Uso de la memoria del agente con un servidor MCP
En este artículo, expondrá las herramientas de memoria del agente de Oracle como protocolo de contexto de modelo (MCP) para que los tiempos de ejecución del agente puedan acceder a la memoria del agente a través de una interfaz estándar.
Aprenderá a:
- construir un servidor MCP exponiendo herramientas de memoria y subprocesos;
- Conecte el mismo servidor desde LangGraph y WayFlow.
Consejo: para la configuración de paquetes, consulte Introducción a la memoria del agente. Si necesita una instancia local de Oracle AI Database para este ejemplo, consulte Run Oracle AI Database Locally. En este artículo se asume que ya tiene un pool, embebido y LLM de Oracle DB configurados.
Escribir el servidor MCP
Cree un servidor MCP que muestre las API de memoria de Oracle Agent como herramientas.
Este ejemplo mantiene la superficie de la herramienta intencionalmente pequeña:
get_or_create_thread, add_messages, get_messages, add_memory y search_memory.
El ejemplo devuelve cadenas JSON mediante json.dumps(...) para cada resultado de la herramienta. Esto mantiene el esquema de salida simple y funciona correctamente entre los clientes MCP.
Nota: Instale la biblioteca MCP por separado antes de ejecutar este ejemplo de servidor.
import json
import os
from typing import Any
from mcp.server.fastmcp import FastMCP
from pydantic import BaseModel
from oracleagentmemory.core.dbschemapolicy import SchemaPolicy
from oracleagentmemory.core.embedders.embedder import Embedder
from oracleagentmemory.core.llms.llm import Llm
from oracleagentmemory.core.oracleagentmemory import OracleAgentMemory
embedder = Embedder(
model="YOUR_EMBEDDING_MODEL",
api_base="YOUR_EMBEDDING_API_BASE",
api_key="YOUR_EMBEDDING_API_KEY",
)
llm = Llm(
model="YOUR_LLM_MODEL",
api_base="YOUR_LLM_API_BASE",
api_key="YOUR_LLM_API_KEY",
)
db_pool = ... #an oracledb connection or connection pool
class MessageT(BaseModel):
role: str
content: str
id: str | None = None
timestamp: str | None = None
metadata: dict[str, Any] | None = None
def create_server(
memory: OracleAgentMemory | None = None,
host: str | None = None,
port: int | None = None,
path: str | None = None,
) -> FastMCP:
"""Create a FastMCP server exposing Oracle Agent Memory tools."""
agent_memory = memory or OracleAgentMemory(
connection=db_pool,
embedder=embedder,
llm=llm,
schema_policy=SchemaPolicy.CREATE_IF_NECESSARY,
)
resolved_path = path or os.environ.get("MEMORY_MCP_PATH", "/mcp")
if not resolved_path.startswith("/"):
resolved_path = f"/{resolved_path}"
server = FastMCP(
name="Oracle Agent Memory MCP Server",
host=host or os.environ.get("MEMORY_MCP_HOST", "localhost"),
port=int(port if port is not None else os.environ.get("MEMORY_MCP_PORT", "8003")),
streamable_http_path=resolved_path,
)
@server.tool(
description=(
"Get an existing thread by thread_id, or create one from user_id and optional "
"agent_id."
)
)
def get_or_create_thread(
thread_id: str | None = None,
user_id: str | None = None,
agent_id: str | None = None,
) -> str:
create_kwargs: dict[str, str] = {}
if thread_id is not None:
try:
thread = agent_memory.get_thread(thread_id)
return json.dumps(
{
"thread_id": thread.thread_id,
"user_id": thread.user_id,
"agent_id": thread.agent_id,
}
)
except KeyError:
create_kwargs["thread_id"] = thread_id
if user_id is not None:
create_kwargs["user_id"] = user_id
if agent_id is not None:
create_kwargs["agent_id"] = agent_id
thread = agent_memory.create_thread(**create_kwargs)
return json.dumps(
{
"thread_id": thread.thread_id,
"user_id": thread.user_id,
"agent_id": thread.agent_id,
}
)
@server.tool(
description=(
"Add durable memory content, optionally scoped by user_id, agent_id, and "
"thread_id."
