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import json
import os
import signal
import socket
import subprocess
import sys
import threading
import time
from http.server import BaseHTTPRequestHandler, HTTPServer
from pathlib import Path
import httpx
PROJECT_ROOT = Path(__file__).resolve().parent
TASKS = [
"refund_triage_easy",
"cross_function_brief_medium",
"executive_escalation_hard",
]
def print_check(name: str, passed: bool, detail: str = "") -> None:
status = "PASS" if passed else "FAIL"
suffix = f" - {detail}" if detail else ""
print(f"{status}: {name}{suffix}")
def find_free_port() -> int:
with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as sock:
sock.bind(("127.0.0.1", 0))
sock.listen(1)
return int(sock.getsockname()[1])
def wait_for_server(base_url: str, timeout: float = 20.0) -> bool:
deadline = time.time() + timeout
with httpx.Client(timeout=2.0) as client:
while time.time() < deadline:
try:
response = client.get(f"{base_url}/health")
if response.status_code == 200:
return True
except Exception:
time.sleep(0.5)
return False
def greedy_action(observation: dict) -> dict:
query_terms = set(observation["query"].lower().split())
selected = set(observation.get("selected_chunks", []))
available = [chunk for chunk in observation["available_chunks"] if chunk["chunk_id"] not in selected]
remaining_budget = observation["token_budget"] - observation["total_tokens_used"]
def overlap(chunk: dict) -> tuple[float, int, str]:
keyword_terms = set(" ".join(chunk["keywords"]).lower().split())
union = query_terms | keyword_terms
score = (len(query_terms & keyword_terms) / len(union)) if union else 0.0
return (-score, chunk["tokens"], chunk["chunk_id"])
if selected and (
observation["step_number"] >= 3
or observation["total_tokens_used"] >= int(observation["token_budget"] * 0.7)
):
if not observation.get("plan_draft"):
return {"action_type": "set_resolution_plan", "plan": "Verify evidence, protect customers, and publish only grounded actions."}
return {"action_type": "submit_report", "answer": "A concise grounded incident operations brief using the prioritized artifacts."}
if selected:
heavy = sorted(
[chunk for chunk in available + observation["available_chunks"] if chunk["chunk_id"] in selected],
key=lambda chunk: (-chunk["tokens"], chunk["chunk_id"]),
)
if heavy and heavy[0]["tokens"] > max(120, observation["token_budget"] // 3):
return {
"action_type": "summarize_artifact",
"artifact_id": heavy[0]["chunk_id"],
"compression_ratio": 0.5,
}
for chunk in sorted(available, key=overlap):
return {"action_type": "inspect_artifact", "artifact_id": chunk["chunk_id"]}
return {"action_type": "submit_report", "answer": "A concise grounded incident operations brief using the prioritized artifacts."}
def planner_action(client: httpx.Client, base_url: str, fallback_observation: dict) -> dict:
try:
response = client.post(f"{base_url}/optimize-step")
if response.status_code == 200:
return response.json()
except Exception:
pass
return greedy_action(fallback_observation)
def run_task(client: httpx.Client, base_url: str, task_name: str) -> tuple[bool, float]:
reset = client.post(f"{base_url}/reset", json={"task_name": task_name})
if reset.status_code != 200:
print_check(f"reset {task_name}", False, reset.text)
return False, 0.0
observation = reset.json()["observation"]
done = False
final_score = 0.0
while not done:
action = planner_action(client, base_url, observation)
step = client.post(f"{base_url}/step", json=action)
if step.status_code != 200:
print_check(f"step {task_name}", False, step.text)
return False, 0.0
body = step.json()
observation = body["observation"]
done = body["done"]
final_score = float(body["reward"])
in_range = 0.0 <= final_score <= 1.0
print_check(f"task {task_name} score range", in_range, f"score={final_score:.4f}")
return in_range, final_score
def run_inference_script(base_url: str) -> bool:
proxy_port = find_free_port()
requests_seen: list[dict[str, str | None]] = []
class ProxyHandler(BaseHTTPRequestHandler):
def do_POST(self):
length = int(self.headers.get("Content-Length", "0"))
body = self.rfile.read(length).decode("utf-8")
requests_seen.append(
{
"path": self.path,
"authorization": self.headers.get("Authorization"),
"body": body,
}
)
payload = {
"id": "chatcmpl-validate",
"object": "chat.completion",
"created": int(time.time()),
"model": "validator-proxy",
