)
elif server_config["type"] == "stdio":
server = MCPServerStdio(
name=server_config["name"], params=server_config["params"]
)
else:
logging.warning(
f"Unsupported MCP server type: {server_config['type']}"
)
continue
server = await stack.enter_async_context(server)
servers.append(server)
except BaseException as err:
# single
logging.error(
f"Failed to get tools for MCP server '{server_config['name']}'.\n"
f"Error: {err}\n"
)
mcp_openai_tools = await run(servers)
if mcp_openai_tools:
openai_tools.extend(mcp_openai_tools)
return openai_tools
async def call_function_tool(
server_name: str,
tool_name: str,
parameter: Dict[str, Any] = None,
mcp_config: Dict[str, Any] = None,
) -> ActionResult:
"""Specifically handle API type server calls
Args:
server_name: Server name
tool_name: Tool name
parameter: Parameters
mcp_config: MCP configuration
Returns:
ActionResult: Call result
"""
action_result = ActionResult(
tool_name=server_name, action_name=tool_name, content="", keep=True
)
try:
tool_server = get_function_tools(server_name)
if not tool_server:
return action_result
call_result_raw = tool_server.call_tool(tool_name, parameter)
if call_result_raw and call_result_raw.content:
if isinstance(call_result_raw.content[0], TextContent):
action_result = ActionResult(
tool_name=server_name,
action_name=tool_name,
content=call_result_raw.content[0].text,
keep=True,
metadata=call_result_raw.content[0].model_extra.get("metadata", {}),
)
elif isinstance(call_result_raw.content[0], ImageContent):
action_result = ActionResult(
tool_name=server_name,
action_name=tool_name,
content=f"data:image/jpeg;base64,{call_result_raw.content[0].data}",
keep=True,
metadata=call_result_raw.content[0].model_extra.get("metadata", {}),
)
except Exception as e:
logging.warning(f"call_function_tool ({server_name})({tool_name}) failed: {e}")
action_result = ActionResult(
tool_name=server_name, action_name=tool_name, content="", keep=True
)
return action_result
async def call_api(
server_name: str,
tool_name: str,
parameter: Dict[str, Any] = None,
mcp_config: Dict[str, Any] = None,
) -> ActionResult:
"""Specifically handle API type server calls
Args:
server_name: Server name
tool_name: Tool name
parameter: Parameters
mcp_config: MCP configuration
Returns:
ActionResult: Call result
"""
action_result = ActionResult(
tool_name=server_name, action_name=tool_name, content="", keep=True
)
if not mcp_config or mcp_config.get("mcpServers") is None:
return action_result
mcp_servers = mcp_config.get("mcpServers")
if not mcp_servers.get(server_name):
return action_result
server_config = mcp_servers.get(server_name)
if "api" != server_config.get("type", ""):
logging.warning(
f"Server {server_name} is not API type, should use call_tool instead"
)
return action_result
try:
headers = {"Content-Type": "application/json"}
response = requests.post(
url=server_config["url"] + "/" + tool_name, headers=headers, json=parameter
)
action_result = ActionResult(
tool_name=server_name,
action_name=tool_name,
content=response.text,
keep=True,
)
except Exception as e:
logging.warning(f"call_api ({server_name})({tool_name}) failed: {e}")
action_result = ActionResult(
tool_name=server_name,
action_name=tool_name,
content=f"Error calling API: {str(e)}",
keep=True,
)
return action_result
async def get_server_instance(
server_name: str, mcp_config: Dict[str, Any] = None
) -> Any:
"""Get server instance, create a new one if it doesn't exist
Args:
server_name: Server name
mcp_config: MCP configuration
Returns:
Server instance or None (if creation fails)
"""
if not mcp_config or mcp_config.get("mcpServers") is None:
return None
mcp_servers = mcp_config.get("mcpServers")
if not mcp_servers.get(server_name):
return None
server_config = mcp_servers.get(server_name)
try:
# API type servers use special handling, no need for persistent connections
# Note: We've already handled API type in McpServers.call_tool method
# Here we don't return None, but let the caller handle it
if "api" == server_config.get("type", ""):
logging.info(f"API server {server_name} doesn't need persistent connection")
return None
elif "sse" == server_config.get("type", ""):
server = MCPServerSse(
name=server_name,
params={
"url": server_config["url"],
"headers": server_config.get("headers"),
"timeout": server_config.get("timeout", 5.0),
"sse_read_timeout": server_config.get("sse_read_timeout", 300.0),
},
)
await server.connect()
logging.info(f"Successfully connected to SSE server: {server_name}")
return server
else: # stdio type
params = {
"command": server_config["command"],
"args": server_config.get("args", []),
"env": server_config.get("env", {}),
"cwd": server_config.get("cwd"),
"encoding": server_config.get("encoding", "utf-8"),
"encoding_error_handler": server_config.get(
"encoding_error_handler", "strict"
),
}
server = MCPServerStdio(name=server_name, params=params)
await server.connect()
logging.info(f"Successfully connected to stdio server: {server_name}")
return server
except Exception as e:
logging.warning(f"Failed to create server instance for {server_name}: {e}")
return None
async def cleanup_server(server):
"""Clean up server connection
Args:
server: Server instance
"""
try:
if hasattr(server, "cleanup"):
await server.cleanup()
elif hasattr(server, "close"):
await server.close()
logging.info(
f"Successfully cleaned up server: {getattr(server, 'name', 'unknown')}"
)
except Exception as e:
logging.warning(f"Failed to cleanup server: {e}")
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