)
)
def add_memory(
content: str,
user_id: str | None = None,
agent_id: str | None = None,
thread_id: str | None = None,
) -> str:
add_kwargs: dict[str, str] = {}
if user_id is not None:
add_kwargs["user_id"] = user_id
if agent_id is not None:
add_kwargs["agent_id"] = agent_id
if thread_id is not None:
add_kwargs["thread_id"] = thread_id
return json.dumps({"memory_id": agent_memory.add_memory(content, **add_kwargs)})
@server.tool(
description="Add messages to an existing thread using messages and thread_id."
)
def add_messages(messages: list[MessageT], thread_id: str) -> str:
thread = agent_memory.get_thread(thread_id)
payload = [message.model_dump(exclude_none=True) for message in messages]
return json.dumps({"message_ids": thread.add_messages(payload)})
@server.tool(description="Get messages from an existing thread using thread_id.")
def get_messages(thread_id: str) -> str:
thread = agent_memory.get_thread(thread_id)
return json.dumps(
{
"messages": [
{
"id": getattr(message, "id", None),
"role": message.role,
"content": message.content,
"timestamp": message.timestamp,
"metadata": message.metadata,
}
for message in thread.get_messages()
]
}
)
@server.tool(
description=(
"Search Oracle Agent Memory for durable memory and thread content. "
"Pass user_id directly, or pass thread_id so the server can resolve the user scope."
)
)
def search_memory(
query: str,
user_id: str | None = None,
agent_id: str | None = None,
thread_id: str | None = None,
) -> str:
if user_id is not None:
resolved_user_id = user_id
resolved_agent_id = agent_id
elif thread_id is not None:
thread = agent_memory.get_thread(thread_id)
if thread.user_id is None:
raise ValueError(
f"Thread `{thread_id}` is not associated with a user_id, so "
"search_memory cannot build a valid OracleAgentMemory search scope."
)
resolved_user_id = thread.user_id
resolved_agent_id = agent_id if agent_id is not None else thread.agent_id
else:
raise ValueError("search_memory requires either `user_id` or `thread_id`.")
search_kwargs: dict[str, Any] = {"query": query, "user_id": resolved_user_id}
if resolved_agent_id is not None:
search_kwargs["agent_id"] = resolved_agent_id
search_kwargs["exact_agent_match"] = True
if thread_id is not None:
search_kwargs["thread_id"] = thread_id
search_kwargs["exact_thread_match"] = True
results = agent_memory.search(**search_kwargs)
return json.dumps(
{
"results": [
{
"id": result.id,
"content": result.content,
"record_type": result.record.record_type,
"user_id": result.record.user_id,
"agent_id": result.record.agent_id,
"thread_id": result.record.thread_id,
}
for result in results
]
}
)
return serverEjecución del servidor MCP
Por defecto, el servidor recibe en http://localhost:8003/mcp. Sustituya la dirección de enlace por MEMORY_MCP_HOST, MEMORY_MCP_PORT y MEMORY_MCP_PATH cuando sea necesario.
def main() -> None:
server = create_server()
server.run(transport="streamable-http")
if __name__ == "__main__":
main()Utilizar el servidor de LangGraph
LangGraph puede consumir herramientas MCP a través de langchain-mcp-adapters. El siguiente agente se conecta al servidor de memoria mediante streamable-http y permite que el modelo llame directamente a las herramientas de memoria del agente de Oracle.
Nota: Instale langchain-mcp-adapters para este ejemplo de cliente. Las herramientas MCP de LangGraph necesitan ejecutar el agente con métodos asíncronos como ainvoke().