"choices": [
{
"index": 0,
"message": {
"role": "assistant",
"content": json.dumps(
{
"action_type": "submit_report",
"answer": "Validated via proxy [support_003]",
}
),
},
"finish_reason": "stop",
}
],
}
encoded = json.dumps(payload).encode("utf-8")
self.send_response(200)
self.send_header("Content-Type", "application/json")
self.send_header("Content-Length", str(len(encoded)))
self.end_headers()
self.wfile.write(encoded)
def log_message(self, format: str, *args):
return
proxy_server = HTTPServer(("127.0.0.1", proxy_port), ProxyHandler)
proxy_thread = threading.Thread(target=proxy_server.serve_forever, daemon=True)
proxy_thread.start()
try:
env = os.environ.copy()
env["RAG_ENV_URL"] = base_url
env.pop("ALLOW_BASELINE_FALLBACK", None)
env["API_BASE_URL"] = f"http://127.0.0.1:{proxy_port}/v1"
env["API_KEY"] = "offline-validation-token"
env["HF_TOKEN"] = "legacy-should-not-win"
process = subprocess.run(
[sys.executable, "inference.py"],
cwd=PROJECT_ROOT,
capture_output=True,
text=True,
timeout=120,
env=env,
)
stdout = process.stdout or ""
has_start = "[START]" in stdout
has_end = "[END]" in stdout
end_has_score = " score=" in stdout
proxy_called = any(request["path"] == "/v1/chat/completions" for request in requests_seen)
auth_ok = any(request["authorization"] == "Bearer offline-validation-token" for request in requests_seen)
return process.returncode == 0 and has_start and has_end and end_has_score and proxy_called and auth_ok
finally:
proxy_server.shutdown()
proxy_server.server_close()
def main() -> int:
port = find_free_port()
base_url = f"http://127.0.0.1:{port}"
command = [sys.executable, "-m", "uvicorn", "app:app", "--host", "127.0.0.1", "--port", str(port)]
process = subprocess.Popen(command, cwd=PROJECT_ROOT)
try:
if not wait_for_server(base_url):
print_check("server startup", False, "Timed out waiting for /health")
return 1
print_check("server startup", True)
all_passed = True
with httpx.Client(timeout=10.0) as client:
health = client.get(f"{base_url}/health")
health_ok = health.status_code == 200 and health.json().get("status") == "ok"
print_check("GET /health", health_ok)
all_passed &= health_ok
reset = client.post(f"{base_url}/reset", json={"task_name": "refund_triage_easy"})
reset_ok = reset.status_code == 200 and "observation" in reset.json()
print_check("POST /reset", reset_ok)
all_passed &= reset_ok
initial_observation = reset.json().get("observation", {})
first_chunk_id = None
for chunk in initial_observation.get("available_chunks", []):
if chunk.get("chunk_id"):
first_chunk_id = chunk["chunk_id"]
break
step_payload = {"action_type": "inspect_artifact", "artifact_id": first_chunk_id} if first_chunk_id else {
"action_type": "submit_report",
"answer": "No chunk available for validation.",
}
step = client.post(f"{base_url}/step", json=step_payload)
step_ok = step.status_code == 200 and isinstance(step.json().get("reward"), float)
print_check("POST /step", step_ok)
all_passed &= step_ok
state = client.get(f"{base_url}/state")
state_ok = state.status_code == 200 and "selected_chunks" in state.json()
print_check("GET /state", state_ok)
all_passed &= state_ok
optimize_prompt = client.post(
f"{base_url}/optimize-prompt",
json={
"prompt": "Draft a customer-safe admin compromise update with rollback safeguards and cite evidence.",
"corpus_family": "enterprise_v2",
"compression_mode": "grounded",
},
)
optimize_body = optimize_prompt.json() if optimize_prompt.status_code == 200 else {}
optimize_ok = (
optimize_prompt.status_code == 200
and "optimized_prompt" in optimize_body
and "context_tuning" in optimize_body
and "grounding" in optimize_body
and optimize_body.get("optimization_mode") == "grounded"
and bool(optimize_body.get("grounding", {}).get("citation_ready"))
)
print_check("POST /optimize-prompt", optimize_ok)
all_passed &= optimize_ok
inference_ok = run_inference_script(base_url)
print_check("python inference.py", inference_ok)
all_passed &= inference_ok
for task_name in TASKS:
passed, _ = run_task(client, base_url, task_name)
all_passed &= passed
return 0 if all_passed else 1
finally:
if process.poll() is None:
process.terminate()
try:
process.wait(timeout=5)
except subprocess.TimeoutExpired:
if os.name == "nt":
process.kill()
else:
process.send_signal(signal.SIGKILL)
if __name__ == "__main__":
raise SystemExit(main())
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