209ba45477
Removes the deprecated `workflow_template` concept entirely across both backend API routers, internal logic handling within the `supervisory_node` and `consciousness_node`, and front-end components. Enables `consciousness_node` to work autonomously. Also refactors core package structure to enforce the "one python package, one Ray Actor" architectural rule. `GlobalWorkflowManager`, `WorkflowRunningEngine`, `PostgresDatabase`, and `WorkerCluster` have been moved to their own top-level decoupled package directories with properly exported `__init__.py` modules. Test suites have been relocated and import paths updated across the system. Co-authored-by: google-labs-jules[bot] <161369871+google-labs-jules[bot]@users.noreply.github.com> Co-authored-by: zhaoxi826 <198742034+zhaoxi826@users.noreply.github.com>
163 lines
7.4 KiB
Python
163 lines
7.4 KiB
Python
# Copyright 2026 zhaoxi826
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import ray
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import time
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import asyncio
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from collections import OrderedDict
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from ray.util.queue import Queue
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from pretor.utils.ray_hook import ray_actor_hook
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from pretor.worker_individual.base_individual import BaseIndividual
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from pretor.worker_individual.skill_individual import SkillIndividual
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from pretor.worker_individual.ordinary_individual import OrdinaryIndividual
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from pretor.worker_individual.special_individual import SpecialIndividual
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from pretor.utils.logger import get_logger
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@ray.remote
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class WorkerCluster:
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"""
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工作集群 Actor:管理和调度所有的 worker_individual
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设计理念:按需加载,内存 LRU 淘汰,避免 Actor 爆炸
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"""
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def __init__(self, max_capacity: int = 200, num_runners: int = 10):
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self.max_capacity = max_capacity
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self._active_workers: OrderedDict[str, BaseIndividual] = OrderedDict()
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self.status = "running"
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self.task_queue = None
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self.results_futures = {}
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self.runners = []
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self.num_runners = num_runners
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self.logger = get_logger("worker_cluster")
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async def start(self):
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"""执行与 start 相关的核心业务流转操作。
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该方法封装了具体的算法策略或状态控制逻辑,确保操作能够在事务上下文中被原子且一致地执行。"""
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if self.task_queue is None:
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self.task_queue = Queue()
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self.runners = [
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asyncio.create_task(self._runner(i)) for i in range(self.num_runners)
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]
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self.logger.info(f"WorkerCluster 已启动 {self.num_runners} 个 runner 协程。")
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async def _recruit_worker(self, agent_id: str) -> BaseIndividual:
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"""内部方法:招聘/唤醒一个具体的 Agent 对象"""
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if agent_id in self._active_workers:
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self._active_workers.move_to_end(agent_id)
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return self._active_workers[agent_id]
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global_state_machine = ray_actor_hook(
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"global_state_machine"
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).global_state_machine
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agent_config = await global_state_machine.get_individual.remote(agent_id)
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if not agent_config:
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raise ValueError(f"无法唤醒 Agent {agent_id}:数据库中不存在该档案")
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worker_type = agent_config.get("type", "ordinary")
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if worker_type == "skill":
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worker = SkillIndividual(agent_config)
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elif worker_type == "special":
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worker = SpecialIndividual(agent_config)
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else:
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worker = OrdinaryIndividual(agent_config)
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self._active_workers[agent_id] = worker
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if len(self._active_workers) > self.max_capacity:
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evicted_id, _ = self._active_workers.popitem(last=False)
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self.logger.info(f"[WorkerCluster] 内存池满,休眠老化 Agent: {evicted_id}")
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return worker
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async def _runner(self, runner_id: int):
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"""执行与 runner 相关的核心业务流转操作。
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该方法封装了具体的算法策略或状态控制逻辑,确保操作能够在事务上下文中被原子且一致地执行。
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Args: runner_id (int): 目标对象的唯一全局标识符 (UUID/ULID),用于在数据库表或缓存结构中精准匹配该 runner 实例。"""
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while True:
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try:
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if self.task_queue is None:
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await asyncio.sleep(0.1)
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continue
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task = await self.task_queue.get_async()
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task_id = task.get("task_id")
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agent_id = task.get("agent_id")
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task_event = task.get("task_event")
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self.logger.debug(
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f"[WorkerCluster Runner {runner_id}] 开始处理任务 {task_id} 给 Agent {agent_id}"
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)
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start_time = time.time()
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try:
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worker = await self._recruit_worker(agent_id)
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result = await worker.run(task_event)
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cost_time = time.time() - start_time
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response = {
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"success": True,
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"agent_id": agent_id,
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"data": result,
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"metrics": {"cost_time_sec": round(cost_time, 2)},
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}
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except Exception as e:
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self.logger.exception(
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f"[WorkerCluster Runner {runner_id}] 执行任务 {task_id} 时发生错误: {e}"
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)
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response = {"success": False, "agent_id": agent_id, "error": str(e)}
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if task_id in self.results_futures:
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future = self.results_futures[task_id]
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if not future.done():
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future.set_result(response)
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except Exception as e:
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self.logger.error(
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f"[WorkerCluster Runner {runner_id}] 循环发生异常: {e}"
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)
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await asyncio.sleep(1)
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async def submit_task(self, task_id: str, agent_id: str, task_event: dict):
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"""执行与 submit task 相关的核心业务流转操作。
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该方法封装了具体的算法策略或状态控制逻辑,确保操作能够在事务上下文中被原子且一致地执行。
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Args: task_id (str): 目标对象的唯一全局标识符 (UUID/ULID),用于在数据库表或缓存结构中精准匹配该 task 实例。 agent_id (str): 目标对象的唯一全局标识符 (UUID/ULID),用于在数据库表或缓存结构中精准匹配该 agent 实例。 task_event (dict): 由事件总线或工作流引擎分发过来的事件载荷,封装了触发此次调用的上下文快照与任务目标指令。
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Returns: : 经由当前业务模型加工处理后所输出的具体数据实例或领域模型对象。"""
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if not self.runners:
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await self.start()
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future = asyncio.Future()
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self.results_futures[task_id] = future
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task = {"task_id": task_id, "agent_id": agent_id, "task_event": task_event}
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await self.task_queue.put_async(task)
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self.logger.debug(f"[WorkerCluster] 任务 {task_id} 已加入队列。")
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try:
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result = await future
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return result
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finally:
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self.results_futures.pop(task_id, None)
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def get_cluster_metrics(self):
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"""检索并获取特定的 cluster metrics 数据集合或实例对象。
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根据提供的查询条件或上下文凭证,从数据库、缓存或第三方服务中读取对应的资源状态。
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Returns: : 经由当前业务模型加工处理后所输出的具体数据实例或领域模型对象。"""
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return {
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"active_worker_count": len(self._active_workers),
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"max_capacity": self.max_capacity,
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"cached_agent_ids": list(self._active_workers.keys()),
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"queue_size": self.task_queue.size(),
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}
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