Configurar el cliente LangGraph
import os
from datetime import timedelta
import anyio
from langchain.agents import create_agent
from langchain_core.messages import HumanMessage
from langchain_mcp_adapters.client import MultiServerMCPClient
from langchain_openai import ChatOpenAI
mcp_url = os.environ.get("MEMORY_MCP_URL", "http://localhost:8003/mcp")
langgraph_llm = ChatOpenAI(
model="gpt-4.1-mini",
api_key="YOUR_OPENAI_API_KEY",
)
async def build_langgraph_agent():
memory_tools = await MultiServerMCPClient(
{
"memory": {
"transport": "streamable_http",
"url": mcp_url,
"timeout": timedelta(seconds=30),
"sse_read_timeout": timedelta(seconds=30),
}
}
).get_tools()
return create_agent(
model=langgraph_llm,
tools=memory_tools,
system_prompt=(
"You are an assistant using Oracle Agent Memory through MCP. "
"Create threads before writing messages, use add_memory for durable facts, "
"and call search_memory when the user asks about prior context."
),
)Ejecución de un agente LangGraph en el servidor MCP
async def run_langgraph_agent() -> None:
agent = await build_langgraph_agent()
first_turn = await agent.ainvoke(
{
"messages": [
HumanMessage(
content=(
"Use the memory MCP tools to create thread `mcp_demo_thread` for user "
"`user_123`, add the durable memory `The user likes orange juice with "
"breakfast.`, and confirm when the memory is stored."
)
)
]
}
)
print(first_turn["messages"][-1].content)
second_turn = await agent.ainvoke(
{
"messages": [
HumanMessage(
content=(
"Search memory for `orange juice` in thread `mcp_demo_thread` and tell "
"me what Oracle Agent Memory returned."
)
)
]
}
)
print(second_turn["messages"][-1].content)Salida:
The durable memory has been stored successfully:
-Thread ID: `mcp_demo_thread`
-User ID: `user_123`
The search returned matching memory records for:
"The user likes orange juice with breakfast."Uso del servidor desde WayFlow
WayFlow puede consumir el mismo servidor MCP mediante MCPToolBox con un StreamableHTTPTransport. Consulte los documentos de MCPToolBox de WayFlow para obtener detalles de la API.
Nota: Instale wayflowcore para este ejemplo de cliente.
Configuración del cliente WayFlow
import os
from wayflowcore.agent import Agent
from wayflowcore.mcp import MCPToolBox, StreamableHTTPTransport, enable_mcp_without_auth
from wayflowcore.models import OpenAICompatibleModel
mcp_url = os.environ.get("MEMORY_MCP_URL", "http://localhost:8003/mcp")
wayflow_llm = OpenAICompatibleModel(
model_id="gpt-4.1-mini",
base_url="YOUR_OPENAI_API_BASE",
api_key="YOUR_OPENAI_API_KEY",
)
enable_mcp_without_auth()
memory_tools = MCPToolBox(client_transport=StreamableHTTPTransport(url=mcp_url))
agent = Agent(
llm=wayflow_llm,
agent_id="memory_mcp_agent",
custom_instruction=(
"You are an assistant using Oracle Agent Memory through MCP. "
"Create threads before writing messages, use add_memory for durable facts, "
"and call search_memory when the user asks about prior context."
),
tools=[memory_tools],
)Ejecución de un agente de WayFlow en el servidor MCP
first_session = agent.start_conversation()
first_session.append_user_message(
"Use the memory MCP tools to create thread `mcp_demo_thread` for user `user_123`, "
"add the durable memory `The user likes orange juice with breakfast.`, and confirm "
"when the memory is stored."
)
first_session.execute()
print(first_session.get_last_message().content)
second_session = agent.start_conversation()
second_session.append_user_message(
"Search memory for `orange juice` in thread `mcp_demo_thread` and tell me what "
"Oracle Agent Memory returned."
)
second_session.execute()
print(second_session.get_last_message().content)Salida:
The durable memory has been stored successfully:
-Thread ID: `mcp_demo_thread`
-User ID: `user_123`
The memory search returned matching records for:
"The user likes orange juice with breakfast."Notas de seguridad y despliegue
El servidor de ejemplo está abierto intencionadamente y es sólo local. Para uso de producción, agregue autenticación y seguridad de transporte, restrinja a qué usuarios o agentes puede acceder cada emisor de llamada y considere agregar puertas de confirmación o aprobación en torno a operaciones de escritura como add_memory o add_messages.
Para obtener más información, consulte Consideraciones de seguridad.
Conclusión
En este artículo, ha aprendido a exponer la memoria del agente de Oracle a través de MCP y a reutilizar la misma superficie de herramientas de LangGraph y WayFlow.
Consejo: puede agregar más herramientas de memoria solo si los flujos de trabajo del agente las necesitan; consulte Ejemplos de códigos de referencia rápidos. Para adaptar el servidor a su entorno de despliegue y a las restricciones operativas, consulte Run Oracle AI Database Locally.
Código Completo
Servidor MCP
#Copyright © 2026 Oracle and/or its affiliates.
#This software is under the Apache License 2.0
#(LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0) or Universal Permissive License
#(UPL) 1.0 (LICENSE-UPL or https://oss.oracle.com/licenses/upl), at your option.
#Oracle Agent Memory Code Example - Integration with MCP Server
#--------------------------------------------------------------
#How to use:
#Create a new Python virtual environment and install the latest oracleagentmemory version.
#You can now run the script
#1. As a Python file:
#```bash
#python integration_with_mcp_server.py
#```
#2. As a Notebook (in VSCode):
#When viewing the file,
#- press the keys Ctrl + Enter to run the selected cell
#- or Shift + Enter to run the selected cell and move to the cell below
##Build the MCP server
#%%
import json
import os
from typing import Any
from mcp.server.fastmcp import FastMCP
from pydantic import BaseModel
from oracleagentmemory.core.dbschemapolicy import SchemaPolicy
from oracleagentmemory.core.embedders.embedder import Embedder
from oracleagentmemory.core.llms.llm import Llm
from oracleagentmemory.core.oracleagentmemory import OracleAgentMemory
embedder = Embedder(
model="YOUR_EMBEDDING_MODEL",
api_base="YOUR_EMBEDDING_API_BASE",
api_key="YOUR_EMBEDDING_API_KEY",
)
llm = Llm(
model="YOUR_LLM_MODEL",
api_base="YOUR_LLM_API_BASE",
api_key="YOUR_LLM_API_KEY",
)
db_pool = ... #an oracledb connection or connection pool
class MessageT(BaseModel):
role: str
content: str
id: str | None = None
timestamp: str | None = None
metadata: dict[str, Any] | None = None
def create_server(
memory: OracleAgentMemory | None = None,
host: str | None = None,
port: int | None = None,
path: str | None = None,
) -> FastMCP:
"""Create a FastMCP server exposing Oracle Agent Memory tools."""
agent_memory = memory or OracleAgentMemory(
connection=db_pool,
embedder=embedder,
llm=llm,
schema_policy=SchemaPolicy.CREATE_IF_NECESSARY,
)
resolved_path = path or os.environ.get("MEMORY_MCP_PATH", "/mcp")
if not resolved_path.startswith("/"):
resolved_path = f"/{resolved_path}"
server = FastMCP(
name="Oracle Agent Memory MCP Server",
host=host or os.environ.get("MEMORY_MCP_HOST", "localhost"),
port=int(port if port is not None else os.environ.get("MEMORY_MCP_PORT", "8003")),
streamable_http_path=resolved_path,
)
@server.tool(
description=(
"Get an existing thread by thread_id, or create one from user_id and optional "
"agent_id."
)
)
def get_or_create_thread(
thread_id: str | None = None,
user_id: str | None = None,
agent_id: str | None = None,
) -> str:
create_kwargs: dict[str, str] = {}
if thread_id is not None:
try:
thread = agent_memory.get_thread(thread_id)
return json.dumps(
{
"thread_id": thread.thread_id,
"user_id": thread.user_id,
"agent_id": thread.agent_id,
}
)
except KeyError:
create_kwargs["thread_id"] = thread_id
if user_id is not None:
create_kwargs["user_id"] = user_id
if agent_id is not None:
create_kwargs["agent_id"] = agent_id
thread = agent_memory.create_thread(**create_kwargs)
return json.dumps(
{
"thread_id": thread.thread_id,
"user_id": thread.user_id,
"agent_id": thread.agent_id,
}
)
@server.tool(
description=(
"Add durable memory content, optionally scoped by user_id, agent_id, and "
"thread_id."
)
)
def add_memory(
content: str,
user_id: str | None = None,
agent_id: str | None = None,
thread_id: str | None = None,
) -> str:
add_kwargs: dict[str, str] = {}
if user_id is not None:
add_kwargs["user_id"] = user_id
if agent_id is not None:
add_kwargs["agent_id"] = agent_id
if thread_id is not None:
add_kwargs["thread_id"] = thread_id
return json.dumps({"memory_id": agent_memory.add_memory(content, **add_kwargs)})
@server.tool(
description="Add messages to an existing thread using messages and thread_id."
)
def add_messages(messages: list[MessageT], thread_id: str) -> str:
thread = agent_memory.get_thread(thread_id)
payload = [message.model_dump(exclude_none=True) for message in messages]
return json.dumps({"message_ids": thread.add_messages(payload)})
@server.tool(description="Get messages from an existing thread using thread_id.")
def get_messages(thread_id: str) -> str:
thread = agent_memory.get_thread(thread_id)
return json.dumps(
{
"messages": [
{
"id": getattr(message, "id", None),
"role": message.role,
"content": message.content,
"timestamp": message.timestamp,
"metadata": message.metadata,
}
for message in thread.get_messages()
]
}
)
@server.tool(
description=(
"Search Oracle Agent Memory for durable memory and thread content. "
"Pass user_id directly, or pass thread_id so the server can resolve the user scope."
)
)
def search_memory(
query: str,
user_id: str | None = None,
agent_id: str | None = None,
thread_id: str | None = None,
) -> str:
if user_id is not None:
resolved_user_id = user_id
resolved_agent_id = agent_id
elif thread_id is not None:
thread = agent_memory.get_thread(thread_id)
if thread.user_id is None:
raise ValueError(
f"Thread `{thread_id}` is not associated with a user_id, so "
"search_memory cannot build a valid OracleAgentMemory search scope."
)
resolved_user_id = thread.user_id
resolved_agent_id = agent_id if agent_id is not None else thread.agent_id
else:
raise ValueError("search_memory requires either `user_id` or `thread_id`.")
search_kwargs: dict[str, Any] = {"query": query, "user_id": resolved_user_id}
if resolved_agent_id is not None:
search_kwargs["agent_id"] = resolved_agent_id
search_kwargs["exact_agent_match"] = True
if thread_id is not None:
search_kwargs["thread_id"] = thread_id
search_kwargs["exact_thread_match"] = True
results = agent_memory.search(**search_kwargs)
return json.dumps(
{
"results": [
{
"id": result.id,
"content": result.content,
"record_type": result.record.record_type,
"user_id": result.record.user_id,
"agent_id": result.record.agent_id,
"thread_id": result.record.thread_id,
}
for result in results
]
}
)
return server
##Run the MCP server
#%%
def main() -> None:
server = create_server()
server.run(transport="streamable-http")
if __name__ == "__main__":
main()Cliente LangGraph
#Copyright © 2026 Oracle and/or its affiliates.
#This software is under the Apache License 2.0
#(LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0) or Universal Permissive License
#(UPL) 1.0 (LICENSE-UPL or https://oss.oracle.com/licenses/upl), at your option.
#Oracle Agent Memory Code Example - LangGraph MCP Client
#-------------------------------------------------------
#How to use:
#Create a new Python virtual environment and install the latest oracleagentmemory version.
#You can now run the script
#1. As a Python file:
#```bash
#python integration_with_mcp_langgraph.py
#```
#2. As a Notebook (in VSCode):
#When viewing the file,
#- press the keys Ctrl + Enter to run the selected cell
#- or Shift + Enter to run the selected cell and move to the cell below
##Connect LangGraph to the MCP server
#%%
import os
from datetime import timedelta
import anyio
from langchain.agents import create_agent
from langchain_core.messages import HumanMessage
from langchain_mcp_adapters.client import MultiServerMCPClient
from langchain_openai import ChatOpenAI
mcp_url = os.environ.get("MEMORY_MCP_URL", "http://localhost:8003/mcp")
langgraph_llm = ChatOpenAI(
model="gpt-4.1-mini",
api_key="YOUR_OPENAI_API_KEY",
)
async def build_langgraph_agent():
memory_tools = await MultiServerMCPClient(
{
"memory": {
"transport": "streamable_http",
"url": mcp_url,
"timeout": timedelta(seconds=30),
"sse_read_timeout": timedelta(seconds=30),
}
}
).get_tools()
return create_agent(
model=langgraph_llm,
tools=memory_tools,
system_prompt=(
"You are an assistant using Oracle Agent Memory through MCP. "
"Create threads before writing messages, use add_memory for durable facts, "
"and call search_memory when the user asks about prior context."
),
)
##Use the MCP server from LangGraph
#%%
async def run_langgraph_agent() -> None:
agent = await build_langgraph_agent()
first_turn = await agent.ainvoke(
{
"messages": [
HumanMessage(
content=(
"Use the memory MCP tools to create thread `mcp_demo_thread` for user "
"`user_123`, add the durable memory `The user likes orange juice with "
"breakfast.`, and confirm when the memory is stored."
)
)
]
}
)
print(first_turn["messages"][-1].content)
#The durable memory has been stored successfully:
#- Thread ID: `mcp_demo_thread`
#- User ID: `user_123`
second_turn = await agent.ainvoke(
{
"messages": [
HumanMessage(
content=(
"Search memory for `orange juice` in thread `mcp_demo_thread` and tell "
"me what Oracle Agent Memory returned."
)
)
]
}
)
print(second_turn["messages"][-1].content)
#The search returned matching memory records for:
#"The user likes orange juice with breakfast."
anyio.run(run_langgraph_agent)Cliente de WayFlow
#Copyright © 2026 Oracle and/or its affiliates.
#This software is under the Apache License 2.0
#(LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0) or Universal Permissive License
#(UPL) 1.0 (LICENSE-UPL or https://oss.oracle.com/licenses/upl), at your option.
#Oracle Agent Memory Code Example - WayFlow MCP Client
#-----------------------------------------------------
#How to use:
#Create a new Python virtual environment and install the latest oracleagentmemory version.
#You can now run the script
#1. As a Python file:
#```bash
#python integration_with_mcp_wayflow.py
#```
#2. As a Notebook (in VSCode):
#When viewing the file,
#- press the keys Ctrl + Enter to run the selected cell
#- or Shift + Enter to run the selected cell and move to the cell below
##Connect WayFlow to the MCP server
#%%
import os
from wayflowcore.agent import Agent
from wayflowcore.mcp import MCPToolBox, StreamableHTTPTransport, enable_mcp_without_auth
from wayflowcore.models import OpenAICompatibleModel
mcp_url = os.environ.get("MEMORY_MCP_URL", "http://localhost:8003/mcp")
wayflow_llm = OpenAICompatibleModel(
model_id="gpt-4.1-mini",
base_url="YOUR_OPENAI_API_BASE",
api_key="YOUR_OPENAI_API_KEY",
)
enable_mcp_without_auth()
memory_tools = MCPToolBox(client_transport=StreamableHTTPTransport(url=mcp_url))
agent = Agent(
llm=wayflow_llm,
agent_id="memory_mcp_agent",
custom_instruction=(
"You are an assistant using Oracle Agent Memory through MCP. "
"Create threads before writing messages, use add_memory for durable facts, "
"and call search_memory when the user asks about prior context."
),
tools=[memory_tools],
)
##Use the MCP server from WayFlow
#%%
first_session = agent.start_conversation()
first_session.append_user_message(
"Use the memory MCP tools to create thread `mcp_demo_thread` for user `user_123`, "
"add the durable memory `The user likes orange juice with breakfast.`, and confirm "
"when the memory is stored."
)
first_session.execute()
print(first_session.get_last_message().content)
#The durable memory has been stored successfully:
#- Thread ID: `mcp_demo_thread`
#- User ID: `user_123`
second_session = agent.start_conversation()
second_session.append_user_message(
"Search memory for `orange juice` in thread `mcp_demo_thread` and tell me what "
"Oracle Agent Memory returned."
)
second_session.execute()
print(second_session.get_last_message().content)
#The memory search returned matching records for:
#"The user likes orange juice with breakfast."